anexo a.- documentos relevantes encontrados relacionados ... · anexo a.- documentos relevantes...
TRANSCRIPT
1/79
ANEXO A.- Documentos relevantes encontrados relacionados con tecnologías de Celdas Eléctricas con aislamiento en gas SF6.
NÚMERO DE
PUBLICACIÓN TÍTULO SOLICITANTE PRIORIDAD RESUMEN
Se presentó
en México
Todavía
se puede
presentar
JPH0746726 A METAL-CLAD
SWITCHGEAR TOSHIBA
1993JP-0186541
19930729
PURPOSE: To provide a metal clad switchgear capable of preventing
a decrease in dielectric strength of insulating bodies, of being
assembled easily and of decreasing the area of installation.
CONSTITUTION: A partition 1a is provided at the rear of a box body 1A,
and a conductor chamber 1d is formed at the rear of this partition 1a.
A space in front of a partition 1a is divided into 3 stages with partitions
1b and 1c, and breaker boxes 3 are stored in the upper, middle and
lower stages. At the rear end of this circuit breaker box, an insulation
spacer 7A is penetrated and an insulation spacer 7B is also
penetrated in the partition 1a. In a conductor chamber 1d,
connecting conductors 9A, 9B and 9C are raised from a cable head 8
at the bottom end and the upper end is connected to each insulation
spacer 7B.
NO NO
2/79
NÚMERO DE
PUBLICACIÓN TÍTULO SOLICITANTE PRIORIDAD RESUMEN
Se presentó
en México
Todavía
se puede
presentar
FR1284177 A
GB912251 A
US3095490 A
CH390348 A
DE1223918 B
Circuit interrupters WESTINGHOUSE
ELECTRIC
1960US-0011175
19600226
1961FR-0853902
19610225
Each of the three poles of a fluidblast circuit interrupter comprises a
fixed contact carried by the operating cylinder of a puffer
mechanism, whose piston is connected to the movable contact
operating means by two rods extending through the cylinder and
fixed contact structure, the piston during an opening operation,
commencing its movement before the movable contact. Figs. 3A and
3B show a weatherproof porcelain tube housing a cylinder 48 carrying
a contact plate 62 and fixed contact 32, the latter being enclosed in
an orifice 43 communicating with the cylinder 48 through holes in the
plate 62, Fig. 4 (not shown). The movable contact 33 bears, through
springs 34, 35, against a sleeve 37 connected to a verticallymovable
operating rod 22 and carrying another sleeve 39 having a projection
39a engageable with a flange 40 on the contact 33, which is guided
by a sleeve 54 and is connected through contact fingers 50 to a
terminal plate 53 having a contact 5. The sleeve 39 has portions 45
connected to piston-rods 46 secured to a piston 47, the pressure on
whose upper face is stabilized, during contact opening and closing,
by apertures 49 in the cylinder 48. To open, rod 22 is moved
downwards, thus lowering the piston 47 to build up pressure in the
cylinder 48 until members 39a, 40 engage, whereupon contacts 32, 33
separate and the arc between them is extinguished by a fluid blast
from the cylinder 48. The springs 34, 35 faciliate reclosure and provide
the contact pressure. Porcelain housings 24, 25 are mounted on a
housing 11 containing the operating mechanism for the rod 22, and
all three poles of the interrupter are carried on a movable truck 2
which supports a mechanism compartment 13 operating all the pole
mechanisms simultaneously, closing being by solenoid action, thus
tensioning opening springs which are retained latched until tripping.
The interrupter may be used with metal-clad switchgear, its external
contacts 4, 5 co-operating with contacts 7 on a panel 10. Alternative
orifice structures are described, Figs. 8 and 9 (not shown), and the fluid
used may be sulphur hexafluoride, selenium hexafluoride, or one or
both of these mixed with air, carbon dioxide, argon, helium or
nitrogen. Alternatively, air alone may be used or a liquid such as oil.
The current-carrying capacity may be increased by connecting the
interrupter contacts in parallel with main contacts which do not break
the arc.
NO NO
3/79
NÚMERO DE
PUBLICACIÓN TÍTULO SOLICITANTE PRIORIDAD RESUMEN
Se presentó
en México
Todavía
se puede
presentar
RU2287882 C1
RU2005109354 A
SWITCHGEAR AND
CONTROL GEAR
ROVENSKIJ ZD
VYSOKOVOL TNOJ
2005RU-0109354
20050513
FIELD: electrical engineering; indoor metal-clad switchgear cabinets.
SUBSTANCE: proposed switchgear and control gear has frame, relay
compartment, draw-out equipment compartment, busduct
compartment, cable compartment, and power cables. Partition is
provided between draw-out equipment compartment and cable
compartment. Current and potential transformers, ground electrode,
line buses, and power cables are disposed in cable compartment for
cable termination. Partition between draw-out equipment
compartment and cable compartment is detachable structure that
mounts current transformer for turning about its axis through 90 deg.
toward draw-out equipment compartment for their transfer from
working to maintenance position. Such mechanical design is
incorporated in novel series of switchgear and control gear, types KU-
10S and KU-6S, characterized in unique makeup of compartments:
draw-out equipment compartment is disposed in cabinet center
above cable compartment. When in maintenance position, it is
mounted on inventory bogie in maintenance passage affording easy
access to secondary-circuit contacts of current transformer, to power
cables for their termination, and to all kinds of ground-electrode
interlocking devices.
EFFECT: enhanced safety in single-ended servicing, primarily of current
transformers and ground electrode.
NO NO
4/79
NÚMERO DE
PUBLICACIÓN TÍTULO SOLICITANTE PRIORIDAD RESUMEN
Se presentó
en México
Todavía
se puede
presentar
RU2210149 C2 METALCLAD
SWITCHGEAR
ROVENSKIJ ZD AOOT
VYSOKOVOL TNOJ
APPARATURY
2000RU-0117959
20000711
FIELD: electrical engineering. SUBSTANCE: metal-clad switchgear
designed for three-phase power distribution at frequency of 50 and 60
Hz and at voltage of 6-10 kV has draw-out component provided with
mechanism for setting it in working and check-up positions and vice
versa with doors held closed. Metal strip mounted bushing is provided
in partition inserted between collecting-bus compartment and
drawout component compartment. Bottom current-conducting
contact is fixed to current transformer. Insulating partition fitted
between compartments of current transformer and draw-out
component has air clearance ensuring air insulation for bottom fixed
conducting contact of cubicle and movable contact of draw-out
component. Doors provided with lifting and locking device are tightly
fitted over perimeter of opening in draw-out component
compartment. EFFECT: enhanced safety in servicing.
NO NO
5/79
NÚMERO DE
PUBLICACIÓN TÍTULO SOLICITANTE PRIORIDAD RESUMEN
Se presentó
en México
Todavía
se puede
presentar
NO964518 A
AU7030096 A
ZA9608904 A
JPH09168213 A
MA23995 A1
CN1154006 A
MX9604884 A
FR2740621 B1
US5715134 A
BR9605266 A
AU699806 B2
JP2887202 B2
CA2188686 C
EG20949 A
RU2154330 C2
EP0771057 B1
AT196566 T
DE69610393 D1
ES2152003 T3
PT771057 E
NO311393 B1
CN1085902 C
DZ2108 A1
Metal clad, medium
voltage switchgear
ALSTOM
GEC ALSTHOM T &
DSA
GEC ALSTROM T & D
GETS AL STOM T EH D
1995FR-0012642
19951026
A vertical mounting plate (47) supports on one side three split-shell
cylindrical chambers (1,2,3) in plastic material with conducting
external surface. Aligned horizontally and communicating internally
via sealed band-joints (8), the shells are filled with pressurised e.g. SF6
gas. Shells are vertically divided, the halves (1',2',3') next the mounting
plate containing isolating switches capable of connecting feeder
cable terminations (15,32), traversing the plate, with busbars in the
other half-shells (1'',2'',3''), or with earth. One shell (3) is backed by an
insulated case (51) containing single-pole vacuum or SF6 circuit-
breakers - opt., a fuse-cabinet - controlling local MV equipment, e.g.
a transformer, with associated earthing switch (63). An outer cabinet
(41,81,82,83), of metal plates cut, folded and riveted, supports the
equipment and its LV ancillary gear.
SI -
6/79
NÚMERO DE
PUBLICACIÓN TÍTULO SOLICITANTE PRIORIDAD RESUMEN
Se presentó
en México
Todavía
se puede
presentar
EP0750380 B1
AT183030 T
DE69603549 D1
ES2135188 T3
Electrical metal-clad
switchgear
protected against
overvoltages
ALSTOM 1995FR-0007497
19950622
HV substation primary, e.g. copper, phase conductors (1) are each
centrally supported within an e.g. aluminium earthed casing (2) filled
with SF6 gas (3). Oscillatory overvoltages produced e.g. by switching
are attenuated by a carbon-based layer (5B) applied by deposition,
or as a prefabricated sleeve inserted during assembly, over a 3 to 10m
length of the conductor. The layer's thickness is designed to produce
a radial resistance equal to the circuit characteristic impedance, the
attenuator being completed by series capacitance established
between the surfaces of the layer and the casing. Opt., layers are
applied both to the conductor (5B) and the inner casing surface (5A),
or to the latter only. Opt., also, desired capacitance values are
obtained using a different dielectric (6) from SF6.
NO NO
DE9420199 U1
EP0716489 B1
DE59505646 D1
Metal-clad high
voltage switchgear SIEMENS
1994DE-U020199
19941207
1995DE-5005646
19951127
The metal encapsulated high voltage switch gear contains an
isolating gas. A surface wave element (5,7) is arranged in the gas
space for detecting defined gas portions, especially decomposition
products which arise through electric arc action. In one embodiment
the surface wave element is likewise arranged for the detection of
pressure waves. A control device (17) transmits electrical signals
received by an antenna (14,15) on the outside of metal
encapsulation from a processing unit to the surface wave element.
The signal is changed in the surface wave element dependent on
detected data.
NO NO
WO9618201 A1
DE4445061 A1
CN1173239 A
EP0796502 B1
DE59503952 D1
CN1065354 C
METAL-CLAD
SWITCHGEAR WITH A
VACUUM
SWITCHING DEVICE
SIEMENS
1994DE-4445061
19941207
1995DE-5003952
19951130
1995WO-
DE01770
19951130
The invention concerns metal-clad switchgear (1) comprising a gas-
filled container (3) with a three-position disconnector (4) and a
vacuum switching device (6). H.v.h.b.c. fuses are located outside the
container (3) in air. The vacuum switching device (6) takes the form of
a loss-of-vacuum protector with an electromagnetic mechanism (8)
which is likewise housed in the container (3). The switchgear described
is suitable in particular for controlling motors which have a constant
sense of rotation or which commutate.
NO NO
7/79
NÚMERO DE
PUBLICACIÓN TÍTULO SOLICITANTE PRIORIDAD RESUMEN
Se presentó
en México
Todavía
se puede
presentar
DE9410869 U1
EP0690538 B1
DE59502314 D1
Metal-clad gas
insulated high
voltage switchgear
SIEMENS
1994DE-U010869
19940701
1995DE-5002314
19950630
The individual casings (2-7) for the gaseous insulation of components
at high voltage are joined together by flanges (8,9) with an
intermediate flange (10) whose outer contour (11) has projections
(12,13) with holes (20) for the bolts securing the ends (14,15) of cross
struts (16,17). Each projection is shaped as a fork with two tines (18,19)
between which the end of a strut is gripped. The annular section of
the intermediate flange is U-shaped with the limbs (21,22) of the U
carrying the bases (23) of the projections.
NO NO
JPS61141733 U
EP0196240 B1
AT75352 T
DE3684949 D1
Metal-clad gas-
insulated switchgear
apparatus.
MERLIN GERIN
1985JP-U024272
19850222
1986EP-0400323
19860217
Each pole of the earthing switch assembly (10) includes a first and a
second stationary contact (11, 12) cooperating respectively with a
first and a second movable rectilinear contact (13, 14) extending in a
longitudinal parallel direction between an open position and a closed
position, said first stationary contact (11) being electrically connected
to one terminal of the circuit breaker (2), said second stationary
contact (12) being electrically connected to the opposite terminal of
the circuit breaker (2). A common driving plate (15) made of
insulating material is attached inside said vessel (1) to said first and
second movable contact (13, 14) of the three poles, said plate (15)
being perpendicular to the longitudinal direction of said movable
contacts (13, 14). An operating mechanism includes a single
operating shaft (19) extending through a tight bearing of the vessel,
and having an outer end which may be actuated from outside, and
an inner end connected by a cinematic transmission lever (16, 17) to
said driving plate (15) so as to perform opening/closing operations of
the two earthing switches at the same time.
NO NO
8/79
NÚMERO DE
PUBLICACIÓN TÍTULO SOLICITANTE PRIORIDAD RESUMEN
Se presentó
en México
Todavía
se puede
presentar
DE3433362 A1
JPS6166512 A
US4709291 A
EP0174905 B1
AT35350 T
DE3563499 D1
CA1251850 A1
High-voltage gas-
insulated metal-clad
installation divided
into gas-tight
compartments by
means of
partitioning lead-
through insulators.
SIEMENS
1984DE-3433362
19840907
1985DE-3563499
19850816
1985EP-0730107
19850816
For protecting service personnel during maintenance work on a
metal-encapsulated, compressed-gas-insulated high-voltage
switching installation, a protective device is provided which is used if
gas spaces with voltage-carrying conductor parts are bounded by
unilaterally exposed bulkhead bushing insulators. Sensors of the
protective device are arranged at the gas spaces and their signals
are fed via an evaluating unit to a tripping unit for opening feed
switches to cut off the voltage to the conductor elements in the gas
spaces as well as for blocking the reclosing of these feed switches.
NO NO
NO850494 A
BR8500643 A
ES540374 D0
HU189964 B
ES8608243 A1
US4700270 A
EP0152611 B1
DE3472330 D1
Metal-enclosed gas-
insulated switch
installation.
BROWN BOVERI &
COMPAGNIE
1984CH-0000700
19840214
1984CH-0001629
19840330
The switching system, preferably suitable for distributing electric
energies of medium-high voltage, includes a metal housing which is
filled with insulating gas and in which at least one circuit breaker, one
isolating switch, one earthing or grounding system and one busbar are
arranged. In this arrangement, the contact arrangement of the circuit
breaker is located in a housing which is accessible from the outside
without intervention in a busbar housing which contains the busbar.
This system saves parts and has a small space requirement while its
components subject to the most wear are easy to maintain. This is
achieved by the fact that the contact arrangement of the isolating
switch is provided in the busbar housing and that the housing of the
circuit breaker is provided with a housing part of insulating material
which penetrates the wall of the busbar housing as a gas-tight current
lead-through. In a system of three-phase design, the volume of the
busbar housing is additionally reduced by the fact that the three
phase conductors of the busbar are helically wound around a
common axis.
NO NO
9/79
NÚMERO DE
PUBLICACIÓN TÍTULO SOLICITANTE PRIORIDAD RESUMEN
Se presentó
en México
Todavía
se puede
presentar
JPS5516400 A
BR7904426 A
DE2831134 C2
IN150132 A1
MX146896 A
GB2025697 B
US4484047 A
JPH0128447 B2
JP1543844 C
Metal
encapsulated,
pressurized gas
insulated high
voltage switching
apparatus
SIEMENS 1978DE-2831134
19780713
In a metal encapsulated, pressurized gas insulated high voltage
disconnect switch operating at voltages above 245 kV, weak arcs
drawn during the switching operation are prevented from wandering
off, so that they cannot commutate to the encapsulation and
produce an arc to ground, by an electric field in the switching gap
controlled by moving a field electrode jointly with the switching rod,
with the motion cycles of the switching rod and the field electrode
controlled during the closing and opening process in a forced manner
by a lever linkage provided with steering rods for the switching rod
and the field electrode.
SI -
DE7738424 U1
JPS5490541 A
US4232925 A
SU818505 A3
CH632873 A5
HU180694 B
JPS6318405 B2
JP1472241 C
High-voltage three
phase electrical
switch gear
BROWN BOVERI &
COMPAGNIE
1977DE-U038424
19771216
A right angle connection for an SF6-insulated high-voltage switch gear
with three phase conductors is disclosed. The conductors are
arranged in the connection with a straight section and an adjustable
crank section. The crank section is adjustable between two positions
180 DEG apart, so that the connection can be used in either direction.
NO NO
IT7830440 D0
JPS5486738 A
BR7807979 A
ZA7805831 A
US4241379 A
EP0002440 B1
DE2860360 D1
IN151378 A1
DE2754691 C2
SU1166673 A3
IT1100509 B
JPS6223524 B2
JP1498869 C
Single or multiphase
metal-encapsulated
pressurized gas-
insulated high-
voltage switch gear.
SIEMENS
1977DE-2754691
19771206
1978DE-2860360
19781006
In pressurized, gas insulated, high voltage switching installations with
single or polyphase metal encapsulation, a switchgear section
comprises several adjacent pressure tanks having gas tight partitions
for accommodating the high-voltage switchgear and other current
carrying parts. The number of encapsulation tanks is minimized by
arranging the switchgear and current carrying parts belonging to one
bus bar of the section in a first pressure tank, the power circuit
breakers, work grounding switches, current transformers and section
related current carrying parts of the section are arranged in a second
pressure tank and the equipment and current carrying parts required
on the terminal side of each section are arranged in a third pressure
tank.
NO NO
10/79
NÚMERO DE
PUBLICACIÓN TÍTULO SOLICITANTE PRIORIDAD RESUMEN
Se presentó
en México
Todavía
se puede
presentar
DE2149435 A1
JPS4844735 A
CH543183 A
US3777218 A
GB1411797 A
FR2154513 B1
JPS5250372 B2
METAL-CLAD HIGH-
VOLTAGE
SWITCHING SYSTEM
SIEMENS 1971DE-2149435
19710930
An overvoltage arrester for a metal-clad high-voltage switching
system is provided in a separate housing which is filled with an
insulating heavy gas. The separate housing contains a spark gap
arranged in a heavy gas atmosphere which is the same as the
insulating heavy gas filled within the metal encapsulation for the
switching system. The separate housing is connected with the
encapsulation via a valve-controlled gas line. The overvoltage arrester
is particularly well suited for metal-clad high-voltage switching systems
that are insulated by sulfur hexafluoride.
NO NO
DE2759411 A1 MEDIUM VOLTAGE
SWITCH PFISTERER
1977DE-2759411
19770620 NO NO
CN2927427 Y
Structure for
installing isolated
switch in medium-
voltage switch
cabinet
HUATONG ENTERPRISE 2006CN-U044386
20060728
The utility model relates to a middle voltage switch tank isolating
switch installation structure, comprising an isolating switch (20); the
connecting face of an isolating switch (2) is parallel to the tank side
wall; an operation mechanism (21) of the isolating switch (20) is
rotatable; the utility model has the advantages that the middle
voltage switch tank space is used effectively, the isolating switch is not
only to be normally installed in the tank body and to get the satisfied
operation effect, but also to keep the main connecting cable in the
isolating switch tank and the load switch tank main connecting cable
in the constant and to be more applicable to the manufacturing
process requirement because the isolating switch adopts side
installation mode.
NO NO
11/79
NÚMERO DE
PUBLICACIÓN TÍTULO SOLICITANTE PRIORIDAD RESUMEN
Se presentó
en México
Todavía
se puede
presentar
DE29518851 U1
DE19520698 C2
Electrical System, in
particular
Switchgear
RITTER
STARKSTROMTECHNIK
1995DE-1020698
19950607
1995DE-2018851
19950607
A medium voltage switchgear assembly of closed construction has at
least one encapsulated functional module(2), an encapsulated
interference module (3) with at least one damping cartridge and at
least one pressure relief channel (6) attached to the functional
module by an interference-pressure relief element (5). Each damping
cartridge is joined to the outlet of the pressure relief channel by at
least one diverter (7). The cartridge is designed in conjunction with the
pressure relief channel so that the thermal energy of a pressure shock
from an arc of at least 16 kA and lasting one second is absorbed, thus
satisfying specified German criteria. A relief chamber is connected
behind the cartridge.
NO NO
12/79
NÚMERO DE
PUBLICACIÓN TÍTULO SOLICITANTE PRIORIDAD RESUMEN
Se presentó
en México
Todavía
se puede
presentar
CN202978087 U
Sulfur hexafluoride
looped network
switch
G & W ELECTRIC 2012CN-U696457
20121217
The utility model relates to medium-voltage switchgear, in particular to
a sulfur hexafluoride looped network switch which is capable of
achieving integral omniseal without being added with an outer cover
and achieving submerged operation. The sulfur hexafluoride looped
network switch comprises a steel case, an operating mechanism,
epoxy resin sleeves, a connecting and disconnecting device and
devices for fixing the switch, and is characterized in that the operating
mechanism is mounted at the top end of the wall of the steel case
and comprises an operating sealing spindle, sealing shaft double-
sealing rings, a sealing flange, a sealing ring of the sealing flange, a
sealing spindle driving chain rod and a spindle mounting frame, the
operating sealing spindle is fixed on the top wall of the steel case
through the sealing flange and the sealing ring thereof, both the
operating sealing spindle and the sealing flange are provided with
the sealing shaft double-sealing rings, and the operating sealing
spindle is connected with the connecting and disconnecting device
through the sealing spindle driving chain rod. The sulfur hexafluoride
looped network switch has the advantages that integral submerged
operation is achieved without adding the outer cover, and sealing
protection level of the steel case needs to reach IP68; and by the aid
of the operating mechanism in sealing design, the connecting and
disconnecting device can be operated outside the case.
NO NO
BE868580 A1
SE7807368 A
NL7807065 A
DE2729571 C2
SE440572 B
DE2759430 C2
DE2759429 C2
NL186422 C
TOTALLY ENCLOSED
MEDIUM-VOLTAGE
SWITCHGEAR
DRIESCHER
SPEZIALFAB FRITZ
FRITZ DRIESCHER
SPECIALFABRIK
1977DE-2729571
19770630
1977DE-2759429
19770630
1977DE-2759430
19770630
NO NO
13/79
NÚMERO DE
PUBLICACIÓN TÍTULO SOLICITANTE PRIORIDAD RESUMEN
Se presentó
en México
Todavía
se puede
presentar
EP2437277 A1
WO2012041501 A1
Medium voltage
circuit breaker
arrangement
ABB TECHNOLOGY 2010EP-0011389
20100929
The invention relates to Medium voltage circuit breaker arrangement
comprising several switching pols (1a - 1c) which are adjacently
mounted on a support structure (2), wherein the distance between
the switching poles (1a - 1c) can be adjusted at the end of the
production process, wherein each switching pole (1a - 1 c) is fastened
on a corresponding mouting part (6a - 6c) and the mounting parts (6a
- 6c) are attached one to another via intermediate connection parts
(7a - 7b) for defining the distance between the switching poles (1a -
1c).
NO NO
EP2429048 A2
Monitoring and
protection system
for a medium or low
voltage switching
assembly and
method for
operating the same
KÖHL 2010DE-10044922
20100910
The system has a sensor (6) attached to control panels (2, 21, 22) of an
electro-technical system (1) for detecting electrical and/or non-
electrical parameters of the control panels. An evaluation unit (5) is
connected with the sensor for processing the parameters. A switching
device (4) and a speed circuit breaker (8) are connected with the
evaluation unit and the control panels. The circuit breaker is arranged
behind the switching device when viewing in an energy flow
direction. The switching device and the circuit breaker are triggered
by a trigger signal. An independent claim is also included for a
method for operating a monitoring and protection system for use in
an electro-technical system i.e. medium- or low voltage switching
assembly.
NO NO
DE102008023503 B3
WO2009135841 A3
CN101933205 A
EP2274809 A2
IN2664/KOLNP/2010 A
SWITCHGEAR,
ESPECIALLY MEDIUM
VOLTAGE
SWITCHGEAR
SYSTEM
SIEMENS
2008DE-10023503
20080509
2009WO-EP55417
20090505
The invention relates to a switchgear system (1), especially a medium
voltage switchgear system comprising a plurality of switchgears, cable
connections (32) and/or bus bars which are arranged in a switchgear
cabinet (2), the one or more switchgears being arranged in a metal-
encapsulated container (10), which is filled with an insulating gas, on
top of a plurality of fuse cartridges (20) having fuse elements (16). The
container (10) is provided with at least one pressure relief device (24)
having a predetermined direction of relief (R), the fuse cartridges (20)
being associated with at least one bulkhead element (22.1 to 22.n) on
at least one side facing the direction of relief (R).
NO NO
14/79
NÚMERO DE
PUBLICACIÓN TÍTULO SOLICITANTE PRIORIDAD RESUMEN
Se presentó
en México
Todavía
se puede
presentar
CN201097433 Y
A middle-voltage
metal closed switch
device
BEIHAI YH TECH 2007CN-U146188
20070412
Disclosed is a medium-voltage metal closed switch apparatus,
comprising a cabinet body. The medium-voltage metal closed switch
apparatus is characterized in that the cabinet body is divided into an
air-box chamber, a circuit breaker chamber, a cable chamber and a
control chamber; the circuit breaker chamber is provided with a
vacuum circuit breaker handcart which can make horizontal
movement and fix the vacuum circuit breaker; up and down
contacting arms of the vacuum circuit breaker can be respectively
inserted into or detached from jacks in plug boxes of a bus-line air box
and a feeder-line chamber air box. With small occupied space, strong
insulation capability and convenient operation, the medium-voltage
metal closed switch apparatus meets the operating habits of most
operators, improves the safety performance and can be widely used
for three-phase AC power transmission and distribution systems of 7.2
to 12 KV, 50 HZ.
NO NO
FR2909230 B1
Insulating casing for
e.g. high or medium
voltage circuit
breaker, has two
half-shells
connected to each
other, where one of
half-shells has
membrane
constituting
impaired zone
directly obtained by
molding of half-shells
AREVA T&D 2006FR-0055057
20061123
The casing has two half-shells connected to each other, where one of
the half-shells has a membrane (46) constituting an impaired zone
directly obtained by molding of the half-shells, where the casing is
made of a thermoplastic material e.g. aromatic polyamide.
Circumference of the membrane has square corners favoring strong
concentration zones of the constraints. The half-shell (40) has a
peripheral edge (42), whose shape is adapted to a peripheral edge
of other half-shell.
NO NO
15/79
NÚMERO DE
PUBLICACIÓN TÍTULO SOLICITANTE PRIORIDAD RESUMEN
Se presentó
en México
Todavía
se puede
presentar
FR2903241 A1
High/medium
voltage electrical
equipment's e.g.
circuit breaker,
casing, has upper
and lower half shells
connected with
each other and
assembled with
each other by their
edges and by
thermal welding,
where shells are
made of polyamide
AREVA T&D 2006FR-0055056
20061123
The casing has two half-shells, namely upper half shell (40) and a
lower half shell (50), connected with each other. The shells are made
of thermoplastic material e.g. aromatic polyamide, and are
assembled with each other by their edges and by thermal welding.
The upper half-shell has a tube (46) to permit the filling of an electrical
equipment with dielectric gas. Three conducting bars corresponding
to three connection phases of the equipment conveys electric
current inside the equipment.
NO NO
DE10308573 A1
Electrical switch for
handling medium
and high voltages,
has tubular
insulating housing
with fins on the
outside, containing
armatures facing
each other with
fixed and movable
contact pieces
SIEMENS 2003DE-1008573
20030221
The electrical switch (1) has a vacuum tube (4) inside the tubular
insulating housing (3). The housing has fins on the outside and has a
smooth inside diameter. It contains armatures (7,8) mounted on end
pieces and facing each other. The armatures hold the ends of the
vacuum tube and upper fixed (5a) and lower movable (5b) contact
pieces forming a circuit breaker. The armatures have ring-shaped
flanges (9,10) surrounding the ends of the vacuum tube. The switch is
mounted on a pedestal (2) and there is a linkage for moving the lower
contact piece.
NO NO
16/79
NÚMERO DE
PUBLICACIÓN TÍTULO SOLICITANTE PRIORIDAD RESUMEN
Se presentó
en México
Todavía
se puede
presentar
DE10219299 B3
Gas-insulated single-
pole switching
device has load
breaker and
earthing switches
within gas-tight
housing having
cylindrical section
fitted with at least
one concave end
wall
SIEMENS 2002DE-1019299
20020425
The switching device (1) has an electrically-conductive gas-tight
housing (3) filled with an insulation gas having a cylindrical section (6)
fitted with 2 end walls (4,5), containing load breaker and earthing
switches (14,25), with insulation of the housing relative to the switches
and the electrical connections (2,10,13,15,16). The load breaker
switch has a switch mechanism with a linear displacement in the
longitudinal direction of the housing cylindrical section, at least one
end wall of the housing bent outwards with a concave curvature.
NO NO
WO200034969 A1
DE19858952 C1
EP1141984 A1
CN1328691 A
ELECTRIC CIRCUIT
BREAKER SIEMENS
1998DE-1058952
19981210
1999WO-
DE03958
19991207
The invention relates to an electric circuit breaker, notably for high or
medium voltages. According to the invention, a damping unit (13, 21)
comprising a space which is only partly filled with damping elements
(18, 24) is arranged in the quenching gas stream. The damping
elements move in a dissipative manner and thus cool and slow down
the quenching gas stream.
NO NO
17/79
NÚMERO DE
PUBLICACIÓN TÍTULO SOLICITANTE PRIORIDAD RESUMEN
Se presentó
en México
Todavía
se puede
presentar
NO942541 A
DE4322530 A1
EP0633587 B1
AT149739 T
DE59401884 D1
NO306188 B1
Gas-insulated metal
clad middle tension
switching cell.
DRIESCHER
SPEZIALFAB FRITZ
1993DE-4322530
19930707
1994DE-5001884
19940706
An encapsulated medium-voltage switching cell which is filled with
insulating gas, has a sealed enclosure (1) filled with insulating gas, has
at least one first stationary contact (6) which is insulated from the
enclosure, has at least one second contact (10) which is at a distance
therefrom, is electrically conductively connected to the enclosure
and is earthed, has at least one third contact (13) which is arranged
at a distance from the two contacts (6, 10), has at least one contact
bolt (15) which is guided essentially in a straight line in an insulated
manner in the enclosure and is electrically conductively connected
(16, 36) to the third contact (13) at one end, has at least one
switching shaft (18) which is mounted in the enclosure such that it can
rotate, is electrically insulated and moves the contact bolt (15) and
the electrical connection (16, 36) to the third contact (13), has a
crank arm (19), and has at least one approximately vertical guide (20)
which is hinged thereon and has a hinged connection (17) to the
contact bolt (15), the contact bolt (15) making contact with the first
contact (6) in the first position of the switching shaft (18) and the
electrical connection (16, 36) making contact with the second
contact (10) in the second position of the switching shaft (18), and
none of the contacts (6, 10) making contact in the intermediate,
central position.
NO NO
18/79
NÚMERO DE
PUBLICACIÓN TÍTULO SOLICITANTE PRIORIDAD RESUMEN
Se presentó
en México
Todavía
se puede
presentar
ITMI911436 A1
IT1252615 B
Sulphur-
hexafluoride-
insulated three-
position medium
voltage
operating/switching
equipment
TOSI GIAMPIETRO 1991IT-MI01436
19910524
Sulphur-hexafluoride-insulated three-position medium voltage
operating/switching equipment comprising a series of three poles in
which each pole is provided with a fixed contact and a moving
contact, the fixed contact being associated with a male arch
contact and the moving contact being located on an arm which can
be hinged and can rotate between a first closed position engaging
the fixed contact, a second open position and a third earthed
position. The moving and fixed contacts of the set of three poles are
arranged on three insulating supporting members which are in turn
attached to a single supporting beam, each of the arms bearing the
moving contacts being associated through insulated leverage with a
corresponding cylinder pumping sulphur hexafluoride to the fixed
contact, a metal drainage element being also located between
each of the insulating supporting members and the pumping
cylinders.
NO NO
ITMI911435 A1
IT1260588 B
Sulphur-
hexafluoride-
insulated three-
position medium
voltage
operating/switching
equipment
TOSI GIAMPIETRO 1991IT-MI01435
19910524
Sulphur-hexafluoride-insulated three position medium voltage
operating/switching equipment comprising a series of three poles in
which each pole is provided with a fixed contact and a moving
contact, the fixed contact being associated with a male arch
contact and the moving contact being located on an arm which can
be hinged and can rotate between a first closed position engaging
the fixed contact, a second open position and a third earthed
position. The moving and fixed contacts of the set of three poles are
arranged on three insulating supporting members which are in turn
attached to a single supporting beam, each of the arms bearing the
moving contacts being associated through insulated leverage with a
corresponding cylinder pumping sulphur hexafluoride to the fixed
contact, a metal drainage element being also located between
each of the insulating supporting members and the pumping
cylinders.
NO NO
19/79
NÚMERO DE
PUBLICACIÓN TÍTULO SOLICITANTE PRIORIDAD RESUMEN
Se presentó
en México
Todavía
se puede
presentar
JPH03192622 A
US5155315 A
FR2655766 B1
EP0433184 B1
AT118643 T
DE69016967 D1
ES2071068 T3
JP3043399 B2
CA2031334 C
Hybrid-medium high
voltage circuit
breaker.
MERLIN GERIN 1989FR-0016443
19891211
The circuit-breaker includes main contacts (26, 30) and a vacuum
canister (38) in parallel which ensures disconnection, the whole being
contained in an enclosure (10) filled with sulphur hexafluoride. The
canister is designed for dielectric holding in this gas. The contacts of
the canister (38) are of a refractory material and a coil generates an
axial magnetic field in the region of the arc.
NO NO
CN1044008 A
JPH02230625 A
BR9000007 A
US4983789 A
CN1016548 B
AT102741 T
DE69007136 D1
CA2006934 C
FR2641409 B1
EP0380907 B2
JP2655733 B2
High and medium
voltage gas blast
circuit breaker.
ALSTOM
GEC ALSTOHM
1989FR-0000009
19890102
1990EP-0100019
19900102
High and medium voltage gas-blast circuit-breaker comprising a
pressurised dielectric gas-filled cylindrical insulating surround, a main
stationary contact (2), a stationary arc contact (3) and a movable
gadget connected to an operating member comprising a main
moving contact (5A), a moving arc contact (4A) and a blast cylinder
(5) associated with a blast nozzle (6) and co-operating with a first
piston (13), a second piston (14) integral with the movable gadget
and sliding in a second stationary cylinder (8B), characterised in that
the second piston (14) has a large cross-section in relation to the cross-
section of the blast cylinder, the said second piston being associated
with means (15) of low charge loss communication with the arc zone,
the said second piston being drilled with calibrated orifices (14C) in
order to limit the pressure on that face of the said piston receiving the
gases heated by the arc. <??>Applications to high and medium
voltage circuit-breakers.
NO NO
20/79
NÚMERO DE
PUBLICACIÓN TÍTULO SOLICITANTE PRIORIDAD RESUMEN
Se presentó
en México
Todavía
se puede
presentar
CN1036659 A
BR8901362 A
JPH02148526 A
US4945198 A
CN1017578 B
CA1309443 C
EP0334181 B1
AT99829 T
DE68911962 D1
FR2629260 B1
FR2640420 B2
JP2577080 B2
High-tension switch
with a reduced
driving energy.
ALSTOM
1988FR-0003803
19880323
1988FR-0016138
19881208
1989EP-0104558
19890315
High-tension pressurised dielectric gas switch of the type including at
least one cut-off chamber comprising an insulating surround filled with
the said gas and inside which are placed an assembly comprising a
stationary main contact (2) and a stationary arc contact (4), a
movable assembly comprising in particular a movable main contact
(7) and a movable arc contact (5), the cut-off chamber further
comprising a snuffing cylinder opening into a snuffing nozzle and a
pair of secondary contacts, characterised in that it includes first
means (37, 38, 104) for limiting the maximum distance of separation of
the secondary contacts to a value less than the maximum distance of
separation of the arc contacts and second means (6C, 101) for
preventing any sparking on triggering.
NO NO
FR2628258 A1
Gas filled medium-
voltage switch with
composite envelope
- metal centre
section supports
operating shaft and
moving contacts
and is capped by
insulating sections
carrying fixed
elements
MERLIN GERIN 1988FR-0003092
19880307
A rectangular metal shell (36), with continuous flanges (54,56) around
its sides and ends, supports a switch operating shaft (22). This carries
on insulators three sets of contact arms (28) terminating at each end
in twin-blade knife-edge arrangements (30). The shell is closed, top
and bottom, by moulded bolt-on (58) insulating caps (38,40) each
incorporating three separate conical sections along their length.
These cones support inserts (18) with solid contact ends (14) and have
helical insulator fins (68) disposed outside around each. Each pole of
the switch has associated internal earthing arrangements (70,72)
which link one row of inserts (20) to the frame (36) on selecting on
intermediate shaft position. An inspection window is provided for
checking contact position and operation. ADVANTAGE - Central
metal shell and insulating closures allows advantage of gas filling to
be obtd. without problems of sealing and assembly encountered in
other structures.
NO NO
21/79
NÚMERO DE
PUBLICACIÓN TÍTULO SOLICITANTE PRIORIDAD RESUMEN
Se presentó
en México
Todavía
se puede
presentar
AU2341688 A
NO884449 A
ZA8807265 A
CN1033716 A
FR2621427 B1
AU606750 B2
EP0311472 B1
DE3873677 D1
SG134692 G
ES2035340 T3
NO174867 B
HK35694 A
Medium-voltage
prefabricated
switchboard with a
rotary interruptor.
MERLIN GERIN 1987FR-0013883
19871006
A low-voltage, medium-voltage prefabricated switch panel with air
insulation comprises in each cell a sulphur hexafluoride-filled insulated
rotary switch 26. All the cells of the switch panel have the same depth
and the same height, the width varying according to the equipment
incorporated in the cell, so as to minimise the size of the switch panel.
The elements of the same phase are arranged in the same polar
plane R, S, T, these planes being offset depthwise from the cell with a
spacing corresponding to the maximum depthwise size of a particular
item of equipment.
NO NO
DE3540586 A1
Switch housing,
which is
encapsulated in a
gas-tight manner,
for gas-insulated
electrical medium-
voltage or high-
voltage
apparatuses
BROWN BOVERI &
COMPAGNIE
1985DE-3540586
19851115
The interior of a switch housing (10), which is encapsulated in a gas-
tight manner, for gas-insulated electrical medium-voltage or high-
voltage apparatuses is connected to the interior of an expansion
vessel (14, 16) which has such an expansion capacity and is otherwise
dimensioned and designed such that, on reaching a defined limiting
gas overpressure value in the interior of the switch housing, it can
absorb an element of at least ten per cent of the gas volume in the
switch housing. The expansion vessel can be constructed as a metal
bellows or plastic bellows or as a balloon (preferably trapped inside a
cage) consisting of rubber-elastic material or, finally, it can be formed
from a piston/cylinder arrangement. In consequence, in particular,
relief of the stress on the sealing points of the encapsulated switch
housing can be achieved.
NO NO
22/79
NÚMERO DE
PUBLICACIÓN TÍTULO SOLICITANTE PRIORIDAD RESUMEN
Se presentó
en México
Todavía
se puede
presentar
DE3417299 A1
CS250246 B2
Metal-
encapsulated, gas-
insulated switching
installation
BROWN BOVERI &
COMPAGNIE
1984CH-0001629
19840330
The switching installation comprises a metal housing (1) which is filled
with insulating gas and in which at least one power circuit breaker (2),
an interrupter circuit breaker, an earth and a busbar (25) are
arranged. In this case, the contact arrangement of the power circuit
breaker (2) is located in a housing (7) which is accessible from the
exterior without having to gain access into a busbar housing (13)
which surrounds the busbar (25). This installation is intended to be
distinguished by a saving of parts and small space requirements with a
high level of ease of servicing of its components which are most highly
stressed. This is achieved in that the contact arrangement of the
interrupter circuit breaker is provided in the busbar housing (13) and in
that the housing of the power circuit breaker (2) has a housing part
(12) which consists of insulating material and passes through the wall
of the busbar housing (13) as a gas-tight power bushing. In the case of
an installation of three-phase construction, the volume of the busbar
housing (13) is additionally further reduced in that the three phase
conductors of the busbar (25) are wound around a common axis in
the form of a helix. Such a switching installation is preferably suitable
for distributing medium voltage electrical power.
NO NO
23/79
NÚMERO DE
PUBLICACIÓN TÍTULO SOLICITANTE PRIORIDAD RESUMEN
Se presentó
en México
Todavía
se puede
presentar
BE819340 A1
NL7411071 A
JPS5050645 A
ES429465 A1
FR2242794 B1
GB1459603 A
IT1016887 B
CH596684 A5
JPS604642 B2
JP1287876 C
DE2438951 C2
NL179858 C
MEDIUM VOLTAGE
SWITCHBOARD
MORE
PARTICULARLY FOR
FEEDING OF A
TRANSFORMER
SUBSTATION
MERLIN GERIN 1973FR-0031479
19730830
A switchboard particularly adaptable for ring main and T-junctions
comprises a plurality of adjacently disposed air insulated cells, Fig. 1
(and Fig. 8, not shown), each cell including an air insulated busbar
compartment 22, Fig. 3, and a three-pole horizontally arranged
puffertype circuit-breaker in an insulating gastight enclosure 26 filled
with electronegative gas, which enclosure forms a horizontal portion
of a partition wall between the busbar compartment and the rest of
the cell. Additional equipment for individual cells can comprise an
earthing switch 74, protective line fuses 72 for the outgoing equipment
and a variety of alternative cable entry and termination means. The
puffer-type circuit-breaker, Fig. 10, has a monobloc-type moulded
housing 118 with a sealed rear cover 114, and with an internal
mounting member 142 for the movable contact rods 132 there is
formed a rear compartment 111 in which a common drive shaft 124,
individual insulating cranks 126 and link couplings 128, 130 for each
pole are situated, the contact rods being connected to busbar side
terminals 40, 42, 44 of the circuit-breaker by flexible braids 154. In a
front compartment 116 the end face 140 of the housing supports
incoming terminals 34, 36, 38 and fixed contacts 136 whilst the puffer
device comprising a piston, nozzle and aperture assembly 146, 148,
150 is secured by the movable contact 134 to the contact rod 132
and cooperates with an open-ended cylinder 144 integral with the
member 142. The rear compartment 111 also contains an earth bar
156 more closely spaced to the live link coupling 130 than the
separated distance of the two contacts 134, 136 so that an excessive
voltage rise on the busbar side will flashover to earth rather than
across the contacts when the breaker is open.
NO NO
24/79
NÚMERO DE
PUBLICACIÓN TÍTULO SOLICITANTE PRIORIDAD RESUMEN
Se presentó
en México
Todavía
se puede
presentar
WO2010076401 A1
CA2747692 A1
AU2009334695 A1
EP2359378 A1
US2011232959 A1
CN102257588 A
JP2012513183 A
IN4273/CHENP/2011 A
FR2940516 B1
RU2011129601 A
MEDIUM VOLTAGE
ELECTRIC
DISTRIBUTION CELL
SCHNEIDER ELECTRIC
2008FR-0007108
20081218
2009WO-FR01355
20091130
The invention relates to a medium voltage electric distribution cell to
be placed between two portions of an electric circuit so as to provide
at least the functions of enabling the current flow between the
portions, interrupting the current between the portions, cutting off the
current, and grounding, respectively. The cell is characterised in that it
comprises a switch (or circuit breaker) (1) of the vacuum cut-off
technology, which can also be used as a selector and, in series with
said switch (circuit breaker) (1), as a selector (2) with at least two
positions, i.e. a current flow position and a position for grounding one
of the circuit portions, respectively.
NO NO
DE102008024069 A1
EP2120305 A3
Electrical switching
unit, in particular for
medium voltage
AREVA
ENERGIETECHNIK
2008DE-10024069
20080517
The electrical switching unit (10) has an encapsulated electrical
function module (16) with a pressure relief element (20), over which a
pressure impulse (22), developed by a breakdown, escapes. The
pressure relief element is assigned a diffuser (25), which is formed,
particularly of perforated sheet or lamellae baffle or grid. The pressure
impulse, developed by the pressure relief element, impinges on the
diffuser.
NO NO
DE202008012187 U1
Power transformer
with pressure relief in
function connected
with the pressure
relief of the medium-
voltage switchgear
MEULEMAN ANDRE 2008DE-20012187
20080403
Power transformer with pressure relief in function connected with the
pressure relief of the medium-voltage switchgear, by the fact
characterized that the pressure resistant transformer (1), for example a
fixed sheet metal boiler, laterally, above or down a pressure relief
device (3) and this pressure relief (3) in the pressure relief system of the
medium-voltage switchgear (2) has in that the medium-voltage
switchgear (2), for example SF6, air or with other medium isolates, also
a pressure relief device (4) is included has and in a pressure relief
system (5) is led that is designed pressure to reduce fires and heat so
far and cool down that none of the persons in the surrounding field to
damage to come.
NO NO
25/79
NÚMERO DE
PUBLICACIÓN TÍTULO SOLICITANTE PRIORIDAD RESUMEN
Se presentó
en México
Todavía
se puede
presentar
DE102006052131 A1
Pressure resistant
transformer e.g.
fixed sheet metal
boiler, has pressure
releasing device
embraced in
pressure releasing
system of switching
system, where
releasing system
minimizes and cools
pressure, fire and
hotness in
transformer
MEULEMAN ANDRE
2006DE-10026440
20060607
2006DE-10052131
20061106
The transformer (1) has a pressure releasing device (3) i.e. shear disk,
which is embraced in a pressure releasing system (5) of a middle
voltage switching system (2). The switching system isolates air, sulphur
fluoride and has an another pressure releasing device (4). The
pressure releasing system is designed such that it minimizes and cools
pressure, fire and hotness in the transformer. Two cooling circuits are
provided, where one of the circuit comprises a cooling system with an
inner radiator (7) that is connected with another radiator (8) attached
outside the transformer.
NO NO
BE1015445 A3
EP1463172 B1
AT493783 T]
DE602004030739 D1
Electrical switchgear HET VEER 2003BE-0000196
20030326
The cabin has a wall with a decompression vent hole that is coupled
by a flexible cable to an automatic grounding device in manner to
actuate the device for grounding a conductor (2) during the
occurrence of an electric arc in the conductor. Another grounding
device has a conducting arm displaced between a contact and a
non-contact position with the conductor by a displacing unit that is
accessible from outside the cabin. The former grounding device is
actuated for grounding the conductor in case of opening of the vent
hole under the effect of shock waves provoked by the occurrence of
the electric arc in the cabin. The two grounding devices are arranged
functionally independent of each other.
NO NO
26/79
NÚMERO DE
PUBLICACIÓN TÍTULO SOLICITANTE PRIORIDAD RESUMEN
Se presentó
en México
Todavía
se puede
presentar
DE10254497 B3
Short-circuit device
for arcing protection
of energy
distribution network,
uses energy
provided by
chemical reaction
mixture for
displacement of
short-circuit contact
MOELLER 2002DE-1054497
20021122
The short-circuit device has a reaction chamber (20) filled with a
chemical reaction mixture in which a reaction is initiated by an
activation device, for supplying a reaction energy causing a first
switch piece within a switch chamber (SK) to move into contact with
a second switch piece for providing a short-circuit. The activation
device has a light detector optical fibre (OL), providing a light signal
for activation of the reaction upon detection of arcing light within the
energy distribution network (EF), the light signal fed directly to the
reaction chamber.
NO NO
DE10104673 A1 SWITCHGEAR ABB 2001DE-1004673
20010202
It a Switchgear by a Transformer, which is accommodated in its own
Transformer Switchgear Cabinet Compartment, descriptive, by the
fact marked is that if necessary on the Medium Voltage Side of the
Transformatorschaltschrankabteiles (11) a Medium Voltage Housing
Compartment (17a) with a Load Disconnecting Switch (17) and with
Protection Facilities and on the Low-voltage Side at the Transformer
Switchgear Cabinet Compartment (11) attaches a Low-voltage
Housing Compartment (20a) with a low-voltage circuit-breaker (20).
NO NO
NO951399 A
CN1118512 A
FR2718896 B1
EP0677905 B1
AT183337
DE69511309 D1
ES2135017 T3
DK0677905 T3
CN1052333 C
Medium voltage
switchgear cell with
position indication.
ALSTOM 1994FR-0004472
19940414
The circuit breaker includes a housing having a panel or access door
(10) enclosing the three poles of a circuit breaker, contactor or switch.
These poles are mounted on a common spindle, rotating about an
axis (14), to produce the circuit breaking action. The access door has
a porthole (11), enabling part of a face (5A) of an inner enclosure (5),
to be seen. This enclosure face has an opening (12), for viewing a
mechanical indicator ((13,13A) of the open or closed state, of the
switch. The indicator has segments (21') on its surface, with two
complementary segments (23',23'') on the enclosure face. These
segments are visible through the porthole, centred about the spindle
axis. Housing segments (25',25'') may provide additional fixed
indications.
NO NO
27/79
NÚMERO DE
PUBLICACIÓN TÍTULO SOLICITANTE PRIORIDAD RESUMEN
Se presentó
en México
Todavía
se puede
presentar
DE3528770 A1 Medium-voltage
switching installation
ELEKTROTECHNISCHE
WERKE FRITZ
DRIESCHER & SOHNE
1985DE-3528770
19850810
A metal-encapsulated medium-voltage switching installation (2) has a
switching element (32) which operates as an interrupter switch, is
supported such that it can move in a pivoting manner and can be
engaged with at least one mating contact (38, 40). In this case, the
mating contacts (38, 40) each have a curved track (48) so that the
moving switching element (32) executes a radial forced movement
when it moves into the contact limit position. This forced movement is
transmitted onto a load or power switch, especially in the form of a
vacuum switch (12), so that the vacuum switch (12) is closed in the
two contact limit positions of the switching element (32) but in
contrast is open in all the intermediate positions between the mating
contacts (38, 40) of the vacuum switch (12). In this case, the closing
and opening of the vacuum switch takes place after and respectively
before the contact-making and interruption respectively of the
interrupter switch so that reliable, load-free switching of the interrupter
switch is ensured.
NO NO
DE2813693 A1
ISOLATE-GAS-FILLED,
PRESSURE RESISTANT
TOTALLY ENCLOSED
MEDIUM-VOLTAGE
SWITCHGEAR
FRITZ DRIESCHER
SPEZIALFABRIK FUR
ELEKTRIZITATSWERKSBE
DARF
1978DE-2813693
19780330 NO NO
28/79
NÚMERO DE
PUBLICACIÓN TÍTULO SOLICITANTE PRIORIDAD RESUMEN
Se presentó
en México
Todavía
se puede
presentar
FR2982087 A1
Tulip-type electrical
contact for circuit
breaker in high or
medium voltage
metal tank, has
space defined
between two
adjacent blades
and extended
through hole formed
in continuity of
junction zone
between blades
and base
ALSTOM
TECHNOLOGY
2011FR-0059828
20111028
The contact (1) has a crown (10) of fingers (3) arranged side by side
along the generatrix of a cylinder and joined by a common base (2).
Each finger includes an elongated blade portion (30) integral with the
base, and a curved end portion forming a contact pad (31) whose
distance in relation to an axis of the cylinder is less than that of the
blade portion. A space (300) defined between two adjacent blades is
extended through a hole (4) formed in continuity of a junction zone
between the blades and the base.
NO SI
29/79
NÚMERO DE
PUBLICACIÓN TÍTULO SOLICITANTE PRIORIDAD RESUMEN
Se presentó
en México
Todavía
se puede
presentar
CN202172230 U
Medium-voltage
double-power
combined electrical
apparatus
HUZHOU TAILUN
ELECTRIC POWER
EQUIPMENT
2011CN-U310025
20110824
The utility model discloses a medium-voltage double-power
combined electrical apparatus which comprises a box body, a first
spring operation mechanism, a second spring operation mechanism,
an outgoing cable pile head, a left incoming cable pile head, a right
incoming cable pile head, a double-power load switch and a second
load switch, wherein the box body is a sealed box body; the double-
power load switch and the second load switch which are connected
in series are installed in the box body; the first spring operation
mechanism, the second spring operation mechanism and the
outgoing cable pile head are arranged on a front panel of the box
body; the left incoming cable pile head is arranged at the upper part
of a left side plate of the box body; the right incoming cable pile
head is arranged at the upper part of a right side plate of the box
body; the left incoming cable pile head and the right incoming cable
pile head are respectively connected at the connection part of two
powers of the double-power load switch; the outgoing cable pile
head is connected to the second load switch; the first spring
operation mechanism is connected to the double-power load switch;
and the second spring operation mechanism is connected to the
second load switch. The medium-voltage double-power combined
electrical apparatus reduces the cost and improves the reliability and
the high efficiency of a power supply system.
NO SI
DE202010017261 U1
DE102011007062 A1
Electrical
Switchgear, in
particular Medium-
voltage Switchgear
AREVA
ENERGIETECHNIK
2010DE-20017261
20100421
2011DE-10007062
20110408
The switchgear has a distribution panel (10) including a bus bar (16)
and a transfer rail (29), where the bus bar is connected via a circuit
breaker (21) to an outlet terminal (27), and the transfer rail is
connected to the outlet terminal. The circuit breaker is housed inside
a circuit breaker housing (20), and the transfer rail and an electrical
connection from the transfer rail to the outlet terminal are arranged to
bypass the circuit breaker housing. The circuit breaker is connected to
the bus bar and the outlet terminal via disconnecting/grounding
switches (17). An independent claim is also included for a method for
operating a distribution panel.
NO NO
30/79
NÚMERO DE
PUBLICACIÓN TÍTULO SOLICITANTE PRIORIDAD RESUMEN
Se presentó
en México
Todavía
se puede
presentar
DE102010017914 A1
Medium-voltage
electrical
switchgear, has
transfer rail
connected with
outlet terminal, and
power switch
accommodated in
power switch
container, where
transfer rail is
arranged on switch
container
AREVA
ENERGIETECHNIK
2010DE-10017914
20100421
The switchgear has an outlet display (10) comprising a bus bar (16)
and a transfer rail (29), where a power switch (21) is connected with
an outlet terminal (27) through the bus bar. The transfer rail is
connected with the outlet terminal. The power switch is
accommodated in a power switch container (20), where the transfer
rail is arranged on the switch container. The power switch is
connected with a disconnecting switch or a ground electrode switch
(17) over the bus bar, where the power switch is connected with the
outlet terminal through the disconnecting switch or the electrode
switch. An independent claim is also included for a method for
operating an electrical switchgear or an outlet display of the
electrical switchgear.
NO NO
WO2011054933 A1
DE102010004919 A1
SINGLE- OR DOUBLE-
POLE ELECTRIC
SWITCHGEAR, IN
PARTICULAR A
MEDIUM VOLTAGE
SWITCHGEAR
AREVA
ENERGIETECHNIK
2009DE-10052251
20091106
2010DE-10004919
20100119
The invention relates to a single- or double-pole electric switchgear, in
particular a medium voltage switchgear. The switchgear is provided
with a switchboard section (10), which comprises a housing (11) in
which a bus bar (13), an isolator/grounding switch (14) and a circuit
breaker (16) are accommodated. The bus bar (13) is oriented
approximately horizontally, and the circuit breaker (16) has a
longitudinal axis (18), which is likewise oriented approximately
horizontally.
NO NO
31/79
NÚMERO DE
PUBLICACIÓN TÍTULO SOLICITANTE PRIORIDAD RESUMEN
Se presentó
en México
Todavía
se puede
presentar
EP2249363 A1
Arrangement,
substation,
operating method
and use of a
grounding switch for
protecting an
electrical circuit
against short-line
faults
ABB RESEARCH
CENTER
2009EP-0159681
20090507
The invention relates to an arrangement (1) for protecting an
electrical circuit from damage caused by a short-line fault, comprising
a circuit breaker (2) that connects a generator or busbar (4) with a
line (5), wherein a grounding switch (3) is provided that connects the
line (5) to ground. The invention further relates to a method for
operating such an arrangement that comprises the steps of initially
setting the circuit breaker (2) into a closed state and the grounding
switch (3) into an open state, and upon detection of a short-line fault
opening of the circuit breaker (2) and closing of the grounding switch
(3). The invention still further relates to the use of a grounding switch
(3) together with a circuit breaker (2) to protect an electrical circuit
from damage caused by a short-line fault by suppressing transient
recovery voltages.
NO NO
DE102008024142 A1
EP2124306 A3
Electrical switching
unit for an electrical
switching assembly,
in particular for
medium voltage
AREVA
ENERGIETECHNIK
2008DE-10024142
20080519
The electrical switch unit has a contact rail (26), which is guided into a
guiding part (23) that is connected with a voltage converter
connection (19). The contact rail is moved into two positions, where in
former position the contact rail is connected with a busbar (14) and in
the latter position the contact rail is connected with an earthed
housing (11).
NO NO
DE102007003131 A1
WO2008087142 A3
EP2109925 A2
US2010006405 A1
POWER BREAKER
AND METHOD FOR
PRODUCTION
THEREOF
SIEMENS
2007DE-10003131
20070117
2008WO-EP50404
20080115
A circuit breaker has a housing and switching elements arranged
within the housing for switching electrical power. Each switching
element has a longitudinal direction which corresponds to the
direction of a current flow with the switching element closed or which
is parallel thereto. The circuit breaker is a three-phase breaker and has
three switching elements the longitudinal directions of which are
parallel, the three switching elements being arranged adjacent to
each other in a cross-section plane perpendicular to the longitudinal
directions and forming the vertices of a triangle.
NO NO
32/79
NÚMERO DE
PUBLICACIÓN TÍTULO SOLICITANTE PRIORIDAD RESUMEN
Se presentó
en México
Todavía
se puede
presentar
WO2007137780 A1
DE102006024991 A1
EP2030212 A1
DE202006020625 U1
IN9419/DELNP/2008 A
US2009120773 A1
CN101454859 B
HK1133950 A1
METHOD FOR
EXTINGUISHING AN
INTERFERENCE ARC
IN A MID- AND HIGH-
TENSION
SWITCHGEAR
ASSEMBLY AND
SHORT CIRCUIT
DEVICE ITSELF
ABB TECHNOLOGY
2006DE-10024991
20060530
2007WO-EP04671
20070525
The invention relates to a method for extinguishing an interference arc
in a mid- and high-tension switchgear assembly, with which,
according to the preamble of patent claims 1 and 3, at least one
short circuit element is connected between the phases of a three-
phase alternating current distributor. In order to extinguish the
interference arc more reliably, the invention proposes that the
interference is detected by sensors and that the short circuit switching
element is fired by means of an explosive charge that impacts directly
on the short circuit switching element on a conical contact structure
complementary to the short circuit element connected to the three-
phase power lines in such a way that, with the help of the
complementary contours of the short circuit switching element and
the three-phase power lines, self-locking persistence is achieved in the
short circuit condition without having to apply a retaining force.
NO NO
FR2886454 B1
EP1729316 B1
AT499695 T
DE602006020208 D1
ES2361821 T3
Medium voltage
switching device POMMIER
2005FR-0005476
20050531
The device has a case (10) divided into two main compartments,
where one of the compartments is sealed and placed under
controlled temperature and includes disconnecting switches (110,
116). The other compartment includes a circuit breaker (112) and a
transformer (114) and a trap door (32) for permitting an operator to
access the units. The latter compartment has a sealing unit adapted
to guarantee sealing of the latter compartment in closed state of the
door.
NO NO
33/79
NÚMERO DE
PUBLICACIÓN TÍTULO SOLICITANTE PRIORIDAD RESUMEN
Se presentó
en México
Todavía
se puede
presentar
DE102005009207 A1
WO2006089644 A3
IN2709/KOLNP/2007 A
EP1851839 A2
NO20074876 A
CN101128965 B
SWITCHGEAR ABB TECHNOLOGY
2005DE-10009207
20050225
2006WO-EP01139
20060209
The invention relates to a switchgear comprising at least two panels,
at least one of which is provided with a switch-disconnector. Each
panel encompasses at least one front wall, a rear wall, a bottom wall,
a top wall, a wire feed, and busbars which embrace at least one
panel. Each panel is configured in a modular fashion and forms a first
module. One respective support element to which one respective
switch-disconnector can be fixed is fastened between the front wall
and the rear wall of each module, said support element being
connected in a fixed manner to the front wall and/or the rear wall.
The switch-disconnectors and the support element of both modules
are located on the same level and are configured in an identical
manner.
NO NO
DE10214991 C1
EP1351357 A1
Mechanical
coupling between
switchgear cells
FELTEN & GUILLEAUME
CARLSWERK
2002DE-1014991
20020405
The mechanical coupling uses mechanical coupling elements
(6.1,6.2,6.3) incorporated in the adjacent walls (1) of the neighbouring
switchgear fields, secured together in a defined end position by at
least one tensioning screw (70). The coupling elements are provided
by a rotationally symmetrical threaded sleeve, a rotationally
symmetrical bolt and a rotationally symmetrical hollow cylindrical
adapter sleeve. At least 2 mechanical couplings can be provided
between the switchgear fields with an electrical coupling positioned
between them.
NO NO
34/79
NÚMERO DE
PUBLICACIÓN TÍTULO SOLICITANTE PRIORIDAD RESUMEN
Se presentó
en México
Todavía
se puede
presentar
NL1011173 C2
WO200045484 A1
AU2465600 A
CZ20012632 A3
CN1338136 A
PL349172 A1
AU754313 B2
CN1204667 C
MY122519 A
PL196735 B1
EP1155486 B1
AT499731 T
DE60045659 D1
DK1155486 T3
CZ302654 B6
MEDIUM VOLTAGE
SWITCHING DEVICE
EATON ELECTRIC
HOLEC HOLLAND
MOELLER
1999NL-1011173
19990129
2000WO-
NL00031
20000117
A medium voltage switching device (20) for electrical medium
voltage networks, comprising series-connected first and second
connecting fields (21, 22) each provided with a switch (24, 25) for
connection to the medium voltage network, a third connecting field
(23) connected to the connection (26) of the first and the second
connecting fields (21, 22) for providing consumers with electric
energy. The switching device (20) furthermore comprises means (27)
for signalling an excessive current flowing into the third connecting
field (23), and control means (28) connected to the switches (24, 25)
of the first and the second connecting field (21, 22) and the current
signalling means (27), which function to open the two switches (24, 25)
in response to the occurrence to an excessive current in the third
connecting field (23).
NO NO
EP0871191 A1
DE19714770 C2
Short circuiting
device and
switchboard section
equipped therewith
ALSTOM
SACHSENWERK
SACHSENWERK
1997DE-1014770
19970410
The device (10) is mounted outside the switchboard (1-3) and is
connected to the voltage carrying phase conductor of the
switchboard via a connecting cable (11). It has at least one switching
chamber (10.1) arranged in a separate short circuit housing which is
spatially separate from a housing contg. the phase conductor.
Several switching chambers can be arranged in a short circuit housing
and connected via connecting cables to different phase conductors
of the switchboard. The short circuit device's housing is earthed.
NO NO
DE19714769 A1
EP0871190 B1
DE59800087 D1
ES2144326 T3
Short circuiting
device and
switchboard section
equipped therewith
SACHSENWERK
1997DE-1014769
19970410
1998DE-5000087
19980318
The device (10) is mounted outside the switching board (1-3) and is
connected to the voltage carrying phase conductor of the switching
board via a connecting cable (11). It has at least one switching
chamber (10.1) arranged in a separate short circuit housing which is
spatially separate from a housing contg. the phase conductor.
Several switching chambers can be arranged in a short circuit housing
and connected via connecting cables to different phase conductors
of the switchboard.
NO NO
35/79
NÚMERO DE
PUBLICACIÓN TÍTULO SOLICITANTE PRIORIDAD RESUMEN
Se presentó
en México
Todavía
se puede
presentar
US6040538 A
US6114642 A
Switchgear
assembly S & C ELECTRIC
1996US-0653176
19960524
1996US-0705460
19960829
1998US-0210678
19981214
1998US-0210704
19981214
Switchgear is provided that includes a housing enclosing electrical
components having switch blades that establish visible open gaps in
an open position. The switchgear includes an array of operating
controls and viewing provisions to observe the open switch blades.
The operating controls and viewing provisions are accessible from a
first direction and are arranged at a first area of the housing while
cable interconnection provisions are accessible from a second
direction and are arranged at a second area of the housing. Thus,
operating personnel can utilize the viewing provisions and the
operating controls without being exposed to the area of the cable
interconnections. In one specific arrangement, an array of
operational displays is provided, with the displays overlying the
viewing provisions and being movable to permit use of the viewing
provisions. In a preferred arrangement, the switchgear includes multi-
pole switchgear assemblies which are assembled from individual pole-
unit assemblies. The multi-pole switchgear assemblies are mounted to
a housing along a single edge or corner of the switchgear assembly.
NO NO
GB9516044 D0
WO9706541 A1
AU6365896 A
GB2304232 A
ELECTRICAL
SWITCHING
APPARATUS
SCHNEIDER
1995GB-0016044
19950804
1996WO-
GB01636
19960709
A medium voltage electrical switching apparatus is disclosed having
a switching compartment, first and second fixed contacts at spaced
apart locations within the switching compartment, and a switching
contact movable within the switching compartment between a first
position connecting the fixed contacts and a second position in
which the connection is broken. A drive shaft (502) is provided for
effecting movement of the switching contact in either sense between
its two positions. A locking means (517, 518, 519) locks the drive shaft
(502) against rotation when the switching contact is in the first or
second position, and lock releasing means responsive to torque
applied to the drive shaft (502) releases the locking means when the
applied torque reaches a certain minimum value so as to allow the
shaft (502) to drive the switching contact from one position to the
other. Coupling means (511) allows torque to be applied to the drive
shaft (502) from externally of the switching compartment.
NO NO
36/79
NÚMERO DE
PUBLICACIÓN TÍTULO SOLICITANTE PRIORIDAD RESUMEN
Se presentó
en México
Todavía
se puede
presentar
DE4342796 A1
EP0658964 B1
DE59405952 D1
Switch gear. ABB
1993DE-4342796
19931215
1994DE-5005952
19941209
The invention relates to a switching installation, preferably for medium
voltage, having gas-tight metal encapsulation in the form of a
switchgear cabinet, having a power circuit breaker, preferably a
vacuum power circuit breaker, having at least one switch pole (27),
having busbars (41 to 43), voltage converters, current transformers
and earthing switches. Each switch pole (27) of the power circuit
breaker is accommodated in a housing (29) which is separated from
the remaining switching installation area in a gas-tight manner, can
be closed at the front and whose interior is connected to the
switching installation area by means of at least one bypass line (38)
(which can be shut off), such that the bypass line (38) can be shut off
for inspection of the switch pole (27) and, after this, the housing (29)
can be opened and the switch pole (27) can be withdrawn.
NO NO
DE4323369 A1
EP0594976 B1
DE59303853 D1
Medium voltage
switchgear. ABB
1992DE-4229421
19920903
1993DE-4323369
19930713
1993DE-5003853
19930830
Optimisation of the switchpanel width a medium voltage switch-gear
installation which has poles situated one behind the other low down in
installation and has built-in switch-disconnectors and earthing switches
is achieved, in particular, by means of outlet connections (7, 7a, 7b)
which can be built onto the switch-disconnector and onto the cable
entrance fitting (pothead), and all of which not only have terminal
connections - if necessary, also for high-voltage, high-breaking-
capacity fuses - but into which there are also integrated fixed
contacts for the actuating arms (wipers) (10a, 10b) of the earthing
switches. Moreover, they can be produced as castings without the
need for postproduction work and in a form easy to use in the field.
NO NO
37/79
NÚMERO DE
PUBLICACIÓN TÍTULO SOLICITANTE PRIORIDAD RESUMEN
Se presentó
en México
Todavía
se puede
presentar
DE4000258 A1
JPH04133218 A
EP0436256 B1
DE59006607 D1
ES2057364 T3
Switchgear with a
gas-filled container
and multi-position
rotary switch.
SIEMENS
1990DE-4000258
19900104
1990DE-5006607
19901128
A switch gear (1) for the medium-voltage range has a monolithic
container (2) in which at least two multi-position rotary switches (10)
are arranged with a vertical rotation axis. Drive devices (11) for the
rotary switches (10) are located on the top wall (5) of the container
(2), while bushings (25, 26) for cables and, if applicable, a transformer
output, are arranged on the lower wall (6) of the container (2).
Bushings (27) for test purposes and for earthing are located on the
front wall (2). High-voltage high-rupture-capacity fuses (15) with a
horizontal longitudinal axis can be allocated to a side wall (7) of the
container (2).
NO NO
DE3910753 A1
EP0391313 B1
AT112425 T
DE59007299 D1
Rotary medium high
voltage multi-
section switch.
ALSTOM
CONCORDIA
SPRECHER ENERGIE
1989DE-3910753
19890403
1990DE-5007299
19900402
A rotary medium-voltage multi-section switch in an SF6 configuration is
described which has a two-piece cast-resin housing and is fitted in the
central region with a shell-like plastic holder for centre contacts
having a busbar function.
NO NO
DE2809504 A1
CLOSED, ISOLATE-
GAS-FILLED MEDIUM-
VOLTAGE
SWITCHGEAR
DRIESCHER
SPEZIALFAB FRITZ
1978DE-2809504
19780306 NO NO
WO2013030387 A1
INSULATOR FOR
HIGH-VOLTAGE GAS
INSULATED SWITCH
GEAR
ABB RESEARCH
CENTER
ABB TECHNOLOGY
2011US-P530668
20110902
The invention is directed to an insulator (1) for a gas insulated device.
The insulator (1) comprises an injection molded insulator disc (2) and a
conductor (3). The insulator disc (2) comprises a center opening (4)
encompassed by an inner bead (5) inside which the conductor (3) is
arranged. The insulator disc (2) consists out of a first material which is
injection molded onto the conductor (3).
NO SI
38/79
NÚMERO DE
PUBLICACIÓN TÍTULO SOLICITANTE PRIORIDAD RESUMEN
Se presentó
en México
Todavía
se puede
presentar
WO2013030389 A1
INSULATOR FOR
HIGH-VOLTAGE GAS
INSULATED SWITCH
GEAR
ABB RESEARCH
CENTER
ABB TECHNOLOGY
2011US-P530611
20110902
The invention is directed to an insulator (1) for a gas insulated device.
The insulator comprises an injection molded insulator disc (2) and a
conductor (3). The insulator disc (2) is made by injection molding of a
first material. The insulator disc (2) comprises a center opening (4)
encompassed by an inner bead (5) inside which the conductor (3) is
arranged. A gap (18) arranged between the inner bead (5) and the
conductor (3) is at least partially filled with a second material to form
a transition means (19) between the insulator disc (2) and the
conductor (3).
NO SI
WO2013030388 A1
INSULATOR FOR
HIGH-VOLTAGE GAS
INSULATED SWITCH
GEAR
ABB RESEARCH
CENTER
ABB TECHNOLOGY
2011US-P530569
20110902
The invention is directed to an insulator (1) for a gas insulated device.
The insulator (1) comprises an injection molded insulator disc (2) and a
conductor (3). The insulator disc (2) comprises a center opening (4)
encompassed by an inner bead (5) inside which the conductor (3) is
arranged in a form-fit manner.
NO SI
KR20130000620 A
GAS-INSULATED
MEDIUM-VOLTAGE
SWITCHGEAR
HYUNDAI HEAVY
INDUSTRY
2011KR-0061256
20110623
PURPOSE: A gas-insulated medium voltage switchgear is provided to
facilitate replacement or repair operations by easily separating or
combining each part of the switchgear when defects occur.
CONSTITUTION: A first sealing container(110) includes a main bus(115).
A second sealing container(120) includes a circuit breaker(150). A
third sealing container(130) includes a second disconnecting switch or
three-stage switch(160). A fourth sealing container includes a ground
switch(170) and a cable terminal(190). A sensor(200) checks the
combination of the first sealing container, the second sealing
container, and the third sealing container.
NO SI
39/79
NÚMERO DE
PUBLICACIÓN TÍTULO SOLICITANTE PRIORIDAD RESUMEN
Se presentó
en México
Todavía
se puede
presentar
WO2012143472 A1
FR2974460 B1
HIGH OR MEDIUM
VOLTAGE
ELECTRICAL
ASSEMBLY,
COMPRISING AN
INSULATING DISC
FORMING A
CONDUCTING
BAR(S) SUPPORT
AND A METALLIC
ENVELOPE WITH A
PAIR OF CLAMPS
FOR RETAINING THE
DISC
ALSTOM GRID
ALSTOM
TECHNOLOGY
2011FR-0053415
20110420
The invention relates to an electrical assembly comprising at least one
metallic envelope (3, 4) containing an insulating gas, such as SF6, and
comprising a pair of clamps (30, 40) assembled together whilst at least
partly bearing against one another and between which is housed at
least one peripheral seal (10.1, 10.2, 10) to ensure gas-tightness; at
least one electrically conducting bar (5, 6) arranged inside the
metallic envelope, an electrically insulating disc (1) comprising at
least one aperture opening onto the two main faces of the disc and
traversed by the conducting bar. According to the invention, the
electrically insulating disc (1) comprises at its periphery a collar (9)
held pinched by the two clamps (30, 40) inside the peripheral
tightness zone delimited by said seal.
NO SI
EP2495833 A1
Solid insulated
busbar
arrangement,
especially for
medium voltage
switchgear
ABB TECHNOLOGY 2011EP-0001732
20110302
Solid insulated busbar arrangement for a medium voltage application
comprising at least one metal busbar (2a - 2d), wherein a summarized
electrically connection of at least two feeders (10a - 10c) to the
external busbar (2a - 2d) by an external busbar or busbar system,
wherein the at least two feeders (10a - 10c) are arranged inside a
common gas insulating compartment (6).
NO SI
EP2485353 A1
CN102629743 A
KR20120089602 A
Electrical
connection
assembly for an
electricity
distribution system of
a high and/or
medium voltage
assembly
ABB TECHNOLOGY 2011EP-0153127
20110203
The arrangement has a contact element connecting a conductor
(10) i.e. flat conductor, with another conductor. Other two contact
elements are brought into contact with the former conductor for
allowing current flow between the conductors. The former conductor
includes slots (14a, 14b), which are designed such that current
distribution does not include a critical current density point in a cross-
section of the arrangement during current flow. The current densities
along the surfaces are different from an average current density
along the surfaces around a value less than a factor 5.
NO SI
40/79
NÚMERO DE
PUBLICACIÓN TÍTULO SOLICITANTE PRIORIDAD RESUMEN
Se presentó
en México
Todavía
se puede
presentar
EP2434514 A1
WO2012038092 A1
CN103201810 A
US2013213939 A1
Vacuum interrupter
for a circuit breaker
arrangement
ABB TECHNOLOGY
2010EP-0010462
20100924
2011WO-EP04776
20110923
A vacuum interrupter for a circuit breaker arrangement comprising a
cylindrically shaped insulating part (1), within which a pair of electrical
contact parts (2a,2b) are coaxially arranged and concentrical
surrounded by the insulating part (1), wherein the electrical contact
parts (2a,2b) comprise means for initiating a disconnection arc only
between corresponding inner contact elements (8a,8b) after starting
a disconnection process, and corresponding outer contact elements
(9a,9b) comprise means for commutate said arc from the inner
contact elements (8a,8b) to the outer contact elements (9a,9b) until
the disconnection process is completed, wherein each inner electrical
contact element (8a;8b) is designed as a TMF-like contact element for
generating mainly a transverse magnetic field, and each outer
electrical contact element (9a;9b) is designed as an AMF-like contact
element for generating mainly an axial magnetic field.
NO NO
DE102010018326 A1
EP2383851 A3
Electric switch
assembly, in
particular medium
voltage medium
voltage switching
assembly
AREVA
ENERGIETECHNIK
2010DE-10018326
20100427
The switchgear has a bus bar (13) provided outside of a metallic
housing (11) of a display (10). A terminal of a disconnecting
switch/ground electrode switch (18) is directly connected with the bar
over a rail. Another terminal of the disconnecting switch/ground
electrode switch comprises a voltage converter (24) present in the
housing for supplying electric voltage to the bar. A power switch (16)
is connected with the bar and a current transformer (22). An air gap
(L) or an insulator (I) is present between the terminal of the
disconnecting switch/ground electrode switch and the transformer.
NO NO
KR20110084832 A
CN102163816 A
EP2346059 A3
KR101213615 B1
Method for
switching an electric
power circuit
ABB TECHNOLOGY
2010EP-0150960
20100118
2010EP-0195429
20101216
The switch has a rotating shaft (25) moved with a longitudinal axel (W)
opposite to another longitudinal axle (V). An auxiliary drive is
connected to the shaft for causing rotary motion of a switching
element (5) around the latter longitudinal axle. A connection line (16)
is provided in a layer perpendicular to the latter longitudinal axle and
extended between the latter longitudinal axle and a contact point
(70). The former longitudinal axle drives the layer in a point (19), and a
normal part (21) connected to the point and the line is extended in a
layer to length equal to that of the line.
NO NO
41/79
NÚMERO DE
PUBLICACIÓN TÍTULO SOLICITANTE PRIORIDAD RESUMEN
Se presentó
en México
Todavía
se puede
presentar
EP2346131 A2
CN102130428 A
KR20110084831 A
Arrangement of
conductors in a gas-
isolated device for
enhanced cooling
ABB TECHNOLOGY
2010EP-0150959
20100118
2010EP-0194900
20101214
The segment (1) has a current conductor (2) whose conductor section
extends in a longitudinal direction (Y). Height (6) of a constant profile
cross section is greater than breadth (7) of the profile cross section. A
lateral surface section extends in a direction of the height, and
includes a direction component that orients in direction of
gravitational force (13). A quotient (Z) formed from a circumference
of an isolated gas disturbed profile cross section per profile cross
section in the conductor section accounts from 75 to 300 per meter
length of the conductor section. An independent claim is also
included for a method for cooling current conductor of a gas-isolated
high-or medium voltage switchgear segment.
NO NO
US2011164387 A1
US8477503 B2
SWITCH CABINET
CONNECTION AND
COMBINATION
APPARATUS AND
METHOD OF
MANUFACTURING
THE SAME
SHANGHAI
GUANGDIAN
ELECTRIC
2010US-0652500
20100105
The present invention discloses a switch cabinet connection and
combination apparatus, wherein upper line-in/line-out terminals of a
medium-voltage switch cabinet are connected to upper contact
boxes via a conductor, and lower line-in/line-out terminals thereof are
connected to lower contact boxes via the conductor, and remaining
gaps to be insulated are filled with a solid insulating material. The
present invention further discloses a method of manufacturing a
switch cabinet connection and combination apparatus including the
steps of: connecting upper line-in/line-out terminals of a medium-
voltage switch cabinet via a conductor to upper contact boxes;
connecting lower line-in/line-out terminals thereof via the conductor
to lower contact boxes; and pouring a solid insulating material for
molding. The present invention realizes high reliability, small volume,
and no pollution of the medium-voltage switch cabinet.
NO NO
42/79
NÚMERO DE
PUBLICACIÓN TÍTULO SOLICITANTE PRIORIDAD RESUMEN
Se presentó
en México
Todavía
se puede
presentar
WO2011073158 A1
FR2953984 B1
IN1414/MUMNP/2012 A
CN102667993 A
EP2513934 A1
SHIELDED HIGH- OR
MEDIUM-VOLTAGE
ELECTRICAL
EQUIPMENT HAVING
IMPROVED
MOUNTING AND
INCLUDING
ROTATION SHAFT
AND MOVABLE
CONTACT DRIVEN
BY SAID SHAFT, AND
USE IN THREE-PHASE
STATIONS
ALSTOM
TECHNOLOGY
AREVA T&D
2009FR-0058926
20091214
2010WO-EP69561
20101214
The invention relates to a solution for mounting a metal casing (57)
inside a metal tank (10) of electrical equipment (A, B, C). The casing is
attached, at one point (12), to an insulating part (11) and houses,
within said casing, at least one movable contact (51, 55) of a switch,
the rotation shaft of which is segmented into two portions that are
arranged laterally on both sides of the movable contact and directly
or indirectly held by the tank. A connection means is provided for
connecting the casing (57) to the tank, said connection means
including a rod and being arranged so as to longitudinally provide an
axial play along the rod between at least a portion of the rod and the
casing, and/or a means is provided for rotatably connecting the shaft
portions therebetween and with the contact or with at least one
element for intermediately driving the contact. One and/or the other
of the axial plays make it possible to compensate heat expansion that
can be produced between the tank and the insulating part and
moreover make it possible to reduce the rotation of the casing
around the point of attachment onto the insulating part.
NO NO
WO2011073159 A1
FR2954010 B1
IN1351/MUMNP/2012 A
CN102714405 A
EP2514055 A1
CONNECTION
DEVICE FOR GAS-
INSULATED
SWITCHING
EQUIPMENT
ALSTOM
TECHNOLOGY
AREVA T&D
2009FR-0058925
20091214
2010WO-EP69562
20101214
The invention relates to a novel device for connecting a metal shaft
to an insulating part in a metal container filled with a dielectric
insulating gas for a high-voltage or medium-voltage electrical
apparatus.
NO NO
WO2011045062 A1
CN102687227 A
US2012274428 A1
EP2312606 B1
Circuit-breaker with
a common housing ABB TECHNOLOGY
2009EP-0012967
20091014
2010WO-EP06288
20101014
The invention relates to a circuit-breaker for switching medium-
voltage to high-voltage circuits, comprising a pole part (1) having a
cup-shaped housing (4) made of insulating material for
accommodating an interrupter insert (3) operated by a drive rod (12),
wherein the cup-shaped housing () is divided in an upper housing part
(5) in which the interrupter insert (3) is arranged and a lower housing
part (6) for accommodating a magnetic actuator (2), wherein the
drive rod (12) of the interrupter insert (3) is coaxially arranged to an
armature (13) of the magnetic actuator (2).
NO NO
43/79
NÚMERO DE
PUBLICACIÓN TÍTULO SOLICITANTE PRIORIDAD RESUMEN
Se presentó
en México
Todavía
se puede
presentar
IN1116/MUM/2009 A
A MEDIUM AND
HIGH VOLTAGE
DISCONNECTOR
INTERRUPTER
AREVA T&D 2009IN-MU01116
20090428
The disconnector interrupter is arranged to break currents at medium
and high voltages under advantageous conditions, such as high
currents or reduced break times,Diametrically opposed fixed contacts
(1) terminate inside an insulating casing (14), in such a way that each
fixed contact can come into contact with an end (21) of a rotatable
moving contact (2). Each fixed contact (1) is surrounded by a
polyoxymethylene element (11) for facilitating arc suppression by
partial sublimation. A protective strip (15), made of
polytetrafluorethylene, is laid on the inside wall of the casing (14),
along the circular path of the ends (21) of the moving contact (2); it
assists complete extinction of the arc and protection of the
equipment. The invention is applicable to disconnection in medium
voltage power lines.
NO NO
EP2255954 A1
CN101898422 A
FR2946116 A1
IN1589/MUM/2010 A
Method for
assembling the
connection
between two tubes,
at least one of
which is made of a
moulded
thermoplastic
material,
implementation for
the production of a
high- or medium-
voltage fuse-holder
device
AREVA T&D 2009FR-0053484
20090527
The method involves partially coupling an end part of a tube (2.1) in
an end part of an intermediate electrode (4), where the tube is made
of thermoplastic material, and the electrode is made of metal. A glue
(C) e.g. epoxide glue, is injected between the end parts in the form of
liquid or paste, and the injection is stopped. A final coupling is
performed till longitudinal abutment of the tube of less diameter,
where the final coupling simultaneously causes locking and filling of
spaces between locked zones by compression of the glue. The
compressed glue is dried or polymerized. Independent claims are also
included for the following: (1) an assembly for assembling a junction
between two tubes (2) a fuse holder for a high or average voltage
apparatus (3) an electric insulator for a high or average voltage line
(4) a high or average voltage electric switching apparatus.
NO NO
44/79
NÚMERO DE
PUBLICACIÓN TÍTULO SOLICITANTE PRIORIDAD RESUMEN
Se presentó
en México
Todavía
se puede
presentar
CN201639185 U
Medium-voltage full-
insulated touchable
ring main unit
BEIJING CREATIVE
DISTRIBUTION
AUTOMATION
2010CN-U106205
20100129
The utility model relates to a medium-voltage full-insulated touchable
ring main unit. The ring main unit comprises a plurality of independent
cabinet bodies which are connected together, each independent
cabinet body comprises a plenum chamber, an operating chamber
and a meter chamber, the plenum chamber is provided with
charging and discharging valves and an explosion preventer, a bus, a
load switch, a breaker-disconnector combined electrical apparatus
and one or more of load switch-fuse combined electrical apparatuses
are mounted in each plenum chamber, an operating mechanism is
mounted in the operating chamber, and each independent cabinet
body also comprises a cable chamber in which touchable cable
terminals connected with incoming and outgoing lines are mounted.
The ring main unit is used in a power distribution network, and solves
problems related to material weatherability, switching stability and
safety.
NO NO
FR2945374 A1
EP2251885 B1
Medium- and high-
voltage linear
electrical
disconnect switch
with resistor
AREVA T&D
SCHNEIDER ELECTRIC
ENERGY FRANCE
2009FR-0053093
20090511
The switch-disconnector has a fixed contact (1) connected to an
electric conductor. A mobile contact (2) linearly translated for
assuring passage and cutting of electric current by a current passage
position in which the mobile contact is contacted with the fixed
contact and a current cutting position in which the mobile contact is
spaced from the fixed contact. An electrical resistor (3) has a contact
linearly extending in a linear displacement direction of the mobile
contact along a path of the mobile contact.
NO NO
45/79
NÚMERO DE
PUBLICACIÓN TÍTULO SOLICITANTE PRIORIDAD RESUMEN
Se presentó
en México
Todavía
se puede
presentar
DE202010005246 U1
ITMI20090140 U1
RU99899 U1
CN201804784 U
Gas-insulating
medium voltage
disconnecting
switch
ABB TECHNOLOGY 2009IT-UMI0140
20090429
The utility model relates to a medium-voltage gas insulated circuit
breaker (1) with one or more phases and a control switch board. The
circuit breaker comprises an air-tight shell (2), a movable contact
terminal, a fixed contact terminal and a grounding contact terminal
which correspond to each phase respectively, and an operating
mechanism (3) used for allowing the movable contact terminal to
move in the open position, the closed position and the grounding
position respectively; the shell comprises a metal half shell (22) and a
plastic half shell (21); the plastic half shell is provided with a plastic
flange (210) and hermetically connected with the metal half shell
through the plastic flange; as to each phase, the plastic half shell
comprises a half cavity chamber (31) protruding out of a plastic
flange, a first pair of side surfaces (31a and 31c) and a second pair of
side surfaces (31b and 31d); and each side surface is respectively
connected to a corresponding centered supporting wing (51), and
the centered supporting wing (51) is connected to the plastic flange;
as to each half cavity chamber, each side surface in the first pair of
the side surfaces also can be connected to a pair of side supporting
wings (52) parallel to the corresponding centered supporting wing,
and the pair of the side supporting wings (52) are connected to the
plastic flange.
NO NO
46/79
NÚMERO DE
PUBLICACIÓN TÍTULO SOLICITANTE PRIORIDAD RESUMEN
Se presentó
en México
Todavía
se puede
presentar
CN101713793 B
Gas insulation-
based DC high
voltage measuring
device
CHINA XINDIAN
ELECTRIC
2009CN-0219311
20091204
The invention relates to the DC high voltage transmission test
technology of a power system, and discloses a gas insulation-based
DC high voltage measuring device, which comprises a high voltage
unit, a low voltage unit, a base, and an insulated sleeve fixed on the
base; the high voltage unit is connected in series with the low voltage
unit, and a high voltage terminal, a medium voltage terminal and a
low voltage terminal are respectively led out; the high voltage unit is
arranged in the insulated sleeve which is sealed by upper and lower
end covers and is filled with SF6 gas; the high voltage terminal is led
out from the upper end cover, and the medium voltage terminal is led
out from the lower end cover and is connected with the low voltage
unit; the high voltage unit and the low voltage unit respectively consist
of voltage divider modules which are connected in series, and the
series of the voltage divider modules forming the high voltage unit is
greater than that of the voltage divider modules forming the low
voltage unit; and the voltage divider modules consist of voltage
sharing capacitors and divider resistors which are connected in
parallel.
NO NO
US2010089875 A1
CN101728096 A
IN2366/MUM/2009 A
FR2937176 B1
EP2178099 B1
AT527675 T
US8173927 B2
High- or medium-
voltage electrical
switching apparatus
with two switches
comprising driving
means shared with
the mobile contacts
of the switches
ALSTOM
TECHNOLOGY
AREVA T&D
2008FR-0056946
20081014
The mechanism has a common actuator unit (22) including levers
(2210, 2220, 2211, 2221) hinged together. One of the levers is hinged
to one of movable contacts (200, 210). Spigots (2230, 2231) are
arranged between two ends (222, 224) of each lever. The spigots are
engaged in one of cam grooves (221R0, 221R0) so as to constitute a
follower, where geometry, length and disposition of the levers and
profiles of the grooves provide an additional drive ratio between a
disk cam (221) and the associated movable contact. An
independent claim is also included for a medium and high voltage
gas insulated switch including a casing in which movable contacts of
two interrupters are arranged.
NO NO
47/79
NÚMERO DE
PUBLICACIÓN TÍTULO SOLICITANTE PRIORIDAD RESUMEN
Se presentó
en México
Todavía
se puede
presentar
EP2151902 A1
The advanced
transformation
center
EMAC 2008EP-0013925
20080804
The advanced transformation center is created by the application of
the invented and unique interconnection scheme of the equipment
comprising it. This involves the application of a vacuum breaker which
is interconnected in such a way with the other equipment, that the
main power flow of the loop is channeled only through this vacuum
breaker. All the other switchgear need to break only the distribution
transformer load current with the possible consequence to enable the
elimination of the SF6 and the use of mineral oil, esters or solid
insulation instead. Additionally, the improvement of the reliability of
the cable network is accomplished by introducing automatic
sectionalizing points and the elimination of the HRC fuses by having
the vacuum breaker protect the distribution transformed. In case of
the use of dielectric fluid instead of SF6, a system handling the
pressure and the explosive gases generated during the internal arc
test is invented, and presented.
NO NO
DE102008033495 B4
EP2146411 A3
Busbar coupling for
an electrical
switchgear
AREVA
ENERGIETECHNIK
2008DE-10033495
20080716
The coupling (10) has a housing (20) made of metal, including a
cylinder-shaped formation, and bus bars (11, 12) whose both ends are
accommodated with ambient isolated sockets (14, 15). A metal sheet
(26) connects the ambient isolated sockets with each other at an
inner space of the housing, where the housing is filled with insulating
material. The bus bars are gas-tightly connected with the respective
ambient isolated sockets, and the housing includes an opening (32)
that inserts the metal sheet into the inner space of the housing.
NO NO
48/79
NÚMERO DE
PUBLICACIÓN TÍTULO SOLICITANTE PRIORIDAD RESUMEN
Se presentó
en México
Todavía
se puede
presentar
CN101471545 A
FR2922353 B1
IN2533/CHE/2008 A
EP2051272 B1
AT491219 T
DE602008003882 D1
Set of disconnecting
switches for a
medium- and high-
voltage electric
substation in a metal
enclosure
AREVA T&D 2007FR-0058359
20071016
The assembly has a movable element or contact (8) including two
electrically conducting parts such as tube shaped outer and rod
shaped inner parts (8.1, 8.2) which are axially integrated together in
direction for earthing an electrode (4). The parts are axially
disintegrated from one another. The part (8.2) is displaced in another
direction by releasing an elastic energy storage unit i.e. helical spring
(28), which is compressed during displacement in the former direction
while being electrically connected to the part (8.1) for closing an
earthing disconnector earthing the electrode (2). The elastic energy
storage unit is made of electrically insulating material e.g. glass fiber
loaded epoxy. An independent claim is also included for a method
for selecting and earthing a metal enclosed high and medium
voltage distribution station.
NO NO
EP2034503 A1
WO2009030443 A1
KR20100051844 A
EP2198444 A1
CN101796604 A
IN1246/DELNP/2010 A
US2010219162 A1
JP2010538431 A
RU2010112698 A
RU2474906 C2
JP5254340 B2
Low-voltage,
medium-voltage or
high-voltage
switchgear assembly
having a short-
circuiting system
ABB TECHNOLOGY
ABB TEKNOLODZHI
2007EP-0017360
20070905
2007EP-0173604
20070905
2008EP-0785774
20080901
2008WO-EP07121
20080901
The invention relates to a low-voltage, medium-voltage or high-
voltage switchgear assembly equipped with a short-circuiting system
as claimed in the preamble of patent claim 1. In order in this case to
allow rapid switching with physically simple means, the invention
proposes that the short-circuiting device is arranged in a vacuum
interrupter chamber and the vacuum area in which the fixed contact
piece is placed is subdivided via a membrane (15) which is provided
with a weak breaking line (12) and which can be penetrated by the
moving piston system (2) to the contact piece (8) during switching.
NO NO
49/79
NÚMERO DE
PUBLICACIÓN TÍTULO SOLICITANTE PRIORIDAD RESUMEN
Se presentó
en México
Todavía
se puede
presentar
KR20090015818 A
FR2919957 B1
EP2023361 B1
AT472816 T
DE602008001636 D1
CN101364715 B
Three-phase
switching device in
metal casing with
reduced dimensions
and phase
transmission forces
AREVA T&D 2007FR-0056996
20070808
The device (1) has a sulfur hexafluoride gas filled metallic casing (2)
accommodating three switches i.e. poles (R, S, T), and independent
control apparatuses (3R, 3S, 3T) respectively activating movable
contacts of the poles. Three mechanical transmission mechanisms (4R,
4S, 4T) are respectively connected to outlet shafts (30R, 30S, 30T) of
the apparatuses and the movable contacts, where the apparatuses
are placed at exterior and above of the casing. The mechanisms
have different geometries and identical speed ratios irrespective of
transmission instants during switching.
NO NO
CN201130625 Y
Air insulation
vacuum circuit
breaker
RUOLEI ZHANG 2007CN-U016484
20071207
The utility model relates to a gas insulated vacuum circuit breaker,
which is applicable for gas insulated metal-enclosed switchgear, is
characterized in that the circuit breaker has an insulation casing of
larger climbing distance, a vacuum interrupter is fixedly arranged in
the insulation casing, the operating mechanism uses a structure that a
stainless steel bellow is movably connected with the closed part of a
gas box; the insulation casing can be a structure of every monomer
and can also use a structure of three-phase community. The vacuum
interrupter of the inner section of the gas box is fixed using the epoxy
resin insulation casing, not only the stable property of the circuit
breaker is increased, but the insulation climbing distance is effectively
increased, the power frequency withstanding voltage of the circuit
breaker can be increased 25kV; the electrical, mechanical service life
and the insulation technical targets of the gas-insulated vacuum
circuit breaker are effectively improved to ensure that the
maintenance-free period of the medium voltage gas-insulated
vacuum circuit breaker can be 40 years, and the service life cycle
can be 70 years.
NO NO
50/79
NÚMERO DE
PUBLICACIÓN TÍTULO SOLICITANTE PRIORIDAD RESUMEN
Se presentó
en México
Todavía
se puede
presentar
CN201113289 Y Medium pressure
switch LKE POWER
2007CN-U057288
20070921
The utility model discloses a medium-voltage switch comprising a shell
with sealed gas. An isolation rotating shaft for driving the isolation
mechanism to open or close is arranged inside the shell, and three
phase-solidified terminal posts are arranged in the upper part of the
shell, and three cable access columns are arranged on the lower part
of the shell, and a skirt structure is arranged on the inner surface of the
shell. The skirt structure inside the shell forms an increased creepage
distance, so that the electric arc is not generated when the shell size is
very small, thereby achieving the purpose of reducing the medium-
voltage switch size and maintaining the safe and reliable
performances.
NO NO
CN101225987 A
BRPI0800112 A
DE102007002923 B3
EP1947922 B1
PT1947922 E
DK1947922 T3
ES2397200 T3
Device for
ventilating electrical
functional units
ORMAZABAL
ANLAGENTECHNIK
2007DE-10002923
20070119
The present invention relates to a device (100, 100', 100") for
ventilating an electrical functional unit (110) of high and moderate
voltage, the device (100, 100', 100") implementing at least one outflow
path (101, 101', 101") located outside the electrical functional unit
(110), which is impinged by exiting gases, and which has a pressure-
reducing and/or cooling effect on the exiting gases of the electrical
functional unit (110), and at least one of the at least one outflow
paths (101, 101', 101") having at least one inlet opening, which is
connectable to at least one exit opening (115) located in an upper
area of the electrical functional unit to receive exiting gases, and
wherein at least one of the at least one outflow paths (101, 101', 101")
is guided downward along a back side (112) of the electrical
functional unit (110) and comprises an outlet (105) in a lower area.
NO NO
51/79
NÚMERO DE
PUBLICACIÓN TÍTULO SOLICITANTE PRIORIDAD RESUMEN
Se presentó
en México
Todavía
se puede
presentar
KR100717326 B1
GAS AND SOLID
INSULATED MEDIUM
VOLTAGE
SWITCHGEAR
ELECOM 2006KR-0132888
20061222
PURPOSE: A gas and solid insulated complex type closed switchgear is
provided to reduce an insulation distance by insulating a connector
through an SF(SulFur)6 gas.
CONSTITUTION: A first sealed box(101) is sealed by injection of an SF6
gas. An inlet unit(102) receives external power to the inside of the first
sealed box(101). An LBS(Load Breaker Switch)(110) is connected from
the inlet unit(102) to a copper conductor, and breaks a power line. A
power fuse(120) is installed to be connected to the outside of the first
sealed box(101) through a three-phase power fuse inlet unit
connected to the outside of the first sealed box(101). A power fuse
inlet unit(121b) is connected from a second side of the power
fuse(120) to the inside of the sealed box(101). A ground switch(110b) is
installed to be connected to the power fuse inlet unit(121b) in parallel.
The ground switch(110b) connects the power line to a ground of a first
external box. An LA(Lighting surge Arrester) is installed to be
connected to the outside of the first sealed box(101) through a
bushing. An MOF(Metering Outfit)(140) is connected to the inlet
unit(121b) of the power fuse(120). A power meter display unit(150)
measures and displays a power quantity. An LBS operator(160)
performs an automatic operation and a manual operation of the
LBS(110). A first sealed box inlet unit(103) connects output power of
the MOF(140) to the outside of the first sealed box(101).
NO NO
WO2008025545 A1
DE102006041149 B4
IN1110/DELNP/2009 A
EP2059937 A1
CN101523536 A
US2009218318 A1
JP2010501992 A
RU2009111850 A
RU2407094 C1
JP5140671 B2
VACUUM
INTERRUPTER
CHAMBER FOR
MEDIUM-VOLTAGE
SWITCHGEAR
ABB TECHNOLOGY
ABB TEKNOLODZHI
2006DE-10041149
20060901
2007WO-EP07580
20070830
Vacuum switching chamber is disclosed for a medium-voltage
switchgear assembly having one or more ceramic cylinder tube
sections which are closed both on the fixed-contact side and on the
switching-contact side by metallic covers. In order in the process to
achieve a situation in which a vacuum switching chamber is further
improved in terms of its resistance to external pressure the disclosure
proposes providing at least one of the covers, on the inside and/or
outside, with an inlay which increases the resulting wall thickness, an
outer cover or outer ring, which inlay, outer cover or outer ring rests at
least partially cohesively in the cover or on a cover on the outside.
NO NO
52/79
NÚMERO DE
PUBLICACIÓN TÍTULO SOLICITANTE PRIORIDAD RESUMEN
Se presentó
en México
Todavía
se puede
presentar
KR20070092590 A
CN101068070 A
US2007267388 A1
KR100846223 B1
DE102007004950 B4
US7679019 B2
CN101068070 B
Electrical switching
system
SEO JEON ELECTRIC
INDUSTRIAL
SWITCHCRAFT EUROP
SWITCHCRAFT
EUROPE
2006DE-10010893
20060309
2007DE-10004950
20070126
An electrical switching system, preferably a medium-voltage
switching system, has a power switch or load switch, a disconnecting
switch, and a grounding switch configured as a vacuum switching
chamber. Low separation distance lengths and a more compact
construction of a switching system is achieved by means of a housing
in which the disconnecting switch, configured as a vacuum switching
chamber, the grounding switch, and the power switch or load switch
are disposed, and in which a central switch is disposed, with which the
vacuum switching chambers of disconnecting switch and grounding
switch can be mechanically activated. Electrical connections
between connector contacts of power switch or load switch,
disconnecting switch, and grounding switch can be produced.
NO NO
DE102006033766 A1
WO2007085425 A1
NO20083655 A
EP1977437 A1
US2009008229 A1
IN2977/KOLNP/2008 A
US7935907 B2 2
CN101375362 B
CONTACT SYSTEM
FOR A SHORT-
CIRCUITING DEVICE
IN A MEDIUM-
VOLTAGE OR HIGH-
VOLTAGE
SWITCHBOARD
PLANT
ABB TECHNOLOGY
2006DE-10003431
20060125
2006DE-10033766
20060721
2007WO-EP00566
20070124
A contact system for a short-circuiting device for a switchboard, the
contact system including at least one fixed contact piece connected
to a main voltage source. The contact system also includes at least
one moving contact piece and an insulating screen penetrable using
the at least one moving contact piece so as to make contact
between the at least one moving contact piece and the at least one
fixed contact piece. The screen is disposed between the at least one
fixed contact piece and the at least one moving contact piece.
NO NO
WO2005101438 A3
CN1942991 A
IN3571/CHENP/2006 A
US2007295694 A1
EP1733409 B1
AT449414 T
CN100573766 C
DE602005017756 D1
US7989726 B2
FR2868875 B1
IN251751 B
ELECTRIC DEVICE
WITH COMPRESSED
INSULATING GAS
COMPRISING A
COMPOSITE
INSULATOR
PROVIDED WITH A
WINDOW FOR
OBSERVATION OF
THE CONTACTS
ALSTOM
TECHNOLOGY
AREVA T&D
2004FR-0050697
20040407
2005WO-FR50213
20050407
The gas-tight, high or medium voltage electric switch device (1),
containing an insulating gas under pressure, comprises switch
contacts (2) capable of occupying an open position and a closed
position and disposed inside a composite insulator formed by a rigid
tube (3) surrounded by an elastomer casing (4) whose outside surface
defines a succession of annular fins. The rigid tube and the elastomer
casing are arranged so as to define an observation window (7) that is
at least translucent, and through which the open or closed position of
the switch contacts is visible.
NO NO
53/79
NÚMERO DE
PUBLICACIÓN TÍTULO SOLICITANTE PRIORIDAD RESUMEN
Se presentó
en México
Todavía
se puede
presentar
US2005190032 A1
JP2005245197 A
KR20060042160 A
EP1569311 B1
AT348429 T
DE502004002290 D1
US7417847 B2
JP4472553 B2
KR101122198 B1
CN1661873 B
Compact current
transformer housing
for gas insulated
switches
ABB TECHNOLOGY 2004EP-0405118
20040227
The current converter has an axial force receiving attachment
contour (11d) on a filling opening whose external diameter (K2) is
smaller than an external diameter (D) of a mounting flange (5) of a
core supporting tube (11) and an attachment arrangement (12) that
can be attached to the attachment contour is used for fitting the
core supporting tube near the filling opening. - AN INDEPENDENT
CLAIM is also included for an electrical switching system, especially a
high or medium voltage system.
NO NO
DE202004020060 U1
DE202005000973 U1
NO20050329 A
EP1557919 A1
NO332561 B1
Gas-insulated
switchgear
ORMAZABAL
ANLAGENTECHNIK
2004DE-10003031
20040121
2004DE-20020060
20041228
2005DE-20000973
20050120
The expelling system (10) is arranged on the switchgear and has at
least one flow channel which allows gas flowing from a tank (50) filled
with insulating gas to pass through it along a respective linear path.
The flow channel may also pass gas from a conductive sub-container
(60) associated with the switchgear. The expelling system has a high
thermal capacity.
NO NO
WO2005059938 A1
CN1898761 A
EP1544881 B1
AT352853 T
DE60311485 D1
US2007278186 A1
US7645957 B2
Gas-insulated
switching deivce
with a nozzle
ABB TECHNOLOGY
2003EP-0079013
20031219
2004WO-EP14569
20041217
A nozzle for a medium or high voltage gas switching device of the
type having at least a couple of separable arc contacts (1, 2),
comprising a hollow shaped body (100) suitable to be positioned
inside the device around the zone (20) where electric arcs form
between said arc contacts (1, 2) during switching operations,
characterized in that said hollow shaped body (100) has a first portion
(101) electrically conductive and a second portion (102) made of
electrically insulating material which surrounds at least partially said
first portion (101).
NO NO
54/79
NÚMERO DE
PUBLICACIÓN TÍTULO SOLICITANTE PRIORIDAD RESUMEN
Se presentó
en México
Todavía
se puede
presentar
WO2005062327 A1
EP1690276 A1
CN1894762 A
DE10355568 B4
SWITCHGEAR FOR
THE MEDIUM-
VOLTAGE RANGE
AND HIGH-VOLTAGE
RANGE
ABB
ABB TECHNOLOGY
2003DE-1055568
20031127
2004WO-EP13100
20041118
The invention relates to a switchgear for the medium-voltage range
and the high-voltage range, comprising power switches and/or load
interrupter switches, according to patent claim 1. The aim of the
invention is to better ensure the inverse ignition freedom and to
achieve the effective division of the voltage in the switching process.
To this end, two switches (1) are mounted in series on each phase,
which can be controlled in such a way that they are co-ordinated
with each other in a small window of time (dt).
NO NO
WO2005018066 A3
KR20060054341 A
JP2007501993 A
US2007158311 A1
IN0600/DELNP/2006 A
US7429710 B2
EP1652278 B1
AT469452 T
DE602004027386 D1
IN245190 B
JP4709756 B2
CN1830123 B
KR101135783 B1
THREE-POSITION
GROUND SWITCH
ALSTOM
TECHNOLOGY
AREVA T&D
AREVA TABLE EDE ES
AH
2003FR-0009740
20030807
2004WO-FR50378
20040806
A high or medium voltage electrical switch, particularly a GIS type
isolating switch with three switching positions and a grounding
position, includes a switching element in a closed and sealed
enclosure that can be filled with a dielectrically insulating gas,
containing a mobile switching element free to move along an axial
direction to electrically connect two conducting bars at intervals from
each other, and also including a fixed ground contact to be
electrically connected to one of the two conducting bars through the
switching element when the switch is in the grounding position. The
fixed ground contact is offset from the path of the switching element
along the axial direction and the switching element forms a Y with a
contact pin such that the contact pin and the fixed ground contact
engage in each other through displacement of the switching element
along the axial direction.
NO NO
CA2430148 A1
US2004004796 A1
CN1477662 A
JP2004134358 A
FR2840729 B1
US6849819 B2
CN1278347 C
JP4223865 B2
EP1369888 B
AT535926 T
Hybrid circuit
breaker for middle
or high voltage with
vacuum and gas
ALSTOM
ALSTOM
TECHNOLOGY
AREVA T&D
2002FR-0006911
20020605
A gas circuit breaker (40) is connected in series with a vacuum circuit
breaker and both are housed within an envelope containing an
insulating gas. An operating rod (6) is attached to one of the gas
circuit breaker contacts and a main spring (20) is restricted by stop
rods (14'A) to allow for dead travel (D). A second spring (21) causes
the vacuum circuit breaker contacts to open at the end of the dead
travel
NO NO
55/79
NÚMERO DE
PUBLICACIÓN TÍTULO SOLICITANTE PRIORIDAD RESUMEN
Se presentó
en México
Todavía
se puede
presentar
CA2418489 A1
NO20030731 A
EP1337018 A1
US2003155146 A1
FR2836278 B1
US6747207 B2
Gas-insulated
current feedthrough ALSTOM
2002FR-0002039
20020218
The bushing has a cylindrical metal envelope (2) enclosing a bar
conductor (4). An annular piece (6) of conductive material is placed
round the envelope and has a cap (7) to form a closed space (E)
outside the envelope. The annular piece is sacrificed if an arc
discharge (A) pierces the envelope. The cover and cap retain molten
metal and hot gas resulting from piercing of the envelope.
NO NO
CN2523084 Y
Indoor fixed sulfur
hexafluoride looped
network box
QIAN XUAN 2001CN-U275384
20011129
The utility model discloses a sulfur hexafluoride ring network cabinet of
indoor fixed-type, pertaining to a power supply switch cabinet and
used for a medium voltage load switch. The inner and the outer wall
of a box body are welded strengthening ribs. An outer stainless steel
plate adopts automatic welding of molding with good seal
performance. The front panel of the box body is provided with motion
observation windows of switches on the upper row and earthing
switches on the lower row. Operation holes are separately arranged
between the windows in two rows, where a cable socket is arranged.
For simple and convenient installation, the utility model first
vacuumizes the box and then aerates the box with SF6, an insulated
gas, which has good performance of insulating and arc-extinguishing,
so that the box body has small volume, safe operation without the
influence of environment and temperature, meanwhile, the box can
run safely and reliably between minus -25 DEG C to 40 DEG C.
NO NO
56/79
NÚMERO DE
PUBLICACIÓN TÍTULO SOLICITANTE PRIORIDAD RESUMEN
Se presentó
en México
Todavía
se puede
presentar
DE10119110 C1
WO02087044 A1
NO20026092 A
KR20030015215 A
CN1461508 A
EP1382101 A1
CONNECTOR
HOUSING FOR GAS
INSULATED MEDIUM-
VOLTAGE
SUBSTATIONS
FELTEN & GUILLEAUME
CARLSWERK
FELTEN GUILLEAUME
2001DE-1019110
20010419
2002WO-EP03440
20020327
The invention relates to a connector housing for a cable outlet,
transformer outlet or fuse outlet in a gas insulated medium-voltage
substation which is embodied in such a way that it can counter the
occurrence of disruptive electric arcs in a reinforced manner. To
achieve this, the receiving frame (23) is s provided with dual sheet
metal (28). The edge-sided sheet of metal (20) which is drawn forward
is folded back after the depth T1 of the receiving frame has been
formed. The folded back sheet metal is brought straight back into the
housing at a length L which is comparable to that of the depth of the
receiving frame (23). An edge (26) oriented toward the side wall (21)
is formed after the length (24) has been brought back to form a
hollow area (rectangular profile), whereby a root is created for a
disruptive electric arc on the inner edge of the hollow area. Said root
can be fused off without any direct external discharge of the melt or
plasma material.
NO NO
SE0003030 A
WO200219360 A1
AU8279801 A
SE517028 C2
US2003173336 A1
CN1471719 A
JP2004508789 A
US6927355 B2
IN0239/DELNP/2003 A
CN1302498 C
EP1320860 B1
AT367643 T
DE60129450 D1
CIRCUIT BREAKER ABB
BB AGENTS
2000SE-0003030
20000828
2000SE-0030304
20000828
2001WO-SE01819
20010827
The invention relates toa circuit breaker, preferably for high or medium
voltage. The movable conact of each breaker pole is connected, via
mechanical means for transmitting movement, to a movable part of
an electric motor (6). The movable contact and the means for
transmitting movement are arranged in a gas-tight apparatus
chamber (31) surrounded by a gas-tight apparatus housing (9) of
insulating material such as porcelain. In accordance with the
invention the motor (6) is arranged entirely in the apparatus chamber
(31). The invention also relates to an electric plant provided with the
breaker claimed, uses of the breaker claimed and a method of
breaking electric current in which the breaker claimed is used.
NO NO
57/79
NÚMERO DE
PUBLICACIÓN TÍTULO SOLICITANTE PRIORIDAD RESUMEN
Se presentó
en México
Todavía
se puede
presentar
DE10031561 A1
EP1168553 B1
AT482503 T
DE50115632 D1
ARC protection
device for a gas
insulated switchgear
ALSTOM
AREVA T&D
2000DE-1031561
20000628
2001DE-5015632
20010326
Es wird ein einfach konstruierter Stœrlichtbogenbegrenzer für eine
gasisolierte Schaltungsanlage, insbesondere Mittelspannungs-
Schaltanlage, vorgeschlagen mit einem gasgefüllten Druckbehælter
(5), in dem drei Stromleiter (2,3,4) angeordnet sind, wobei der mittlere
der drei Stromleiter (3) mindestens eine drehbar gelagerte und von
dem Auslœsemechanismus bei Druckerhœhung aus ihrer
Anfangsstellung heraus bewegbare Kurzschlussbrücke (1) aufweist, die
in ihrer Endstellung (9) alle drei Stromleiter (2,3,4) leitend miteinander
verbindet. Dadurch wird erreicht, dass lediglich eines oder nur wenige
bewegliche Leiterteile, næmlich eine einstückige oder mehrteilige
Kurzschlussbrücke (1) selbst, benœtigt wird. Hinzu kommt die auf
Grund der drehbaren Lagerung sehr einfach, aber dennoch sehr
præzise, auszuführende Bewegung der Kurzschlussbrücke (1) bzw.
deren Teile.
NO NO
58/79
NÚMERO DE
PUBLICACIÓN TÍTULO SOLICITANTE PRIORIDAD RESUMEN
Se presentó
en México
Todavía
se puede
presentar
DE10004739 A1
DE20023977 U1
CIRCUIT-BREAKER
MECHANISM WITH
BUS BAR
CONNECTIONS AND
BRANCH LINES
SIEMENS
2000DE-1004739
20000128
2000DE-2023977
20000128
The Invention concerns a Circuit-breaker Facility with Bus Bar
Connections and Branch Lines, in particular gas-isolated medium
voltage circuit-breaker facility, with a Device for the electrical
Connection of the Bus Bar Connections with the appropriate Branch
Lines, whereby the Device exhibits Vacuum Circuit-breakers also from
firm and mobile Poland formed Main Contacts and Three-position
Switch with switch on-firm Grounding Contacts and the Main
Contacts in each case by a main contact drive and the Grounding
Contacts in each case by a grounding contact drive are separately
controllable and the Earth Potential over the respective Grounding
Contacts directly to the appropriate Branch Lines transferable ist.$A
the Three-position Switches of the Circuit-breaker Facility (LSE) are by
two-position switches (ZSS) with in each case a mobile Contact
Member (BKT) realized, whereby the two-position switches (ZSS) are
formed by einschaltfeste Erdungskontakte and stand in such a
manner with the Hauptkontakten (HKO) in Connection that the
Erdpotential (EPO) of the Erdungskontakte in each case over the
Hauptkontakte (HKO) transferably ist.$A Circuit-breaker Facilities are
used for Power Supply and - distribution.
NO NO
ITPC990038 A1
WO200133593 A1
AU1721501 A
IT1309626 B1
EP1226596 B1
AT232012 T
DE60001334 D1
PT1226596 E
ES2190993 T3
COMPACT-
STRUCTURE THREE-
POLE APPARATUS
FOR ELECTRIC
STATIONS
VEI ELECTRIC SYSTEMS
VEI POWER
DISTRIBUTION
1999IT-PC00038
19991103
2000WO-IB01777
20001102
A compact-structure three-pole apparatus for medium-voltage
electric stations, comprising a metal casing (33) inside which is in
practice provided whatever is contained in an electric switchboard,
with busbar section disconnector, vacuum circuit breaker, and
earthing switch. An isolating switch (2), which functions as a line/earth
changeover switch, is set in an environment protected with SF6 gas,
whilst a vacuum circuit breaker (3), which is placed downstream of
the isolating switch (2), enables use of the latter both as a line circuit
breaker for protecting the line and as an earthing switch with closing
capability.
NO NO
59/79
NÚMERO DE
PUBLICACIÓN TÍTULO SOLICITANTE PRIORIDAD RESUMEN
Se presentó
en México
Todavía
se puede
presentar
DE19934350 C1
WO200108279 A1
AU5062300 A
NO20011418 A
EP1198869 A1
METAL-
ENCAPSULATED,
GAS-INSULATED
SWITCHGEAR FOR
MEDIUM VOLTAGE
POWER STATIONS
FELTEN & GUILLEAUME
CARLSWERK
1999DE-1034350
19990722
2000WO-EP03554
20000419
The invention relates to a switchgear comprising several three-position
load-break switches (4) disposed in a gas tank (1) and having switch
blades, one of which is provided for a transformer, in addition to
grounding devices (13) and ducts (8) as well as a contact piece
serving as busbar for the switch blade having identical phases in the
"On" position and an arc extinguishing device. The invention aims at
providing a more compact switchgear. To this end, the three-position
load-break switch (4) for the transformer tap is fitted with HH fuses (S)
and a second, three-pole grounding switch (13) located behind the
latter. The HH fuses (S) are disposed in a fuse housing (16) located on
the outer side (1) of the gas tank, whereby the connections (17) of the
fuse housing (16) are guided through the tank wall and one
connection (17) is connected to the corresponding leadthrough (8)
for the transformer connection while the other connection (17) is
connected to the corresponding phase of the transformer switch (4),
whereby the phases (L1, L2, L3) thereof are disposed in the interior in a
protective rail (17a).
NO NO
NO20000566 A
DE19904930 C2
NO319046 B1
EP1026710 B1
AT323319 T
DE50012546 D1
PT1026710 E
ES2261110 T3
Switch for use in SF6
gas-insulated
medium-voltage
switchgear
FELTEN & GUILLEAUME
CARLSWERK
ORMAZABAL
ANLAGENTECHNIK
1999DE-1004930
19990206
2000DE-5012546
20000126
The switch has a contact blade (1), a fixed contact and an arc-
quenching device. The contact blade has a contact surface (8) is
formed by a contact head (10) which is considerably thicker than a
shaft (7). The contact head includes a tip (11) made of a material that
is resistant to high temperatures as it is subjected to heat due to arcing
when switching.
NO NO
60/79
NÚMERO DE
PUBLICACIÓN TÍTULO SOLICITANTE PRIORIDAD RESUMEN
Se presentó
en México
Todavía
se puede
presentar
ZA9907627 A
CA2292050 A1
AU1001100 A
NO20000005
APL337680 A1
JP2000209714 A
TR200000043 A3
CN1264911 A
ID24954 A
CZ20000025 A3 2
KR20000057708 A
HU9904640 A3
UA63961 C2 2
BR0000007 A
EP1022757 B1
AT200162 T
IL133539 D0
DE69900069 D1
ES2157132 T3
GR3035976 T3
PT1022757 E
US6326567 B1
IL133539 A
CN1136594 C
MY116441 A
HU223486 B1
NO317520 B1
RU2260890 C2
PL194508 B1
CZ299737 B6
Multipolar breaker
assembly
EHNEL DISTRIBUTSIONE
ENEIL DISTRIBUTIONS S
P A
ENEL DISTRIBUZIONE
1999EP-0830001
19990105
A multi-pole breaker assembly (1) and a method for operating
distribution systems (51) for primary stations that include said
assemblies (1) allow to arrange metallic bays (2) for said assemblies (1)
with reduced transversal dimensions, thus realising modular and
compact distribution system (51), suitable for transportable solutions,
said multi-pole breaker assembly (1) comprising breakers (4a, 4b, 4c)
having a respective insulating feedthrough (29) developing along the
median axis (A, B, C) thereof, wherein said breakers (4a, 4b, 4c) are
arranged thereby the external terminals (30, 31) thereof being
arranged onto a rectilinear pathway substantially parallel to the
median axis (A, B, C) of said breakers (4a, 4b, 4c), and comprising
means for translating (44) said breakers (4a, 4b, 4c) according to a
direction having a main component substantially parallel to said
median axes (A, B, C) to carry out and remove said line
disconnection.
NO NO
61/79
NÚMERO DE
PUBLICACIÓN TÍTULO SOLICITANTE PRIORIDAD RESUMEN
Se presentó
en México
Todavía
se puede
presentar
ITMI982022 A1
WO200017975 A1
AU5980799 A
IT1302224 B1
CN1318216 A
US6444937 B1
IN0371/MUMNP/2001 A
EP1121739 B1
AT316297 T
DE69929543 D1
CN1258848 C
ES2257882 T3
IN203110
GAS-INSULATED
SWITCHING DEVICE
ABB
ABB POWER
TECHNOLOGIES
ABB RICERCA
ABB TRASMISSIONE &
DISTRIBUZIONE
1998IT-MI02022
19980917
1999WO-EP07001
19990915
An interruption and disconnecting device for high or medium voltage
applications including a disconnection chamber and an interruption
pole having a casing that delimits a free volume accommodating an
interruption chamber. The interruption chamber contains a moving
contact and a fixed contact. The interruption pole and the
disconnection chamber contain dielectrically insulating fluids. The
interruption chamber is sealed with respect to a remaining part of the
interruption pole.
NO NO
WO9965048 A1
CA2334991 A1
FR2779566 B1
TW417125 B
EP1093659 A1
ID28154 A
KR20010052638 A
JP2002518787 A
HIGH AND MEDIUM
VOLTAGE CIRCUIT
BREAKER WITH
DOUBLE MOVEMENT
COMPRISING A
BLOWER TUBE
GUIDED IN
TRANSLATION
ALSTOM
1998FR-0007181
19980608
1999WO-FR01337
19990607
The invention concerns a circuit breaker comprising inside an
interrupter chamber, a hollow arcing contact (3B) and an arcing
contact in the form of a rod (5B) inserted in said hollow contact (3B)
along an axial direction (A) when the circuit breaker is closed, and a
blower tube (9) which is coaxial and integral with the hollow arcing
(3B) and has a tube throat (9A) traversed by the rod-shaped arcing
contact (5B), the hollow arcing contact (3B) and the blower tube (9)
and the rod-shaped arcing contact (5B) being displaced along the
axial direction (A) in opposite directions when the circuit breaker is
opened. The invention is characterised in that the blower tube (9) is
guided in translation along the rod-shaped arcing contact (5B) when
the two arcing contacts (3B, 5B) move in opposite directions, thereby
reducing the risk of contact or friction of the tube throat (9A) on the
rod-shaped contact (5B), thus increasing the circuit breaker
interrupting capacity.
NO NO
62/79
NÚMERO DE
PUBLICACIÓN TÍTULO SOLICITANTE PRIORIDAD RESUMEN
Se presentó
en México
Todavía
se puede
presentar
CA2260327 A1
EP0936646 A1
ID22191 A
FR2774805 B1
BR9900568 A
RU2249273 C2
Medium or high
voltage circuit
breaker having an
arc chamber with
ameliorated
dielectric strength
AL STOM T EH D
ALSTOM
ALSTOM
TRANSMISSION &
DISTRIBUTION
1998FR-0001632
19980211
The attached moving section improves arc formation and contact
closing, preventing local gas dielectric breakdown. NO NO
NO986004 A
FR2773001 B1
NO315919 B1
EP0924827 B1
DE69840958 D1
ES2327473 T3
Gas-insulated,
medium voltage
switchgear cell with
increased dielectric
strength
SCHNEIDER ELECTRIC 1997FR-0016542
19971219
A gas filled cell (54) contains medium voltage busbars (16), a three
position earthing isolator (18), a vacuum switch (14), a transformer fuse
short circuiting isolator (24) and a controlling mechanism (27). The two
isolators (18,24) are mechanically linked (26) and the controlling
mechanism (27) coordinates their movements with that of the
vacuum switch (14) such that any arcs occur within the vacuum
switch and not in the gas insulant.
NO NO
NL1007499 C2
EP0915545 A1
US6175486 B1
Switch gear for
medium voltage
ELIN HOLEC HIGH
VOLTAGE
HOLEC SYSTEMEN EN
COMPONENTEN
1997NL-1007499
19971110
1999US-0306808
19990507
The invention relates to switch gear comprising at least one group of n
power switches (4), which extend substantially in a longitudinal
direction perpendicular to the front of the switch gear, at least one
busbar compartment (13, 13') containing n busbars (14, 14') for each
group of n power switches (4), which busbars (14, 14') are positioned
parallel to said front, wherein each busbar compartment (13, 13') is
enclosed by at least four walls, two of which are perpendicular to the
front, at least one group of n busbar disconnecters (3, 3'), for making
and breaking contact between busbars (14, 14') and respective
output terminals (21) of the power switches (4), wherein the output
terminals of the power switches (4) are constructed as coupling
elements (21), to each of which a linkage (24) is connected and a
further linkage (24') can be connected in an opposing direction
perpendicular to the longitudinal direction, wherein the n busbars (14,
14') extend along one of the walls perpendicular to the front.
NO NO
63/79
NÚMERO DE
PUBLICACIÓN TÍTULO SOLICITANTE PRIORIDAD RESUMEN
Se presentó
en México
Todavía
se puede
presentar
DE19744464 C1
MV switchgear for
ring network voltage
station
BLUEMEL IRINA DIPL
ING
1997DE-1044464
19971008
The MV switchgear has a load breaker switch (LaT) associated with
one line output of the voltage station (USt) and a compact breaker (T
) associated with the other line output, arranged so that the load
breaker switch and the breaker are inserted in alternation in the ring
network. Each compact breaker may be provided by a cable plug
part, the voltage station employing a gas-insulated or dry transformer.
NO NO
EP0871268 A1
MX9802701 A
FR2761823 B1
BR9801154 A
US6016247 A
Electric energy
distribution station
ALSTOM
ALSTOM
TRANSMISSION &
DISTRIBUTION
SAFT FINANCE
1997FR-0004261
19970408
The substation comprises equipment using ring main type of
configuration for circuit breakers and isolators connected in series. The
substation has 3 compartments (11,11',11''), each being watertight
thus allowing for insulation by vacuum or insulating gas such as SF6
and further contains a circuit breaker and associated wing isolators.
Incoming overhead lines or cables are connected to insulated
bushings (27,27') and two controlled and protected circuits (5,5') are
connected to common points between internal isolators which are
connected together by busbars (35). The busbars are arranged in
parallel due to the staggered formation adopted for the watertight
compartments (11,11',11'').
SI -
DE19612565 A1
DE29624388 U1
Gas-insulated
medium voltage
switchgear
DRIESCHER
SPEZIALFAB FRITZ
1996DE-1012565
19960329
1996DE-2024388
19960329
The switchgear comprises multiple switch fields, is covered with a
conductive material, and includes a hybrid isolation. An inner casing
(4) includes an active switching part, and is itself enclosed by an outer
casing (5). The inner casing consists preferably of plastic and the outer
casing of a conductive material, especially a metal. The inner casing
is preferably filled with an SF6 gas, and the space between the inner
and outer casing is filled with air.
NO NO
64/79
NÚMERO DE
PUBLICACIÓN TÍTULO SOLICITANTE PRIORIDAD RESUMEN
Se presentó
en México
Todavía
se puede
presentar
NO964375 A
DE19540552 A1
EP0772215 B1
AT194879 T
DE59605621 D1
Isolating switch, in
particular load
break isolating
switch assembly for
medium voltage
DRIESCHER
SPEZIALFAB FRITZ
DRIESCHER
SPEZIALFABRIK FUE
1995DE-1040552
19951031
1996DE-5005621
19961022
The disconnecting or insulating switch has support insulators (4). An
insulating contact is arranged at each terminal of the insulator (4). The
switch has a movable contact blade, a lag contact and a closed
explosion chamber (10) with a movable switch pin. The chamber (10)
is preferably filled with SF6 gas. The switch has a support insulator (4)
with an integral explosion chamber (10) per terminal. The explosion
chambers (10) are preferably disposed between the support insulators
(3,4) of a terminal. The chamber (10) may be integrated in the support
insulator at which the pivot point of the contact blade is disposed.
NO NO
NO964389 A
CN1151605 A
EA960084 A1
FR2739972 B1
EA0021 B1
TR9600815 A3
TW382719 B
CN1074577 C
EP0768692 B1
DE69619925 D1
ES2173263 T3
NO314237 B1
Autoexpansion
circuit breaker with
insulating gas
SCHNEIDER ELECTRIC 1995FR-0012308
19951016
The electric circuit breaker comprises a gas expansion cut-off
chamber (34) enclosing separable arc contacts and an
electromagnetic coil (122) for causing rotation of the arc. An
insulating support arm (62) is fixed to the end of the cartridge (43) and
comprises a base (108) fixed on a first internal step (110) of the
cartridge (43) by screws (111). A thermal screen (114) is positioned on
the base (108) to serve as a flame barrier. The excitation of the coil
(122) is effected through a part of the magnetic circuit (138).
NO NO
65/79
NÚMERO DE
PUBLICACIÓN TÍTULO SOLICITANTE PRIORIDAD RESUMEN
Se presentó
en México
Todavía
se puede
presentar
DE19528290 C1
WO9705635 A1
BR9609808 A
EP0842522 B1
US6011258 A
METHOD OF
MONITORING THE
QUALITY OF FILLER
GASES, IN
PARTICULAR
SULPHUR
HEXAFLUORIDE, IN
GAS-FILLED
INSTALLATIONS
CENTRAL LAC
CONVENIO COPEL &
U
G GESELLSCHAFT
FUER ANALYTISCHE
SENSORSYSTEME MBH
GESELLSCHAFT ZUR
FORDERUNG DER
SPEKTROCHEMIE &
ANGEWANDTEN
SPEKTROCHEMIE & V
GESELLSCHAFT ZUR
FORDERUNG DER
SPEKTROCHEMIE &
ANGEWANDTEN
SPEKTROSKOPIE & V
LABORATORIO
CENTRAL LAC
CONVENIO COPEL &
UFPR
1995DE-1028290
19950802
1996WO-EP03309
19960726
A method of monitoring the quality of filler gases, in particular of sulfur
hexafluoride (SF6), in a gas-filled installation, in particular in gas-
insulated switch units, such as high and medium voltage switches, a
solution is provided which enables a continuous monitoring of the
quality of filler gases in the gas-filled installation, which simultaneously
enables to possibly determine the location of a fault and a type of the
fault in such an installation. This is achieved by virtue of the fact that
the filler gas of the installation, at least for the time of the analysis, is in
a condition of a constant gas exchange with an ion-mobility
spectrometer, in which the filler gas is ionized, and the ions are finally
analyzed in the drift channel of the ion-mobility spectrometer.
NO NO
CN1144969 A
FR2735277 B1
EP0749139 B1
DE69606465 D1
ES2142561 T3
CN1068963 C
Gasinsulated M.T.
circuit breaker SCHNEIDER ELECTRIC
1995FR-0007050
19950612
The circuit breaker (10) includes a protective insulating envelope (12)
filled with a dielectric gas and housing a pair of cross rails (14,16)
directly connected to an isolating switch (18) of the main circuit (19).
The switch includes an envelope (17) housing a fix contact (20)
attached to the first rail (14) with screws 21). A mobile contact (22)
rotates about an axis (24) in a support (26) attached to the second rail
(16). The breaker envelope includes an auxiliary circuit with a cut-off
chamber (34) which houses a pair of arc contacts (36,38). One of the
arc contacts is mobile and can slide longitudinally between open and
close positions. The arc contacts are connected in parallel with the
two rails via a conductor (40).
NO NO
66/79
NÚMERO DE
PUBLICACIÓN TÍTULO SOLICITANTE PRIORIDAD RESUMEN
Se presentó
en México
Todavía
se puede
presentar
DE4445865 A1
JPH08237826 A
EP0718941 B1
DE59504903 D1
Electrical metal clad
gas-insulated high
voltage installation
ABB
1994DE-4445865
19941222
1995DE-5004903
19951219
Power switch poles (13) in individual chambers (15), one for each
phase of the network, are installed in a thin-walled cylindrical housing
(10) between upper and lower covers (11, 12). An opening in the
lower cover (12) is closed by a union (17) with a crank housing (18)
which together with the chamber constitutes a single gas space.
Separate horizontal unions (19, 20) are provided with busbar housings
(31, 32) for which conductors (21, 22) serving the switch poles are
taken through insulators (25, 26) with holes (33, 34) allowing gas
exchange between the housings, independent of exchanges
between the switch chamber and crank housing.
NO NO
FR2719152 B1
US5616898 A
CA2147576 C
EP0678886 B1
AT174721 T
DE69506611 D1
ES2126227 T3
GR3029451 T3
DK0678886 T3
Medium or high
voltage circuit-
breaker.
ALSTOM 1994FR-0004890
19940422
The medium or high tension circuit breaker comprises an envelope
filled with dielectric gas, and a cut-off chamber (30) containing metal
plates (14) for splitting up the electric arc into a number of smaller
elementary arcs under the action of a magnetic field. The chamber
includes a helicoidal insulating ramp (13) wound about a central
generator axis (13a). This ramp is arranged around the internal edge
of the chamber about a central conducting electrode (12). The metal
plates are arranged along the length of the ramp, around and
spaced from the central conducting electrode.
NO NO
DE4300157 A1 Medium voltage
circuit-breaker SACHSENWERK
1993DE-4300157
19930107
The circuit-breaker has a closed housing (1) filled with an insulating
gas e.g. SF6. A fixed switch contact (9) and a switch contact (7)
which is axially movable relative to the fixed contact (9) are arranged
in the housing (1). In the space (4) around the contacts (7,9) is a piston
plate (12) on the movable contact (7). This has a sealing element (16)
around its outer circumference.To allow a quick overflow of
quenching fluid from the space (4) to the compression chamber
separated by the piston plate (12), when the switch contacts (7,9)
switch on, the piston plate (12) has a valve formed by the piston plate
(12) and the seal (16). The valve is opened when the piston plate (12)
moves to the fixed contact (9).
NO NO
67/79
NÚMERO DE
PUBLICACIÓN TÍTULO SOLICITANTE PRIORIDAD RESUMEN
Se presentó
en México
Todavía
se puede
presentar
DE9214177 U1
DE59304355 D1
EP0593902 B2
Medium-voltage
switchgear. SACHSENWERK
1992DE-U014177
19921021
1993DE-5004355
19930915
A medium-voltage switchgear unit has at least one power switch (8)
and one disconnecting switch (5, 6), which are encapsulated by a
unit housing (1). To achieve a simple construction and control
sequence, the power switch (8) and the disconnecting switch (5, 6)
are structurally combined to form a disconnecting power switch (2)
and are arranged in a section filled with inert gas, in particular SF6.
NO NO
DE4233986 C2
Circuit breaker with
voltage transformer
- has bushing with
voltage transformer
which can be
connected by
switch to earth or to
high voltage
conductor
ALSTOM
SACHSENWERK
1992DE-4233986
19921009
The enclosed compressed-gas insulated medium voltage circuit
breaker has at least one high voltage conductor in a pressurised
housing containing at least one bushing (8). This has an isolating or
earthing switch (10) which can connect to the high voltage
conductor (2) or to earth. There is an external voltage transformer (9)
attached to the bushing or it may be connected by a separate
cable. The isolating/earthing switch is operated from outside the
housing. The conductor is supported on other bushings (3).
ADVANTAGE - Improved reliability.
NO NO
EP0582828 B1
AT137615 T
DE59302423 D1
ES2088194 T3
DE4226472 C5
Switchgear.
ALSTOM
SACHSENWERK
SACHSENWERK
1992DE-4226472
19920810
1993DE-5002423
19930705
In the case of a metal-encapsulated, gas-insulated medium-voltage
switching installation having at least two switch panels 1 which are
arranged side by side and are connected to one another, the gas-
tight switch panel housings (3) have a continuously identical cross-
sectional profile in the direction in which they are arranged in a row.
In order optionally to be able to fix high-voltage switches (15, 20),
earthing switches (17, 18), high-voltage protection devices (fuses) (16)
and the like in an optimum arrangement, the upper front wall section
(5) forms a base plane for the attachment of high-voltage switches
(15, 17, 20), while the front part (6) located underneath is drawn
forwards beyond the plane of the front wall section (5) in order to be
able to allow the high-voltage protection devices (16) to run into the
depth of the housing (3) in the horizontal direction. Located
underneath this wall section (6) which is pulled forwards is a further
front part which is constructed as a wall section (7) which is pulled
back behind the plane (5) and carries cable sockets (10) for the
connection of high-voltage cables (12).
NO NO
68/79
NÚMERO DE
PUBLICACIÓN TÍTULO SOLICITANTE PRIORIDAD RESUMEN
Se presentó
en México
Todavía
se puede
presentar
DE4140776 C2
JPH05252622 A
EP0545508 B1
AT133299 T
DE59205102 D1
ES2084926 T3
DK0545508 T3
GR3019475 T3
Metal-enclosed, gas
insulated switch
installation with a
cable terminal box.
SIEMENS
1991DE-4140776
19911206
1992DE-5005102
19921119
A metal-encapsulated, gas-insulated switching installation (1) has a
switching-chamber housing (4) and a cable-connecting housing (16)
which is connected to the switching-chamber housing (4). Located
between the two housings (4, 16) is a supporting insulator (14) which is
provided with through-openings (22) for the insulating gas.
Furthermore, a channel (24) is provided which starts in the cable-
connecting housing (16) close to a connecting body (19) for the
cable conductor (18) and which opens, after being deflected
approximately through a right angle, in the switching-chamber
housing (4). The channel (24) is effective in the case of interfering arcs
in the cable-connecting housing (16) and favours extinguishing of the
interfering arc (21) or moving it into the larger switching-chamber
housing (4) which is provided with a device (23) for pressure relief. The
described switching installation (1) is particularly suitable for the
medium-voltage range up to 36 kV.
NO NO
MX9206643 A
ZA9208950 A
BR9204466 A
WO9310549 A1
CN1073799 A
JPH05509197 A
FR2683939 B1
TR26294 A
CA2083297 C
JP2504696 B2
CN1032097 C
EP0543683 B1
AT147540 T
ES2095426 T3
DE69216563 D1
DK0543683 T3
Middle voltage load
break switch and
application to a
middle voltage cell
and a middle
voltage post.
ALSTOM 1991FR-0014311
19911120
Multipole load break switch comprising, for each pole, an insulating
bushing enclosing an evacuated bulb, the bushing including at a first
end a first contact connected to a first terminal of the bulb and
intended to cooperate with a first conductor, and at a second end a
second contact connected to a second terminal of the bulb and
intended to cooperate with a second conductor, the bushings being
integral with a common metal section (4) shrouding a common shaft
(38) for operating the bulbs (14) and which is actuated by a
mechanism contained in a cabinet (5) integral with the section.
Applications to medium-voltage cells and substations.
SI -
69/79
NÚMERO DE
PUBLICACIÓN TÍTULO SOLICITANTE PRIORIDAD RESUMEN
Se presentó
en México
Todavía
se puede
presentar
EP0517295 B1
AT161356 T
DE69223549 D1
ES2113401 T3
Medium voltage
switch with three
positions insulated in
sulphur hexafluoride.
TOSI GIAMPIETRO
1991IT-MI01435
19910524
1991IT-MI01436
19910524
1991IT-MI01652
19910617
A medium voltage operating-isolating switch with three positions
insulated in sulphur hexafluoride comprising a set of three poles, each
pole comprising a fixed contact (14) and a mobile contact (26), the
fixed contact carrying an associated male arcing contact (17) and
the mobile contact being arranged on a pivoted arm (25) rotatable
between a first closed position in engagement with the fixed contact,
a second isolated position and a third earthed position. The mobile
and fixed contacts of the set of three poles are arranged on three
insulating base support elements (11) fixed to a single support beam
(12), a relative cylinder (13) which pumps the sulphur hexafluoride into
the insulating nozzle (15) being associated via an insulated lever with
each of the arms carrying the mobile contacts, a metal draining
element (44) being provided between each of the insulating support
elements and the pumping cylinders.
NO NO
EP0437762 A1
DE4001192 C2
Modular
construction
switchgear.
ALSTOM
SACHSENWERK
GEC ALSTHOM T & D
1990DE-4001192
19900117
A switch gear, especially a multi-panel switch gear, is described using
an interruptor switch filled with SF6 gas, which interruptor switch is
constructed in the form of individual modules, which are in each case
complete. The individual modules are connected to one another
mechanically via their external housings and the electrical
connections are implemented by means of double plug elements
which engage into aligning hollow contact holders of mutually
adjacent modules.
NO NO
70/79
NÚMERO DE
PUBLICACIÓN TÍTULO SOLICITANTE PRIORIDAD RESUMEN
Se presentó
en México
Todavía
se puede
presentar
FI905613 A0
NO904883 A
NL8902799 A
US5166860 A
EP0428220 B1
AT96256 T
DE69004052 D1
ES2045769 T3
DK0428220 T3
NO176499 B
PT95859 B
FI105607 B
Metal-encased
modular
mediumvoltage
distribution system.
EATON ELECTRIC
HOLEC HOLLAND
HOLEC SYSTEM &
COMPONENTEN
HOLEC SYSTEMEN EN
COMPONENTEN
1989NL-0002799
19891113
A metal-encased modular medium-voltage distribution system
comprising one or more sections constructed of identically shaped
compartmental modules, containing the components of the
distribution system, which comprises for each section at least one first
busbar system extending essentially rectilinearly in the vertical
direction (x); at least one second busbar system extending essentially
rectilinearly in the horizontal direction (y); and switching means which
extend in the horizontal direction (z) perpendicularly to and between
the first and second busbar system.
NO NO
PL287176 A1
DE3933535 A1
AU6226690 A
HUT55171 A
HU906365 D0
CS9004860 A3]
YU184690 A
RU2015590 C1
SU2015590 C1
PL164092 B1
YU47231 B
CZ280697 B6
SK278871 B6
HU216203 B
Gas-insulated metal-
clad switchgear
installation - has
plug connection to
feedthrough leading
to pivot of lever
which moves
contact reversibly
between bus-bar
and earthing point
FEL TEN & GIJOM
EHNERGITEKHNIK
FELTEN & GUILLEAUME
CARLSWERK
FELTEN & GUILLEAUME
ENERGIET
ORMAZABAL
1989DE-3933535
19891007
Each load-isolating switch has a fixed contact (2) secured to a busbar
(10) on supports (13) parallel to the front wall of a container (1) filled
with SF6 gas. A moving contact (3) on the lever (6) pivoted (5) at the
end of the feedthrough (15) reciprocates between the fixed contact
(2) and an earthing contact (4). An angle connector (16) at the end
of a cable (19) is plugged into the feedthrough (15). USE/ADVANTAGE
- In medium-voltage distribution stations with limited space. Fewer
components are accommodated in more compact installation which
can be mfd. at less cost and requires little maintenance.
NO NO
71/79
NÚMERO DE
PUBLICACIÓN TÍTULO SOLICITANTE PRIORIDAD RESUMEN
Se presentó
en México
Todavía
se puede
presentar
CN1049425 A
JPH0377227 A
BR9003867 A
FR2650911 B1
US5151565 A
CN1022715 C
CA2023033 C
EP0412479 B1
AT114867 T
DE69014473 D1
DK0412479 T3
ES2067603 T3
GR3015152 T3
JP2568303 B2
Medium voltage
switch. ALSTOM
1989FR-0010726
19890809
The invention relates to a medium voltage contact breaker. <??>The
subject is a medium voltage contact breaker comprising an envelope
(1) in insulating material occupied by a gas with good dielectric
properties, and inside which envelope are arranged: - first contacts
(4) connected to a first current intake (2) and second contacts (13)
connected to a second current intake (10), - a fixed arc contact (5)
connected electrically to the said first current intake and a moving
arc contact (25) fixed to a link-rod (21) mechanically connected to
an operating member, and, - a moving permanent contact (30)
integral with the moving arc contact (5, 54) and establishing, when
the contact breaker is in the depressed position, an electrical
connection between the said first (4) and the said second (13)
contacts, characterised in that the said moving permanent contact is
a tubular part (30) of short length, the said first and second contacts
being arranged in two circular arcs respectively. <??>Application to
medium voltage contact breakers.
NO NO
IT8920760 D0
CA2030563 A1
WO9015465 A1
IT1229426 B
US5099389 A
EP0435970 B1
DE69012536 D1
ES2065530 T3
IMPROVED GAS-
INSULATED ELECTRIC
SWITCHBOARD.
ABB
ABB SACE
SACE
SACE COSTRUZIONI
ELETTROMECCANICHE
1989IT-0020760
19890602
1990WO-EP00824
19900522
An electric switchboard for medium voltages provides for the
insulation of the compartments by means of sulfur hexafluoride gas,
and each compartment is subdivided into superimposed cells which
are metallically separated from one another and are gastight.In the
cells auxiliary isolators are also provided for electrically isolating parts
of the compartment for the purpose of maintenance without putting
the entire switchboard out of action.
NO NO
72/79
NÚMERO DE
PUBLICACIÓN TÍTULO SOLICITANTE PRIORIDAD RESUMEN
Se presentó
en México
Todavía
se puede
presentar
JPH0329230 A
US4996398 A
CN1050286 A
FR2647254 B1
BR9002332 A
CN1022270 C
CA2017127 C
EP0398213 B1
AT120030 T
DE69017752 D1
ES2070203 T3
DK0398213 T3
JP2568296 B2
Middle high-voltage
circuit breaker for
high nominal
current.
ALSTOM 1989FR-0006554
19890519
A dielectric gas-blast circuit-breaker including a main stationary
contact (3), a main arc contact (4) and a moving rig including in
particular a moving arc contact (15) and a blast means (16), includes
a main moving contact (30) separate from the said moving rig and
made of at least one short cylindrical element associated with a
displacement means, imparting to it, on triggering, a speed lower
than that of the moving rig.
Application to medium-voltage and high nominal current circuit-
breakers such as generating station circuit-breakers.
NO NO
73/79
NÚMERO DE
PUBLICACIÓN TÍTULO SOLICITANTE PRIORIDAD RESUMEN
Se presentó
en México
Todavía
se puede
presentar
DE3820489 A1
CN1038544 A
CN1022001 C
Encapsulated switch
disconnector
arrangement
ORMAZABAL
1988DE-3820489
19880616
DE3820489
19880616
Encapsulated switch disconnector arrangements are increasingly
used in medium-voltage switching installations. The reason for this is
that they occupy a smaller amount of space than large-volume, air-
insulated switching cells. The object now exists of accommodating all
the important parts in a single, encapsulated housing, of further
reducing the number of parts and of reducing the cost for the arc
extinguishing device, with the same performance capability as the
previous devices. The invention specifies an encapsulated switch
disconnector arrangement in the case of which the moving contact
piece is constructed as a double disconnecting blade (isolating
blade) 1 and can be switched into three positions, and the
extinguishing device consists of arc splitters 4 which are arranged in
overlapping layers parallel to a busbar 12 (which is laid in the interior
of the housing 9) in such a manner that the arc which is produced
during the switching-off movement of the double isolating blade is
bounded by a cohesive cooling surface. Such an encapsulated
switch disconnector arrangement can be used in a plurality of
configurations and for the R, Y and B phases in an encapsulated
housing 9 which is filled with sulphurhexafluoride (SF6), it preferably
being possible to use such a switching installation in mains power
supply distribution stations.
NO NO
74/79
NÚMERO DE
PUBLICACIÓN TÍTULO SOLICITANTE PRIORIDAD RESUMEN
Se presentó
en México
Todavía
se puede
presentar
DE3731442 C2
EP0307542 B1
AT97264 T
DE3885556 D1
ES2045003 T3
Medium voltage
switchgear with
remote control.
ORMAZABAL
1987DE-3731442
19870918
1988DE-3885556
19880426
1988EP-0106633
19880426
Encapsulated medium voltage switchgears, filled with insulating gas,
are being used increasingly because of their small dimensions and a
minimal maintenance cost. There is now an endeavour to operate
such switchgears conspicuously. Originating from the lever drives for
relatively small and medium-size switchgears up to control rooms for
centralised remote operation of large switchgears, the task exists of
producing a simple remote control for a medium voltage switchgear.
2.2 The invention indicates a solution in which a frontplate 4 of the
drive housing 1 is provided with a number of switch cylinders 5
corresponding to the number of switching apparatuses, the piston
rods 21 of which switch cylinders 5 are in each case connected in a
force- fitting manner via a coupling element 8, 9 to one of the
switching shafts 2, and a hydraulic set 12-16, known per se, is inserted
in the base 25 of the switch housing 21, which hydraulic set 12-16 is
connected via pressure lines 7 to the switch cylinders 5. 2.3 Such a
medium voltage switchgear can be used in a versatile manner, e.g.
with ring-cable switches, with cable switches and a transformer
switch, a high-voltage, high rupture capacity fuse being inserted in
the transformer outlet.
NO NO
GB8717598 D0
ZA8705385 A
GB2193843 B
MEDIUM VOLTAGE
SWITCHES ABIMER
1986ZA-0005565
19860725
1987ZA-0005385
19870722
A single, earthed, axially immovable shaft 12 carries at least one
switching blade 10 fast thereon. The switching blade has two identical
arms which are spaced angularly apart from one another, the arms
extending radially from the shaft. For each switching blade on the
shaft, there are at least three terminal contacts 14, 16, 18 spaced
angularly apart from one another and lying on a circle 22 centred on
the shaft axis. Rotation of the shaft results in a simultaneous double
make or double break between the arms and the relevant terminal
contacts. A ring main unit having a number of such switching
arrangements is also described, with three parallel shafts each
bearing three blades and positioned in a SF6- filled housing.
NO NO
75/79
NÚMERO DE
PUBLICACIÓN TÍTULO SOLICITANTE PRIORIDAD RESUMEN
Se presentó
en México
Todavía
se puede
presentar
JPS62226518 A
US4769740 A
EP0236885 B1
DE3779448 D1
DE3608548 C2
Pressured gas
insulated triphase-
enclosed high
tension power
switch.
BROWN BOVERI &
COMPAGNIE
1986DE-3608548
19860314
1987DE-3779448
19870228
A pressurized gas-insulated circuit breaker includes a substantially
tubular encapsulating housing having ends, a plurality of circuit
breaker poles in phases, at least one of which is disposed in the
encapsulating housing, and current feed lines. Each line leading to a
respective one of the circuit breaker poles. Current discharge lines
each lead from a respective one of the circuit breaker poles. The
current feed and discharge lines to and from each respective circuit
breaker pole being disposed at the same one of the ends of the
encapsulating housing. Supplemental conductors are each disposed
in the encapsulating housing and are each extending parallel to and
forming a U-shape with a respective one of the circuit breaker poles.
NO NO
DE3728235 A1
EP0235755 B1
AT92675 T
DE3606770 C3
Gas-insulated
encapsulated
medium-voltage
switchgear.
DRIESCHER
SPEZIALFAB FRITZ
FRITZ DRIESCHER
SPEZIALFABRIK FUER
ELEKTRIZITAETSWERKSB
EDARF
1986DE-3606770
19860301
1987DE-3728235
19870825
1987EP-0102759
19870226
A device is described which switches on all the earthing switches (5) in
the installation in the event of a disruptive arc in a gas-insulated
switchgear installation, so that the power supply and hence the
pressure increase are rapidly interrupted such that the installation
remains switched on.
NO NO
DE3519761 C2 Medium-voltage
switching installation
DRIESCHER
SPEZIALFAB FRITZ
1985DE-3519761
19850601
A gas-insulated switching installation is described which has a
switching panel with a container which is integrated or produced
separately but mounted on the switching panel for common
accommodation of high-voltage fuses which are located in insulating
gas.
NO NO
GB8414875 D0
JPS59230424 A
JPS6039319 A
JPS6089009 A
GB2143089 B
DE3421265 C2
JPH0728488 B2
JP2014602 C
SWITCHGEAR MITSUBISHI ELECTRIC
1983JP-0104382
19830610
1983JP-0147490
19830810
1983JP-0197772
19831020
Switchgear for connecting a load 20 to a ring main power distribution
circuit comprises a pair of load switches 36, 38 in series with the ring 18,
and a power feeder switch consisting of a vacuum switch 50 and a
disconnectlng switch 48 in series, there being no fuse on the power
feeder side. The entire switchgear is SF6 insulated.
NO NO
76/79
NÚMERO DE
PUBLICACIÓN TÍTULO SOLICITANTE PRIORIDAD RESUMEN
Se presentó
en México
Todavía
se puede
presentar
DE3215236 A1
Metal-encapsulated
SF6 gas-insulated
switch panel,
especially for
medium-voltage
installations
SACHSENWERK LICHT
& KRAFT
1982DE-3215236
19820423
The invention relates to a metal-encapsulated SF6 gas-insulated
switch panel for medium-voltage switching installations, having a
power circuit breaker, an interrupter circuit breaker, at least one
busbar system and a cable outlet, the power circuit breaker being
accommodated with the interrupter circuit breaker in a common
compartment. According to the invention, a busbar space is
arranged laterally on the common compartment, from said
compartment, an intermediate space being provided in the common
compartment, which intermediate space can be closed and contains
the stationary mating contacts of the interrupter circuit breaker. The
mating contacts are arranged such that the interrupter circuit breaker
has the full insulating capability in the interrupter position, even in the
air.
NO NO
DE3151406 A1
EP0083092 B1
AT42873 T
DE3279674 D1
Shield for medium
voltage switchgear
and distribution
plant.
ABB
BROWN BOVERI &
COMPAGNIE
1981DE-3151406
19811224
1982DE-3279674
19821223
1982EP-0111982
19821223
Enclosure of an electric medium-voltage switchgear and distribution
system, which is made up of a plurality of parts of insulating material,
joined to one another pressure-tightly, preferably filled with an
insulating gas, and which is surrounded by a closed metal covering,
characterized in that the metal covering of the parts of insulating
material is formed by integral or combined, for example halfshell
shaped, shaped parts of thin-walled, drawable sheet metal, which,
after assembly of the system has been performed, but against one
another directly or with sealing materials interposed and are
connected to one another in such a way that they enclose the parts
of insulating material altogether gas-tightly and water vapour-tightly.
NO NO
77/79
NÚMERO DE
PUBLICACIÓN TÍTULO SOLICITANTE PRIORIDAD RESUMEN
Se presentó
en México
Todavía
se puede
presentar
DE3143279 A1 Medium-voltage
switching installation
BROWN BOVERI &
COMPAGNIE
1981DE-3143279
19811031
An electrical encapsulated medium-voltage switching installation has
a medium-voltage power circuit breaker (32), especially a vacuum
circuit breaker, or SF6 circuit breaker, which is assembled from
individual circuit breaker poles which are connected to busbars (12)
for supplying current via in each case one interrupter circuit breaker
(20). An earth circuit breaker (64) is provided between the power
circuit breaker (32) and the encapsulation (28). In order to prevent
arcs occurring in every case an intermediate contact (80) passing
through the encapsulation (10, 28) is provided on said encapsulation
(10, 28), by means of which intermediate contact (80) the moving
contact (84; 18) of both the earth circuit breaker and of the
interrupter circuit breaker can be connected. The intermediate
contact (80) is not connected to earth potential when the earth
circuit breaker is switched off, so that an internal earth is created by
interaction between the moving contact (18) of the interrupter circuit
breaker (20) and the intermediate contact, and an external earth is
created by interaction of the moving contact (64) of the earth circuit
breaker with the intermediate contact (80). The encapsulation is
preferably produced from insulating material, and the filling of the
encapsulation consists of SF6 insulating gas.
NO NO
78/79
NÚMERO DE
PUBLICACIÓN TÍTULO SOLICITANTE PRIORIDAD RESUMEN
Se presentó
en México
Todavía
se puede
presentar
AU8491882 A
JPS5849010 A
FR2507835 B1
YU129082 A
IN156601 A1
DE3266661 D1
YU41384 B
AU561392 B2
EP0068951 B2
JPH0136321 B2
JP1554205 C
Gas-insulated
shielded cell for
medium voltage
electrical
installation.
MERLIN GERIN 1981FR-0012181
19810616
Metal-clad cell with gaseous insulation for medium voltage power
station comprising a metal insulated tank (12) connected to earth,
and filled with electronegative insulating gas having a high dielectric
strength, especially sulfur hexafluoride, said tank (12) containing the
poles of at least one switch (14, 16, 18) having a first series of
connecting terminals interconnected by a bar system (58), and a
second series of connecting terminals passing through the tank (12) to
cooperate with connecting members to receptor or net cables (20,
22, 102), characterized by the fact that the poles (14 R to 18 T) are
identical and individually located above the bar system (58)
accommodated inside the tank (12) shaped as a parallelipiped,
being shifted crosswise from one another by predetermined gaps to
form a vertical row parallel to the front (34) of the tank (12), the bar
system (58) being located in the lower part of the tank (12) extending
in cross-direction of alignment of the poles of the row, every pole of
the swith (14, 16, 18) comprising a movable conducting pin (60)
mounted in alternated sliding in vertical direction between a switch-
on position F of the switch, an intermediate switch-off and insulation
position 0 and a third earthing position T, the pin (60) comprising to its
opposite ends a first contact (66) cooperating in the switchon position
F with a fixed contact (68) linked together on to the bar system (58),
and a second contact (74) being brought into engagement in
position T with an earthing fixed contact (52) placed on the opposite
side of the bar system (58) in vertical direction of the pole.
NO NO
IT8022786 D0
DE2924430 A1
FR2459565 A1
IT1131328 B
INSTALLATION OF
DISTRIBUTION HAS
GAS INSULATION BY
SF6 AND HAS METAL
SHIELDING
BROWN BOVERI &
COMPAGNIE
1979DE-2924430
19790616
INSTALLATION OF DISTRIBUTION INCLUDING/UNDERSTANDING AT LEAST
a SWITCH OF POWER, AT LEAST a DISCONNECTING SWITCH, AT LEAST a
SYSTEM HAS BUSES, OF the TENSION AND CURRENT TRANSFORMERS AS
WELL AS a DEPARTURE OF CABLE.
The SWITCH OF POWER 46 EAST LAYS OUT WITH the DISCONNECTING
SWITCHES INSIDE a SINGLE HERMETICALLY PARTITIONED ROOM.
APPLICATION PRIMARILY TO THE INSTALLATIONS OF DISTRIBUTION HAS
MEDIUM AVERAGE.
NO NO
79/79
NÚMERO DE
PUBLICACIÓN TÍTULO SOLICITANTE PRIORIDAD RESUMEN
Se presentó
en México
Todavía
se puede
presentar
JP4283962 B2
SWITCHGEAR TOSHIBA
2000JP-0028830
20000207
PROBLEM TO BE SOLVED: To provide a switchgear that enables size
reduction in the overall shape, while ensuring the same dielectric
strength as is ensured by an SF6 gas, without using the SF6 gas.
SOLUTION: This switchgear has an insulating layer, formed on the
surface of a conductor that forms a gap by using air as an insulating
medium.
NO NO
JP2001008316 A
SWITCHGEAR TOSHIBA
1999JP-0168618
19990615
PROBLEM TO BE SOLVED: To secure insulation characteristics not lower
than those obtained by using SF6 gas without using SF6 gas and
reduce the dimensions of a switchgear as a whole.
SOLUTION: A switchgear has switching apparatuses in an enclosed
grounded container 10 to compose an electric system and
connection units 21a-21c, to which exposed metal parts of main
circuit conductors 36 are connected and which are provided for
respective phases. The connection units 21a-21c provided for
respective phases are supported and fixed on fixing parts 31 in the
grounded container 10 by supporting structural elements 29a-29c, so
as to have the longitudinal direction of the main circuit conductors 36
connected to the respective connection units 21a-21c which are
approximately in prallel with each other, and to have the directions of
the connection units arranged in a direction approximately
perpendicular to the longitudinal direction of the main circuit
conductor 36. Insulators 39 are provided for the respective
connection units 21a-21c so as to be arranged between the adjacent
connection units (21a and 21b) and (21b and 21c), and between the
grounded container 10 and the connection units 21a and 21c facing
the inner wall of the grounded container 10 so as to be arranged in
directions approximately perpendicular to the directions of the
connection units.
NO NO