Transcript
Page 1: EKEXMCB VRV DX CONTROL TECHNICAL DATA.pdf

technical data

VRV Air Handling Applications - Control Box

EKEXMCB

air conditioning systems

Page 2: EKEXMCB VRV DX CONTROL TECHNICAL DATA.pdf

• VRV systems • Fresh Air Treatment 1

• Fresh Air Treatment • VRV AIR HANDLING APPLICATIONS - CONTROL BOX • EKEXMCB

TABLE OF CONTENTSEKEXMCB

1 Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2 Technical Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2 Electrical Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3

2 Options . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4

3 Capacity tables . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5Combination table . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5Cooling capacity tables . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6Capacity correction factor . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7

4 Dimensional drawing & centre of gravity . . . . . . . . . . . . . . . . . . . . . . . . 8Dimensional drawing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8

5 Wiring diagram. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9Wiring diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9External connection diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10

Page 3: EKEXMCB VRV DX CONTROL TECHNICAL DATA.pdf

• Fresh Air Treatment • VRV AIR HANDLING APPLICATIONS - CONTROL BOX • EKEXMCB

11

2

1 Specifications

sh Air T trol box XMCB Air han

Fre Con EKE VRV

1-1 TECHNICAL SPECIFICATIONS EKEXMCBV3

Casing Colour White greyMaterial Resin

Dimensions Unit Height mm 132Width mm 400Depth mm 200

Packing Height mm 215Width mm 495Depth mm 310

Weight Unit kg 3.5Packed Unit kg 4.5

Packing Material CartonWeight kg 0.38Material EPSWeight kg 0.24Material PlasticWeight kg 0.09

Operation Range Cooling Min °CDB -5.0Max °CDB 46.0

Standard Accessories

Item Thermistor (R1T)Quantity 1Item Thermistor (R2T/R3T)Quantity 2Item Insulation SheetQuantity 2Item Rubber sheetQuantity 2Item Wire to wire spliceQuantity 6Item Installation and operation manualQuantity 1Item Screw nutQuantity 9Item Tie-wrapsQuantity 6Item Capacity setting adapterQuantity 8Item Stopper (closing up)

• VRV systems • Fresh Air Treatment

Page 4: EKEXMCB VRV DX CONTROL TECHNICAL DATA.pdf

3

11

• Fresh Air Treatment • VRV AIR HANDLING APPLICATIONS - CONTROL BOX • EKEXMCB

1 Specifications

1-2 ELECTRICAL SPECIFICATIONS EKEXMCBV3

Power Supply Name V3Phase 1Frequency Hz 50Voltage V 230Voltage range Minimum V -10%

Maximum V +10%Wiring connections For Power Supply Quantity 3

Remark Earth wire includedFor connection with indoor

Quantity 2Remark F1-F2

For remote control Quantity 2Remark P1,P2

For expansion valve kit

Quantity 6Remark Y1~Y6

Thermistors liquid pipe

Quantity 2Remark R1,R2

Thermistors gas pipe

Quantity 2Remark R3,R4

Thermistor air Quantity 2Remark R5,R6

ON/OFF Remark T1,T2Power Supply Intake Bottom

• VRV systems • Fresh Air Treatment 3

Page 5: EKEXMCB VRV DX CONTROL TECHNICAL DATA.pdf

• Fresh Air Treatment • VRV AIR HANDLING APPLICATIONS - CONTROL BOX • EKEXMCB

12

4

2 Options

EKEX

Caution for options:

- Do not connect the system to DIII-NET devices (intelligent controller, intelligent manager, DMS-IF, bacnet gateway...) This could result in malfunction or breakdown of the total system.

- Do not use this system in combination with a field supplied air handling unit.

Do not connect this system to other indoor units.

- See combination table for application of valve kits.

4TW27149-1A

N° Item EKEXMCB

1 Remote Control (Wired type) BRC1D527

2 Wiring adaptor for electrical appendices KRP4A516

3 Remote sensor KRC501-1

4 Valve kits EKEXV50,63,80,100,125,140,200,250

• VRV systems • Fresh Air Treatment

Page 6: EKEXMCB VRV DX CONTROL TECHNICAL DATA.pdf

3

13

• Fresh Air Treatment • VRV AIR HANDLING APPLICATIONS - CONTROL BOX • EKEXMCB

3 Capacity tables

3 - 1 Combination table

Combination table

n: Qty determined by connection ration or maximum number of indoors units (in combination with VRV-outdoor, the EKEXV-kit is considered as one of the indoor units)

3TW28089-2A

Control box Expansion valve kit

Control Z Class 50 Class 63 Class 80 Class 100 Class 125 Class 140 Class 200 Class 250

outdoor unit EKEXMCB EKEXV50 EKEXV63 EKEXV80 EKEXV100 EKEXV125 EKEXV140 EKEXV200 EKEXV250

System

B

(C/O)

3 ph

5 hp RXQ5P7W1B n n n n n n n n n

8 hp RXQ8P7W1B n n n n n n n n n

10 hp RXQ10P7W1B n n n n n n n n n

12 hp RXQ12P7W1B n n n n n n n n n

14 hp RXQ14P7W1A n n n n n n n n n

16 hp RXQ16P7W1A n n n n n n n n n

18 hp RXQ18P7W1A n n n n n n n n n

• VRV systems • Fresh Air Treatment 5

Page 7: EKEXMCB VRV DX CONTROL TECHNICAL DATA.pdf

• Fresh Air Treatment • VRV AIR HANDLING APPLICATIONS - CONTROL BOX • EKEXMCB

13

6

3 Capacity tables

3 - 2 Cooling capacity tables

3TW28082-1

EKEXMCBEvaporator capacity table

Indoor air temp. Indoor air temp.

Capacityindex

Outdoor°CDB

14WB 16WB 18WB 19WB 20WB 22WB 24WBCapacityindex

Outdoor°CDB

14WB 16WB 18WB 19WB 20WB 22WB 24WB20DB 23DB 26DB 27DB 28DB 30DB 32DB 20DB 23DB 26DB 27DB 28DB 30DB 32DBTC TC TC TC TC TC TC TC TC TC TC TC TC TC

• VRV systems • Fresh Air Treatment

Page 8: EKEXMCB VRV DX CONTROL TECHNICAL DATA.pdf

3

13

• Fresh Air Treatment • VRV AIR HANDLING APPLICATIONS - CONTROL BOX • EKEXMCB

3 Capacity tables

3 - 3 Capacity correction factor

Cap

acit

y ca

lcu

lati

on

fo

r m

ult

i co

mb

inat

ion

of

thir

d m

anu

fact

ure

r ai

r h

and

ling

un

it.

Intr

od

uct

ion

Th

e c

ap

acity o

f th

e in

do

or

un

it m

ust b

e s

ele

cte

d o

n th

e s

tan

da

rd o

pe

ratio

n c

on

ditio

ns a

s s

pe

cifie

d b

elo

w b

eca

use

th

e c

on

ne

cte

d

Air

ha

nd

ling

un

it is o

pe

ratin

g in

co

mb

ina

tio

n w

ith

oth

er

ap

plia

nce

s c

on

ne

cte

d to

th

e o

utd

oo

r.

Sel

ecti

on

of

cap

acit

y ta

ble

Ta

ke

th

e c

ap

acity o

f th

e s

ele

cte

d a

ir h

an

dlin

g u

nit h

ea

t e

xch

an

ge

r o

n t

he

sta

nd

ard

op

era

tio

n c

on

ditio

ns.

(se

e b

elo

w)

De

term

in th

e c

ap

acity c

lass a

cco

rdin

g to

be

low

ta

ble

“H

ea

t e

xch

an

ge

r ca

pa

city c

lass”,

use

its c

ap

acity ta

ble

as b

ase

fo

r ca

pa

city

tab

le a

s b

ase

fo

r ca

pa

city c

alc

ula

tio

ns.

Co

rrec

tio

n o

f ca

pac

ity

tab

le t

o a

ctu

al h

eat

exch

ang

er c

apac

ity

to m

ake

th

e v

alu

e m

ore

co

rre

ct,

a c

orr

ectio

n n

ee

ds to

be

do

ne

on

th

e c

ap

acity,

ba

se

d o

n th

e r

atio

of th

e a

ctu

al h

ea

t e

xch

an

ge

r

ca

pa

city a

nd

th

sta

nd

ard

ca

pa

city.

the

ca

pa

city c

lass *

ra

tio

(a

ctu

al ca

pa

city /

sta

nd

ard

ca

pa

city)

= A

ir h

an

dlin

g u

nit c

ap

acity in

de

x.

Po

wer

inp

ut

of

com

bin

atio

n:

Ta

ke

su

m o

f a

ll ca

pa

citie

s o

f th

e c

om

bin

ed

ap

plia

nce

s.

Se

e o

utd

oo

r u

nit c

ap

acity t

ab

le f

or

the

ma

tch

ing

po

we

r in

pu

t.

Exa

mp

le:

Ca

pa

city ta

ble

An

eva

po

rato

r w

ith

ca

pa

city o

f 6

,9kW

at

the

“sta

nd

ard

op

era

tio

n c

on

ditio

ns”

with

an

in

tern

al vo

lum

e o

f 1

.4d

m3.

A 1

0 H

P o

utd

oo

r u

nit is c

on

ne

cte

d w

ith

2 F

XS

Q5

0 c

lass (

sta

nd

ard

in

do

or)

+ t

he

me

ntio

ne

d a

ir h

an

dlin

g u

nit:

Ind

oo

r ca

pac

ity

for

the

Air

ha

nd

ling

un

it:

the

un

it is w

ith

in t

he

ra

ng

e o

f a

63

cla

ss. =

> th

e t

ab

le o

f th

e 6

3 c

lass m

ust

be

use

d.

To

ca

lcu

late

th

e e

xa

ct

ca

pa

city c

orr

ectio

n is n

ee

de

d

63

cla

ss in

do

or:

sta

nd

ard

ca

pa

city is 7

,1kW

Th

e s

ele

cte

d in

do

or

un

it h

as o

n t

he

sta

nd

ard

op

era

tio

n c

on

ditio

ns a

ca

pa

city o

f 6

,9kW

.

Th

e v

alu

es o

f th

e t

ab

le n

ee

d to

be

co

rre

cte

d w

ith

th

e r

atio

of:

actu

al ca

pa

city / s

tan

da

rd c

ap

acity

Fo

r co

rre

ct

ca

pa

city: th

e ta

ble

of th

e c

ap

acity c

lass o

f 6

3 n

ee

d t

o b

e m

ultip

lied

with

0.9

7.

ca

pa

city in

de

x o

f a

ir h

an

dlin

g u

nit:

0.9

7*6

3=

61

Po

we

r in

pu

t o

f co

mb

ina

tio

n

Ta

ke

su

m o

f ca

pa

city in

de

x o

f e

ach

in

div

idu

al in

do

or.

50

+ 5

0 +

61

= 1

61

Po

we

r in

pu

t m

ust

be

se

lecte

d f

rom

10

HP

ca

pa

city ta

ble

ba

se

d o

n th

e 1

61

as to

tal ca

pa

city in

de

x.

No

tes

Actu

al o

pe

ratio

n d

ep

en

ds o

n t

he

op

era

tin

g c

on

ditio

ns (

ou

tdo

or

tem

pe

ratu

re /

in

do

or

loa

d / c

on

ne

cte

d in

do

ors

op

era

tin

g ...

)

Se

e o

utd

oo

r u

nit d

ata

fo

r a

dd

itio

na

l co

rre

ctio

n w

he

n th

e c

on

ne

ctio

n r

atio

n p

asse

s o

ve

r 1

00

%, e

ffe

ct o

f lo

ng

pip

ing

an

d o

the

r con

-

ne

ctio

ns)

Co

nn

ecti

on

lim

itat

ion

s to

th

e o

utd

oo

r co

nd

ensi

ng

un

it

Intr

od

uct

ion

Th

e o

utd

oo

r u

nit d

ete

rmin

s t

he

lim

mita

tio

ns o

f th

e a

llow

ed

co

mb

ina

tio

n t

o k

ee

p its

rlia

bili

ty. 2

lim

its e

xis

t.

Nu

mb

er

of

ap

plia

nce

s th

at a

re c

on

ne

cte

d (

ap

plia

nce

ca

n b

e s

tan

da

rd D

aik

in in

do

or

or

fre

e c

ho

ice

Air

ha

nd

ling

un

it)

Su

m o

f th

e s

ize

fo

r th

e c

on

ne

cte

d a

pp

lian

ce

s

Max

imu

m a

llow

ed n

um

ber

of

ind

oo

r/ev

apo

rato

r u

nit

s:S

ee

ou

tdo

or

un

it e

ng

ine

eri

ng

da

ta o

r m

an

ua

l fo

r th

e m

axim

um

nu

mb

er

of

ap

plia

nce

s th

at

ma

y b

e c

on

ne

cte

d.

Min

imu

m a

nd

max

imu

m s

ize

of

con

nec

ted

ap

plia

nce

s.S

tep

1:

Ca

lcu

late

th

e in

div

idu

al co

nn

ectio

n r

atio

of

ea

ch

in

div

idu

al a

pp

lian

ce

.

Ste

p 2

: M

ake

su

m o

f a

l th

e c

on

ne

cte

d a

pp

lian

ce

s

He

at

exch

an

ge

rvo

lum

e:

tota

l in

ne

r vo

lum

e o

f th

e e

va

po

rato

r h

ea

t e

xcg

an

ge

r. (

no

t in

clu

din

g c

on

ne

ctio

n p

ipe

an

d h

ea

de

r)

Cal

cula

te t

he

ind

ivid

ual

co

nn

ecti

on

rat

io o

f ea

ch in

div

idu

al a

pp

lian

ce.

Se

e a

bo

ve

ta

ble

of

“in

do

or

co

nn

ectio

n s

ize

Th

e in

ne

r vo

lum

e o

f th

e c

on

ne

cte

d h

ea

t e

xch

an

ge

r d

ete

rmin

s t

he

co

nn

ectio

n s

ize

.

Ind

oo

r u

nit

co

nn

ecti

on

rat

io v

alu

e:T

he

co

nn

ectio

n ra

tio

of th

e o

utd

oo

r u

nit m

ust b

e w

ith

in th

e li

mits s

pe

cifie

d b

y th

e o

utd

oo

r u

nit a

nd

mu

st a

dd

itiio

na

lly b

e w

ith

in 5

0%

or

13

% w

he

n E

KE

XM

CB

is c

on

ne

cte

d.

Th

e lim

its o

f 5

0%

to

13

0%

are

sh

ow

n in

ab

ove

ta

ble

.

Th

e c

on

ne

ctio

n r

atio

is t

eh

su

m o

f a

ll th

e u

nits c

on

ne

cte

d t

o a

n o

utd

oo

r u

nit.

Fo

r sta

nd

ard

in

do

or

un

its:

the

ca

pa

city c

lass is th

e v

alu

e n

ee

de

d t

o c

alc

ula

te t

he

co

nn

ectio

n r

atio

/

No

te:

Th

is is a

lso

th

e c

lass o

f th

e e

xp

an

sio

n v

alv

e t

ha

t n

ee

ds to

be

use

d f

or

this

he

at

exch

an

ge

r.

exam

ple

:A

n e

va

po

rato

r w

ith

a c

ap

acity o

f 6

.9 k

W a

t th

e “

sta

nd

ard

in

do

or

co

nd

itio

ns”

with

an

in

tern

al vo

lum

e o

f 1

.4d

m3.

A 1

0 H

P o

utd

oo

r u

nit is c

on

ne

cte

d w

ith

: 2

FX

SQ

cla

ss (

sta

nd

ard

in

do

or)

+ th

e m

en

tio

ne

d a

ir h

an

dlin

g u

nit:

FX

Q 5

0 =

2 to

me

s 5

0

1.4

dm

3 isw

ith

in t

he

va

lue

s o

f th

e 8

0 c

lass 1

0 o

utd

oo

r u

nit.

tota

l co

nn

ectio

n r

atio

= F

XS

Q 5

0 +

FX

SQ

50

+ A

ir h

an

dlin

g u

nit 8

0 =

18

0

18

0 is w

ith

in t

hye

lim

its o

f th

e c

lass 1

0 o

utd

oo

r u

nit

A 1

0H

P o

utd

oo

r u

nit c

an

co

ntr

ol m

ore

th

an

3 u

nits

=>

co

mb

ina

tio

n is a

llow

ed

.

3T

W28082-2

HE

AT

EX

CH

AN

GE

R C

AP

AC

ITY

CL

AS

S

Ca

pa

city

cla

ss

Ca

pa

city (

kW

)

min

imu

msta

nd

ard

ma

xim

um

50

5.0

5.6

6.2

63

6.4

7.1

7.8

80

8.1

9.0

9.9

10

01

0.1

11

.21

2.3

12

51

2.6

14

.01

5.4

14

01

4.4

16

.01

7.6

20

02

0.2

22

.42

4.6

25

02

5.2

28

.03

0.8

actu

al ca

pa

city

=6

.9 (

kW

)=

97

%sta

nd

ard

ca

pa

city

7.1

(kW

)

Ind

oo

r co

nn

ectio

n s

ize

Ou

tdo

or

co

nn

ectio

n

Co

nn

ectio

n

ratio

He

at e

xch

an

ge

r V

olu

me

(d

m3

)o

utd

oo

r

cla

ss

(HP

)

co

nn

ectio

n r

atio

min

imum

maxim

um

min

imum

ma

xim

um

50

0.7

60

.96

50

%1

30

%

63

0.9

61.2

25

62.5

16

2.5

80

1.2

21

.53

81

00

26

0

10

01

.53

1.9

11

01

25

32

5

12

51

.91

2.1

41

21

50

39

0

14

02

.14

3.0

61

41

75

45

5

20

03

.06

3.8

21

62

00

52

0

25

03

.82

4.7

81

82

25

58

5

He

at

exch

an

ge

r ca

pa

city a

s d

efin

ed

un

de

r th

ese

co

nd

itio

ns

Sta

nd

ard

op

era

tio

n c

on

ditio

ns o

f th

e in

do

or

un

it:

SS

T6

°(e

vapo

rato

r sat

urat

ed s

uctio

n te

mpe

ratu

re)

SH

5K

(su

pe

rhe

at

at

eva

po

rato

r e

xit.)

SC

3K

(Su

b c

oo

l co

nd

en

so

r)

suctio

n a

ir t

em

pera

ture

27

/19

(°C

WB

/°C

DB

)(D

egre

e C

elc

ius

Dry

Bulb

/ W

et

Bulb

)

EKXMCB

• VRV systems • Fresh Air Treatment 7

Page 9: EKEXMCB VRV DX CONTROL TECHNICAL DATA.pdf

• Fresh Air Treatment • VRV AIR HANDLING APPLICATIONS - CONTROL BOX • EKEXMCB

14

8

4 Dimensional drawing & centre of gravity

4 - 1 Dimensional drawing

3TW28084-1

j1 4 holes to fix control boxj2 Control box lidj3 Screw nut for power supply cablej4 Screw nut for expansion valve cablej5 Screw nut for thermistor cable (liquid) R2Tj6 Screw nut for thermistor cable (gas) R3Tj7 Screw nut for communication cablej8 Screw nut for thermistor cable (air) R1Tj9 Screw nut for remote controllerj10 Screw nut for connection cable to controller

600 or more

EKEXMCB

Notes:1 Installation:

Make sure that the control box is installed horizontal, screw nuts positiondownwards.The option boxes (expansion valve and electrical control box) can be installedinside and outside.Do not install the option boxes in or on the outdoor unit.Do not put the option boxes in direct sunlight. Direct sunlight will increase thetemperature inside the option boxes and may reduce its lifetime and influence itsoperation.Choose a flat and strong mounting surface.

2 Service space:Keep enough free for future maintenance.

Service space(Note 2)

Service space(Note 2) 20

0or

mor

e

• VRV systems • Fresh Air Treatment

Page 10: EKEXMCB VRV DX CONTROL TECHNICAL DATA.pdf

3

15

• Fresh Air Treatment • VRV AIR HANDLING APPLICATIONS - CONTROL BOX • EKEXMCB

5 Wiring diagram

5 - 1 Wiring diagram

2TW28086-1

EKEXMCB

A1P : Printed circuit boardF1U : Fuse (250V, F5A) (A1P)F3U : Field fuseHAP : Light emitting diode (service monitor green)Q1DI : Earth leakage breakerR1T : Thermistor (Air)R2T : Thermistor (Liquid)R3T : Thermistor (Gas)T1R : Transformer (220V/21.8V)X1M : Terminal blockX3M : Terminal blockY1E : Electronic expansion valveX1M-R1/R2 : Thermistor LiquidX1M-R3/R4 : Thermistor GasX1M-R5/R6 : Thermistor AirX1M-Y1∼6 : Expansion valveX1M-P1/P2 : Communication remote controllerX1M-T1/T2 : Input: ON/OFFX1M-F1/F2 : Communication outdoor

: Live: Neutral: Connector: Wire clamp: Protective earth (Screw)

: Seperate component: Optional accessory

: Field wiring

Wired remotecontroller

Transmissionwring

See KRP4 (optional connection)

1 Use copper conductors only.2 BLK: Black / WHT: White / RED: Red / BLU: Blue /

BRN: Brown / GRY: Grey / GRN: Green /PINK: Pink / YLW: Yellow

Position in switch box

• VRV systems • Fresh Air Treatment 9

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• Fresh Air Treatment • VRV AIR HANDLING APPLICATIONS - CONTROL BOX • EKEXMCB

15

10

5 Wiring diagram

5 - 2 External connection diagram

3TW28089-1

EKEXMCB

Notes:1 All wiring, components and materials to be produced on the site must comply

with the applicable local and national codes.2 Use copper conductors only.3 For more details, see wiring diagram.4 Install a circuit breaker for safety.5 All field wiring and components must be provided by a licensed electrician.6 The unit shall be grounded in compliance with the applicable local and

national codes.7 Wiring shown are general points-of-connection guides only and are not

intended for or to include all details for a specific installation.8 Be sure to install the switch and the fuse to the power line of each equipment.9 Install the main switch that can interrupt all power sources in an integrated

manner because this system consists of the equipment utilizing the multiplepower sources.

10 For detailed control box side connection, see control box manual and wiringdiagram.

11 For detailed pipe connections and limitations, see manuals.12 Connection appliance can be standard indoor unit or free choice of air

handling unit.

Power supply

Indoor unit

Main switch

Switch

Fuse

Switch

FuseTransmission

Filter Filter

Electronic expansionvalve

Valve kit

Expansion valve ConnectorL (Max. 20m)

Control box

Field supplied airhandling unit

Air handling unitPower supply

Air handling unit controller

(Max. 5m)Max.

Indoor unit

Remote controller

Remote controller

Remote controller

WiringRefrigerant piping

Gas pipe

Liquid pipe

Thermistor lines (3x)L (Standard 2.5m)(Max. 20m)

• VRV systems • Fresh Air Treatment

Page 12: EKEXMCB VRV DX CONTROL TECHNICAL DATA.pdf

ÉEEDEN07-200/ËÍ

Daikin Europe N.V. is approved by LRQA for itsQuality Management System in accordance with theISO9001 standard. ISO9001 pertains to qualityassurance regarding design, development,manufacturing as well as to services related to theproduct.

Daikin units comply with the European regulations that guarantee the safety of the product.

EED

EN07

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The present publication is drawn up by way of information only anddoes not constitute an offer binding upon Daikin Europe N.V.. DaikinEurope N.V. has compiled the content of this publication to the bestof its knowledge. No express or implied warranty is given for thecompleteness, accuracy, reliability or fitness for particular purpose ofits content and the products and services presented therein.Specifications are subject to change without prior notice. DaikinEurope N.V. explicitly rejects any liability for any direct or indirectdamage, In the broadest sense, arising from or related to the useand/or interpretation of this publication. All content is copyrightedby Daikin Europe N.V..

VRV products are not within the scope of theEurovent certification programme.

Naamloze VennootschapZandvoordestraat 300B-8400 Oostende, Belgiumwww.daikin.euBTW: BE 0412 120 336RPR Oostende

Daikin’s unique position as a manufacturer of airconditioning equipment, compressors andrefrigerants has led to its close involvement inenvironmental issues. For several years Daikinhas had the intension to become a leader in theprovision of products that have limited impacton the environment. This challenge demandsthe eco design and development of a widerange of products and an energy managementsystem, resulting in energy conservation and areduction of waste. ISO14001 assures an effective environmental

management system in order to help protect humanhealth and the environment from the potentialimpact of our activities, products and services and toassist in maintaining and improving the quality of theenvironment.


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