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Model 1195 Integral Orifice
Product Data Sheet 00813-0100-4686
THE ROSEMOUNT MODEL 1195 —DESIGNED TO MEET THE NEEDFOR HIGHLY ACCURATESMALL-BORE FLOW MEASUREMENTSWITH MINIMAL INSTALLATION ANDMAINTENANCE REQUIREMENTS
• Available preassembled to the world’s mostpopular pressure transmitters
• Numerous process connection andconstruction material options
• Wide orifice bore/flow range capability
• Compliance with NACE MR 01-75(90)
COMPLETE POINT SOLUTIONS™Rosemount Inc. Complete Point Solutions providesfully engineered measurement solutions, combiningbest product and practices for improved performance,reliability, and cost of ownership.
The capability of the world’s finest industrial measurementinstrumentation is further increased by combining it witha premier offering of complimentary products. This systemis engineered and assembled by Rosemount Inc. to makeit easy for you to specify and order the correctequipment for your process measurement needs.
We complement our field instruments with a wide rangeof technologies; including, manifolds, primary elements,process flanges and seals, and temperature sensorsand accessories.
Complete Point Solutions is designed to provide youwith Best-in-Class equipment — allowing you to saveon installation costs, and improve the reliability andcapability of your process. Take advantage of ourvast experience in process measurement, and startimproving your process with Complete Point Solutions.
The Rosemount Model 1195 Integral Orifice Assemblyis designed to meet the need for highly accurate small-bore flow measurements with minimal installation andmaintenance requirements.
The Model 1195 is suitable for measurement of anyclean gas, liquid, or vapor flow. It can be directlymounted to any Rosemount differential pressuretransmitter in many environments and applications.
It connects to the process piping using one of thefollowing methods: a threaded or socket-weld Model1195 body, threaded pipe ends, flanged pipe ends, orpipe ends prepared for welding.
Flow-512
Model 1195 Integral Orifice
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FIGURE 1. Model 1195 Integral Orifice combined witha Model 3051C Transmitter and a Model305AT Traditional Style Integral Manifold.
ROSEMOUNT DP TRANSMITTERMODEL SUMMARY
Rosemount differential pressure transmitters offera multi-tiered approach to your measurement needs.From the interactive self-diagnostics of the Model3051C Smart transmitters to the low-cost Model2024, Rosemount Inc. has a transmitter for anymeasurement application. Any of the followingtransmitters can be used with the Model 1195.
Model 3051C Differential Pressure Transmitteris a high-performance pressure transmitter withsimultaneous digital and analog communication,and a Rosemount SMART FAMILY® member.See Pressure-5.Model 1151DP/1151DP Smart Pressure Transmitterfor general-purpose differential pressuremeasurements with simultaneous digital andanalog communication, and a Rosemount SMARTFAMILY® member. See Pressure-173.Model 1151DP Square Root Flow Transmitterperforms square root extraction within thetransmitter. See Pressure-173.Model 1151HP Differential Pressure Transmitterfor high static pressures.See Pressure-173.Model 1151 Low-Power Pressure Transmitterconsumes as little as 0.0075 watts for battery- orsolar-powered applications. Available in DP or HPversions for this application.See Pressure-173.Model 3095 MV™ Multivariable™
Mass Flow Transmitterprovides cost-effective mass or volumetric flowmeasurements for either gas or liquid fluids.See Pressure-127.Model 2024 Differential Pressure Transmitteris a low-cost, non-repairable pressure transmitterfor monitoring or indication applications.See Pressure-387.
Rosemount Inc.
Flow-513
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1195
MODEL 1195 SPECIFICATIONS
Functional SpecificationsService and Flow RangeLiquid, gas, or vapor flow in the approximateranges shown in Table 1.Differential Range5–250 in H2O at 68 °F (20 °C).
Operating Process Temperature Limits–40 to 300 °F (–40 to 149 °C). Contact factoryfor applications above 300 °F (149 °C).Maximum Working PressureFlange rating per ANSI B16.5 or as listedin Table 2, whichever is less.
TABLE 1. Service and Flow Ranges.
Line Size(in.)
Plate Type
LiquidsExample is Water @ 60 °F (15.6 °C)
Gases/VaporsExample is Air @ 500 psia, 68 °F (20 °C)
GPM I/min SCFH m3/hr
½½1
1½
QuadrantSquareSquareSquare
0.001–0.10.047–7.00.18–410.7–95
0.004–0.40.15–26.50.68–155
2.65–360.0
0.75–30030–8,800
115–55,000450–125,000
0.021–8.10.9–250
2.9–1,57511.7–3,650
Standard conditions of: 14.696 psia, 60 °F (15.6°C).
TABLE 2. Maximum Working Pressures.
(1) Schedule 80 pipe at the process connection ends is standard for threaded one-half and one in. pipe assemblies. All piping will notnecessarily meet schedule requirements five pipe diameters upstream and downstream from the orifice plate due to the precisionpipe bore incorporated in all standard pipe assemblies. Pressure ratings are listed in the following maximum working pressuretable for all assemblies.
Line Size(in.)
Process Connection
Ordering Code
Pressure Rating (psig)Standard Materials of Construction
Description 100 °F 300 °F
½ in. Body-only Socket WeldBody-only Threaded
Pipe BeveledPipe Threaded
Flanged–Class 150Flanged–Class 300Flanged–Class 600
S1T1P2P1A1A2A3
30001500300015002757201440
23001180230011802155601120
1 in. Body-only Socket WeldBody-only Threaded
Pipe BeveledPipe Threaded
Flanged–Class 150Flanged–Class 300Flanged–Class 600
S1T1P2P1A1A2A3
20001500200015002757201440
15501180155011802155601120
1½ in. Body-only Socket WeldBody-only Threaded
Pipe BeveledPipe Threaded
Flanged–Class 150Flanged–Class 300Flanged–Class 600
S1T1P2P1A1A2A3
15001440150014402757201440
11201120112011202155601120
Model 1195 Integral Orifice
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Physical SpecificationsMaterials of Construction
Orifice Plate316 SST, Hastelloy C-276®, or Monel® 400.
Body316L SST (CF3M), material per ASTM A743.Hastelloy C® (CW12MW) or Monel (M351), materialper ASTM A494.
Flange and Pipe Material (if applicable)316L SST. Flange pressure limits are per ANSI B16.5for 316 SST and material per SA182. Flange facefinish per ANSI B16.5, 125 to 250 RMS. Pipe meetsASTM 312A.
BoltsSAE 429 Grade 8 (meets or exceeds ASTM A193 B7requirements), ASTM A193 Grade B7M, or ASTMA193 Grade B8, Type 304. (Body bolts are supplied inthe same material as specified for mounting bolts.)
Gaskets/O-RingsGlass-filled PTFE.
Gaskets and O-rings must be replaced each timethe Model 1195 is disassembled for installationor maintenance.
Assembly Process ConnectionsThreaded Connections½-, 1-, and 1½-in. NPT.Socket-Weld½-, 1-, and 1½-in. Process piping must be machinedprior to installation. See dimensions in Figure 22.Associated Piping½-in. SCH40, 1-in. SCH40, and1½-in. SCH80. (Precision bored for greater flowaccuracy.) See Note (1) in Table 2.Flanged PipeANSI Class 150, 300, and 600 RF.
Bore SizesThe bore sizes in Table 3 are standard. Betas listedare for assemblies with piping.Available Pipe LengthsSee Table 4.Transmitter Connections21/8-in. (54 mm) center-to-center. Other transmitterspacing can be accommodated using the optionalremote adaptors and customer-supplied impulse piping.DIN 19213 connections are available.
TABLE 3. Standard Bore Sizes.(1)
(1) Special bores are available between beta limits of 0.1 and 0.8. Consult factory.
½ in. Lines 1 in. Lines 1½ Lines
in. (mm) Beta in. (mm) Beta in. (mm) Beta
0.0100.0140.0200.0340.0660.1090.1600.1960.2600.340
(0.25)(0.36)(0.51)(0.86)(1.68)(2.77)(4.06)(4.98)(6.60)(8.64)
0.0150.0210.0300.0510.0990.1640.2410.2950.3920.512
0.1500.2500.3450.5000.6300.800
(3.81)(6.35)(8.76)(12.70)(16.00)(20.32)
0.1370.2280.3140.4560.5740.729
0.2950.3760.5120.7481.0221.184
(7.49)(9.55)(13.00)(19.00)(25.96)(30.07)
0.1880.2400.3270.4770.6520.756
TABLE 4. Pipe Lengths.
Line Size
Flanged Total Length(Flange Face to
Flange Face)
Beveled or Threaded Total Length(Pipe End to Pipe End)
in. (mm) in. (mm)
½ in.1 in.
1 ½ in.
18.228.910.3
(462)(734)
(1023)
18.028.639.9
(457)(726)
(1013)
Rosemount Inc.
Flow-515
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1195
b.To convert gases to equivalent air flow, use
where T is temperature in degrees Fahrenheitof flowing gas (temperature in °C for S.I. units),pf is flow pressure in psia (KPA for S.I. units),Zf is the gas compressibility factor at flowconditions (use Zf =1 if unknown), G is thespecific gravity (Mwgas/28.9625), and q is theflow rate in SCFH (Nm3/hr for S.I. units).
2. Find the applicable graph, (Figures 2–9 on pages517–520), based on fluid type, flow units (U.S. orS.I.), and orifice bore size.
3. Find the calculated flow value on the horizontalaxis of the graph. Follow the vertical line until itintersects the desired orifice bore line. Thehorizontal line intersecting that point indicatesthe corresponding differential pressure.
4. Once the correct graph and line are chosen,any combination of equivalent flow rate anddifferential pressure can be found on the graph.
List of Abbreviations
b d/D = Beta
B.D. Bored Diameter
d Orifice Bore in in.
D Pipe Inside Diameter in in.
ft3/hr Cubic Feet per Hour
G Gas Specific Gravity
Gb Liquid Specific Gravity at Base Conditions
Gf Liquid Specific Gravity at Flowing Conditions
gpm Gallons per Minute
I.D. Inside Diameter
l/min. Liters per Minute
m3/hr Cubic Meters per Hour
pf Pressure in psia at Flowing Conditions
qe,air Equivalent Gas Flow Rate
qe,water Equivalent Liquid Flow Rate
qgpm Liquid Flow Rate in Gallons per Minute
qlpm Liquid Flow Rate in Liters per Minute
qNm3/hr Gas Flow Rate in Normal Cubic Meters per Hour
qscfh Gas Flow Rate in Standard Cubic Feet per Hour
Rd Orifice Bore Reynolds Number(1)
(1) Refer to “Flow Measurement Engineering Handbook” by R.W. Miller.
RF Raised Face
sch Schedule
T Temperature in degrees Fahrenheit for U.S. equation,degrees in Centigrade for S.I. Equation of Flowing Gas
Zf Gas Compressibility Factor at Flow Conditions
qe, air = qscfh( ) T 460+( )519
------------------------- 14.7pf
----------- G Zf×××
qe, air = qNm3/hr( ) T 273+( )288
------------------------- 101.3pf
--------------- G Zf×××
Orifice TypeSquare EdgeOrifice bore sizes 0.066 and larger.Quadrant EdgeOrifice bore sizes 0.034, 0.020, 0.014, and 0.010.
Bodies contain corner tapped pressure ports.Dimensional DrawingsSee Figure 22.
WeightThe following weights provided in Table 5are approximate:
Torque Values of Standard Carbon Steel BoltsOrifice Body Bolting60 ft-lb (81 N-m).Transmitter Bolting34–38 ft-lb (46–52 N-m).3-Valve Manifold Bolting34–38 ft-lb (46–52 N-m).
Approximate Sizing GraphsSee Figures 2–9 on pages 517–520.
These graphs are intended as guides for approxima-tion. For exact sizing, please consult Rosemount Inc.The abbreviations that appear in this document aredefined in a List of Abbreviations at right.General Sizing Procedure
1. Determine the equivalent flow ratecorresponding to the process flow rate.
a.To convert liquids to equivalent water flow, use
where Gb is specific gravity at base conditions,Gf is the specific gravity at flow conditions, andq is the flow rate in gallons per minute or litersper hour. Use Gb=Gf if only one value is known.
TABLE 5. Assembly Weights.
Line Size Model 1195 Only With Flanged Piping(1)
(1) As supplied with standard lengths, ANSI Class 150 flanges.
lb (kg) lb (kg)
½ in.1 in.
1½ in.
468
(1.8)(2.7)(3.6)
81225
(3.6)(5.4)
(11.3)
U.S.: qe, water = qgpm( ) Gb( ) 1Gf------
SI: qe, water = qlpm( ) Gb( ) 1Gf------
Model 1195 Integral Orifice
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Straight Pipe RequirementsUse the appropriate lengths of straight pipe upstreamand downstream from the Model 1195 body tominimize the effects of moderate flow disturbances inthe line. Piped assemblies incorporate some or all ofthe recommended lengths. Table 4 lists therecommended lengths of straight pipe for specific flowsituations per ISO 5167.
Performance SpecificationsTABLE 6. Model 1195 Flow Coefficient Uncertainty.
This table lists flow coefficient uncertainty for standard orifice plate bore sizes when shipped new from the factory. Inspect and clean the orifice plateregularly to ensure the bore edge and surface finish are not worn or damaged. A laboratory water flow calibration can reduce the flow coefficientuncertainty to 0.5% for many bore sizes. Contact Rosemount Inc. for details.
Flow Coefficient Uncertainty(1)
(1) For orifice bore Reynolds numbers (Rd) less than 1,500 (less than 10,000 if β is greater than 0.6) and special bores,flow coefficient uncertainty is 3.0% for assemblies with piping and 5.0% for assemblies without piping.Reference “Flow Measurement Engineering Handbook” by R. W. Miller for calculation of Reynolds Number (Rd).
With Associated Piping Without Associated Piping
β ≤ 0.1 2.5% 5.0%
0.1 < β < 0.2 1.25% 2.5%
0.2 ≤ β ≤ 0.6 0.75% 1.5%
0.6 < β < 0.8 1.5% 3.0%
�� �� Orifice Plate BorePipe I.D.
----------------------------------------=
BEST COEFFICIENT
Rosemount Inc.
Flow-517
Mo
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1195
½-in. Line Size(Quadrant-edged plate)
Water Flow Rate (l/min)at Base Condition of 15 °C
Water Flow Rate (gpm)at Base Condition of 60 °F
Diff
eren
tial P
ress
ure
(in H
2O)
Diffe
rent
ial P
ress
ure
(mm
H2O
)
FIGURE 2. Approximate Sizing Graph (½-in. line size, quadrant-edged plates) for Water Flow Rate.
1195
-023
1A
Air Flow Rate (m3/hr)at Base Condition of 15 °C and 101.3 kPA
Air Flow Rate (ft3/hr)at Base Condition of 59 °F and 14.7 psia
Diff
eren
tial P
ress
ure
(in H
2O)
Diff
eren
tial P
ress
ure
(mm
H2O
)
FIGURE 3. Approximate Sizing Graph (½-in. line size, quadrant-edged plates) for Air Flow Rate.
119
5-0
231B
Model 1195 Integral Orifice
Flow-518
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½-In. Line Size(Square-edged plate)
1195
-00
96A
Water Flow Rate (l/min)at Base Condition of 15 °C
Water Flow Rate (gpm)at Base Condition of 60 °F
Diff
eren
tial P
ress
ure
(in H
2O)
Diff
eren
tial P
ress
ure
(mm
H 2O
)
FIGURE 4. Approximate Sizing Graph (½-in. line size, square-edged plates) for Water Flow Rate.
1195
-009
6B
FIGURE 5. Approximate Sizing Graph (½-in. line size, square-edged plates) for Air Flow Rate.
Diff
eren
tial P
ress
ure
(in H
2O)
Diff
eren
tial P
ress
ure
(mm
H2O
)
Air Flow Rate (m3/hr)at Base Condition of 15 °C and 101.3 kPA
Air Flow Rate (ft3/hr)at Base Condition of 59 °F and 14.7 psia
Rosemount Inc.
Flow-519
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1195
1-In. Line Size
1195
-00
97A
Water Flow Rate (l/min)at Base Condition of 15 °C
Water Flow Rate (gpm)at Base Condition of 60 °F
Diff
eren
tial P
ress
ure
(in H
2O)
Diff
eren
tial P
ress
ure
(mm
H 2O
)
FIGURE 6. Approximate Flow Graph (1-in. line size) for Water Flow Rate.
1195
-009
7B
Diff
eren
tial P
ress
ure
(in H
2O)
Diff
eren
tial P
ress
ure
(mm
H2O
)
FIGURE 7. Approximate Flow Graph (1-in. line size) for Air Flow Rate.
Air Flow Rate (m3/hr)at Base Condition of 15 °C and 101.3 kPA
Air Flow Rate (ft3/hr)at Base Condition of 59 °F and 14.7 psia
Model 1195 Integral Orifice
Flow-520
Mo
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1½-In. Line Size
1195
-02
32A
Water Flow Rate (l/min)at Base Condition of 15 °C
Water Flow Rate (gpm)at Base Condition of 60 °F
Diff
eren
tial P
ress
ure
(in H
2O)
Diff
eren
tial P
ress
ure
(mm
H 2O
)
FIGURE 8. Approximate Flow Graph (1½-in. line size) for Water Flow Rate.
119
5-0
232B
FIGURE 9. Approximate Flow Graph (1½-in. line size) for Air Flow Rate.
Diffe
rent
ial P
ress
ure
(in H
2O)
Diffe
rent
ial P
ress
ure
(mm
H2O
)
Air Flow Rate (m3/hr)at Base Condition of 15 °C and 101.3 kPA
Air Flow Rate (ft3/hr)at Base Condition of 59 °F and 14.7 psia
Rosemount Inc.
Flow-521
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1195
U D U D
A) REDUCER B) SINGLE 90° BEND
U DU D
U D U D
E) EXPANDER F) GLOBE/GATE VALVEFULLY OPEN
D) TWO OR MORE 90° BENDSIN DIFFERENT PLANES
The following chart gives the upstream (U) and downstream (D) lengths, in conformance with ISO 5167, required for the above installations. Thelengths are given in terms of pipe diameters. For example, for a one-in. line size with a beta ratio (b) of 0.4 using installation type B above,the straight length of upstream piping required is 14 31 = 14 in., and downstream 6 31 = 6 in.
OrificeBore
4PipeBore
β
On Upstream (U inlet side of the primary device)On
downstream(D outlet side)
AReducer
(2 d to d overa length of1.5 d to 3 d)
BSingle 90°
bend or tee(flow from onebranch only)
CTwo or more90° bends in
the sameplane
DTwo or more90° bends in
differentplanes
EExpander(0.5 d to d
over a lengthof d to 2 d)
FGlobevalvefullyopen
GGatevalvefullyopen
All fittingsincluded inthis table
<0.200.250.300.35
5555
10101012
14141616
34343436
16161616
18181818
12121212
4455
0.400.450.500.55
5568
14141416
18182022
36384044
16171820
20202224
12121214
6666
0.600.650.700.75
9111422
18222836
26323642
48546270
22253038
26283236
14162024
7778
C) TWO OR MORE 90° BENDSIN THE SAME PLANES
1151
-A15
A
Figure 23. Pipe Length Requirements for Installation.
Model 1195 Integral Orifice
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LUpstream
M(2)
Downstream
Flow B.D.
NPT PIPING
TABLE 1. Dimensions.
Dimension
Line Size
½ in. 1 in. 1½ in.
in. (mm) in. (mm) in. (mm)
ABCD(1)
EFGHJK(2)
LM(2)
NB.D.I.D.
(1) To improve pipe perpendicularity for gasket sealing, socket diameter“D” is smaller than standard pipe O.D. Pipe O.D. must be machinedsmaller than socket diameter “D” to ensure a proper fit.
(2) Downstream length shown here includes plate thickness of0.162 in. (4.11 mm).
3.43.93.0
0.8053.62.63.62.5
12.55.7
12.45.60.8
0.6640.622
(86)(99)(76)
(20.45)(91)(66)(91)(64)
(318)(145)(315)(142)(20)
(16.9)(15.8)
3.84.33.3
1.2803.93.03.93.0
20.28.7
20.18.61.0
1.0971.049
(97)(109)(84)
(32.51)(99)(76)(99)(76)
(513)(221)(511)(218)(25)
(27.86)(26.64)
4.54.93.7
1.8654.43.54.43.5
28.411.928.211.71.3
1.5671.500
(114)(124)(94)
(47.37)(112)(89)
(112)(89)
(721)(302)(716)(297)(34)
(39.80)(3.81)
B.D.
LUpstream
M(2)
Downstream
Flow
BEVELED PIPING(Prepared for Welding)
JUpstream
K(2)
Downstream
Flow B.D.
FLANGED PIPING
SOCKET-WELDOR THREADED BODY ORIFICE PLATE
(Square-Edged Plate Shown)
115
1-1
151B
11A
,11
51A
11A
,119
5-0
205A
01A
,02
34A
01C
,024
34A
01A
,023
4A
01B
REMOTE ADAPTER0.06(2)
½–14NPT
0.47 (12)Dia.
0.81(21)
0.81(21)
1.10(28)
0.162(4.11)
FlowD
E
F
0.162(4.11)2.46
(62.4)
2.13(54.1)
3.37(85.6)
A
C
B
D
N
I.D.
NOTEDimensions are in in. (mm).
Figure 22. Dimensional Drawings.
G
H
Rosemount Inc.
Flow-523
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ORDERING INFORMATION
Model Product Description
1195 Integral Orifice Assembly
Code Body Material
SHM
316L SSTHastelloy C (For process connection Codes T1 and S1 only)Monel (For process connection Codes T1 and S1 only)
Code Line Size
123456
½-in.1-in.1½-in.½-in. with DIN 19213 Connections1-in. with DIN 19213 Connections1½-in. with DIN 19213 Connections
Code Process Connection
T1S1P1P2A1A2A3D1D2D3
NPT Female Body (Process piping ends must be threaded. See Fig. 22.)Socket Weld Body (Process piping ends must be machined. See Fig. 22.)Pipe Ends NPT ThreadedPipe Ends Prepared for WeldingPipe Ends Flanged–ANSI Class 150 RFPipe Ends Flanged–ANSI Class 300 RFPipe Ends Flanged–ANSI Class 600 RFFlange DIN PN 16Flange DIN PN 40Flange DIN PN 100
Code Orifice Plate Material
SHM
316 SSTHastelloy C-276Monel
Code Bore Size(1) Pipe Size
XXXX0010001400200034006601090160(1)
0196(1))
0260(1)
0340(1)
XXXX01500250(1)
0345(1)
0500(1)
0630(1)
0800
XXXX02950376(1)
0512(1)
0748(1)
10221184
(1) Best flow coefficient uncertainty (0.2 ≤ b ≤ 0.6).
Factory Calculation: ½ in.0.010 (0.25)½-in.0.014 (0.36)½-in.0.020 (0.51)½-in.0.034 (0.86)½-in.0.066 (1.68)½-in.0.109 (2.77)½-in.0.160 (4.06)½-in.0.196 (4.98)½-in.0.260 (6.60)½-in.0.340 (8.64)½-in.
Factory Calculation: 1-in.0.150 (3.81)1-in.0.250 (6.35)1-in.0.345 (8.76)1-in.0.500 (12.70)1-in.0.630 (16.001-in.0.800 (20.32)1-in.
Factory Calculation: 1½-in.0.295 (7.49)1½-in.0.376 (9.55)1½-in.0.512 (13.00)1½-in.0.748 (19.00)1½-in.1.022 (25.96)1½-in.1.184 (30.07)1½-in.
Flange and pipe material are316L SST. For other processconnections and materials,please consult factory.
NOTEDimensions are in in. (mm).
Model 1195 Integral Orifice
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ORDERING INFORMATION (continued)
Code Mounting Bolt Size/Material(1)
(1) Body bolts are supplied in the same material as specified for mounting bolts. Grade 8 Carbon Steel bolts are supplied as standard and meetor exceed ASTM Grade B7 requirements. Additional bolting materials are available and are listed under options.
AB
Standard 1.0 in. for direct assembly to most manifolds and pressure transmitters, including Model 1151.2.25 in. for direct mounting to Models 3051C and 2024 with Coplanar flange without manifold.
Code Options
A(2)(3)
B
EFKLNP2Q8(4)
S
(2) Must use Option Code S4 in transmitter model number.
(3) Option Code A not available with process connection code S1 (Socket-weld body).
(4) Includes certificates for mechanical and chemical properties of bodies, pipes, flanges, and adapters as applicable.
Factory Assembled to Rosemount Differential Pressure TransmitterBore Calculation (Must include XXXX for bore code and CDS 00806-0100-4686.
Calculation may change model number, pricing, or both.)Remote Adapters–316 SSTRemote Adapters–Hastelloy CASTM A193 Grade B7M Bolts (NACE)ASTM A193 Grade B8 Type 304 Bolts (304 SST)Wetted Materials per NACE MR 01-75(90)Cleaning for Special ServiceQ58 Material Traceability per EN 10204 3.1BSpecial Bore (Include Option Code B if Rosemount Inc. is to calculate)
Typical Model Number: 1195 S 1 A1 S XXXX A B
Assembly to Rosemount TransmitterIf the Model 1195 process connection is threaded(process connection code T1), it can be shippedassembled to a Rosemount differential pressuretransmitter if Option Code A is selected for theModel 1195 and Option Code S4 for the transmitter.If a standard 3-valve manifold is also specified, itwill be assembled between the Model 1195 and thetransmitter. Assemblies with associated piping orsocket-weld bodies cannot be shipped assembledfrom the factory.NOTEDisassembly at installation requires new gaskets and O-rings toensure proper seal. See PPL 00814-0100-4686 for details.
If the Model 1195 and a Rosemount transmitter are notassembled at the factory, they may be shippedseparately. If you require a consolidated shipment,please inform your Rosemount salesperson when placingthe order.
Optional Model 305 Integral ManifoldsRefer to Pressure-79 for ordering information.
Spare Parts(1)
(1) All kits contain 10 gaskets and/or O-rings.
Plate O-ring Kits Size
1195-0036-00311195-0036-00321195-0036-0033
1/2-in.1-in.
11/2-in.
Transmitter/Manifold Gasket Kits(2)
(2) See PPL 00814-0100-4686 for additional spare parts and pricing.
Size
1195-0036-0034 All
Rosemount Inc.
Flow-525
Mo
del
1195
Model 1195 Integral Orifice
00813-0100-4686 Rev. DA 11/98
http://www.rosemount.com
00813-0100-4686
© 1998 Rosemount Inc. All rights reserved.
Dieterich Standard Inc.5601 North 71st StreetBoulder, CO 80301Tel (303) 530-9600Fax (303) 530-7064
Fisher-RosemountSingapore Pte Ltd.1 Pandan CrescentSingapore 128461Tel (65) 777-8211Fax (65) 770-8007Tlx RS 61117 FRSPL
Fisher-Rosemount LimitedHeath PlaceBognor RegisWest Sussex PO22 9SHEnglandTel 44 (1243) 863 121Fax 44 (1243) 867 5541
Rosemount Inc.8200 Market BoulevardChanhassen, MN 55317 USATel 1-800-999-9307Telex 4310012Fax (612) 949-7001
Flow-526
Mo
del1195
Flow Measurement Product Data SheetsModel 8900M Mass ProBar™ Mass FlowmeterFlow-117
Model 8900V ProBar™ Volumetric FlowmeterFlow-247
Model 8800A Smart Vortex FlowmeterFlow-3
Model 8712H High-Signal Magnetic Flowmeter Transmitter00813-0100-4642
Model 8700 Magnetic Flowmeter SystemsFlow-51
Model 3095 MV™Multivariable™ Mass Flow TransmitterPressure-127
Rosemount, the Rosemount logotype, Alphaline, and SMART FAMILY areregistered trademarks of Rosemount Inc.Coplanar is a trademark of Rosemount Inc.Annubar is a registered trademark of Dieterich Standard Inc.Hastelloy C and Hastelloy C-276 are registered trademarks of Cabot Corp.Monel is a registered trademark of International Nickel Co.