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pressure instrumentation
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1. p ressure1.1. pressure gauges
1.1.1. general informationpressure gauges 16contact gauges 29
1.1.2. industrial seriesall stainless steel safety pattern gauge BDT20-63-100-160 39phenolic solid front turret gauge BDT21 40all stainless steel process gauge BDT18-63-80-100-160 41all stainless steel low volume gauge BDT19 42all stainless steel slim casing gauge BDT22-100-160 43gauge with seal combinations 44-45all stainless steel capsule gauge BDT9-18 47capsule gauge with brass internals BDT9-08 48diaphragm gauge BDT12 49differential gauge bourdon tube system BDT13-350 50differential gauge diaphragm system BDT13-360 51industrial heavy duty gauge with brass internals BDT1-100-160 52
glycerine fillable gauge with brass internals BDT10-80-100-160 531.1.3. standard and OEM series
OEM gauge with brass internals, push-in window BDT1-00 55ABS 100 mm gauge BDT6 56OEM gauge 100/160 mm brass internals BDT2-100-160 57glycerine fillable pressure gauge reduced volume BDT11 58glycerine fillable gauge crimped bezel BDT4-40-50-63-100 59
1.1.4. contact seriesfillable all stainless steel BDT30-18 61separate contact devices in plastic hood BDT31-01 62gauge with plastic makrolon hood BDT31 63stainless steel/brass internals BDT32-18 64
stainless steel internals BDT36-18 651.1.5. tailor made series
square gauges BDT14 67test gauges BDT17-18 68test gauges BDT17-08 69differential duplex gauge BDT13-370 70differential low pressure gauge BDT13-380 71differential low piston gauge BDT13-381 72differential piston gauge BDT13-383 73differential capsule gauge BDT13-918 74mud gauge BDT15 75gauge with build in transmitter BDT33 76gauge with build in micro-switch BDT34 77
1.1.6. gauge accessoriespressure gauge syphons type A BDT43 79pressure gauge syphons type C BDT42 79pressure gauge syphons type S BDT44 79pressure gauge adjustable snubber BDT45 79overpressure protectors BDT49 80surface mounting brackets BDT40 80pressure gauge cocks 1/4" and 1/2" BDT53 81DIN pressure gauge valves 1/4" and 1/2" BDT54 81pressure gauge sealing washers BDT55 81pressure gauge sealing washers BDT57 82pressure equalizing valves for BDT13 M3D 82stainless steel needle valve 1/4" and 1/2" N2 83stainless steel bleed needle valve 1/4" and 1/2" B8 83pressure gauge rubber covers BDT58 84pressure gauge in-line filters BDT59 84
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i n s t rumentat ion index1.2. pressure sensors
1.2.1. Sensorsrange from 1 bar up to 400 bar BDT361 87range from 2.5 bar up to 400 bar BDT363 88
1.2.2. industrial pressure sensorsrange from 10 mbar up to 1 bar BDT443 89range from 40 mbar up to 40 bar BDT431 90range from 40 bar up to 600 bar BDT433 91range from 40 bar up to 600 bar BDT435 92range from 400 bar up to 2200 bar BDT434 93range from 1 bar up to 400 bar BDT531 94range from -1...0 bar up to 25 bar BDT431i 95range from 40 bar up to 600 bar BDT433i 95range from 100 mbar up to 25 bar BDT731i 95
1.2.3. differential pressure transmittersrange 400 mbar up to 16 bar BDT631 97
1.2.4. level transmittersrange from 100 mbar up to 40 bar BDT731 98range from 1 MWG up to 160 MWG BDT705 99range from 1 MWG up to 160 MWG BDT707 100range from 1 MWG up to 100 MWG BDT780 101range from 0.6 MWG up to 200 MWG BDT882 102
1.2.5. transmitter with display and contact outputrange from 100 mbar up to 600 bar BDT030 103
p r e s s u r e i n s t r u m e n t a t i o n
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1500 / January 2005 Copyright Badotherm Group, 2005. All rights reserved. No part of this publication may be reproduced, stored in a retrieval sys-tem, or transmitted, in any form, by any means, electronic, mechanical, photocopying, recording or otherwise the written permission of the publisher.14
1.1.1.
Dear customer,
The Badotherm programme summarized in this catalogue,
shows standard versions with main technical data and is
subject to a continuous quality and product improvement.Badotherm reserves the right to change all specifications,
such as executions, weights, dimensions, capacities, prices,
colors and other data contained in this catalogue, without
prior notice.
All Badotherm products delivered are subject to our
Standard Conditions of Sale.
Our complete programma including latest technical data
sheets and Conditions of Sale are available on our website
www.badotherm.com
Peter Bastiaan
Chief Executive Officer
Badotherm Group
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01/01/2006 rev 2
1.1.1.
p r e s s u r e i n s t r u m e n t a t i o n
general information
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general information about pressure gaugesOptimum safety results from the careful planning, selection and installation of the gauge to be used in apressurized system. The user should inform the manufacturer of all conditions pertinent to theapplication and environment so the chosen specifications can be verified. The chosen materials are alwaysthe responsibility of the customer, Badotherm can only advise based on knowledge and 50 years ofexperience.Mechanical pressure gauges are produced with bourdon tubes, diaphragms, bellows and capsules and areaccordingly different. The measuring instruments are made of copper alloy, alloyed steel or produced inspecial materials for specific measuring applications.The pressure sensing element in most gauges is subjected to high internal stress. To bring this stress downto acceptable levels it is necessary to combine the instruments with pressure regulators, chemical seals,pulsation dampeners, snubbers, siphons, manifolds, valves and other similar equipment. The potentialhazard increases at higher operating pressures, so safety is of paramount importance.
technical names for pressure gauge parts
1) universal bracket type B4 11) dial2) U-bracket with bolts on casing type B2 12) pointer 3) back-flange for wall mounting 13) window4) back-flange for safety gauge 14) 3-hole panel mounting bezel5) blow out back with compensation rubber 15) push-on bezel6) bayonet safety casing with baffle wall 16) narrow flange bezel for clamp fixing7) standard casing 17) bayonet casing8) internal system for back connection 18) bayonet bezel9) internal system for bottom connection 19) rubber window gasket
10) movement 20) rubber blow out
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p r e s s u r e i n s t r u m e n t a t i o n
conversion table for pressure units
fromto
bar
mbar
bar
Pa
kPa
MPa
psi
ft.H2O
in.H2
O
in.Hg
1bar
1
103
106
105
100
0,1
14,5
037
33,4
553
401,4
63
29,5
299
1mbar
(hPa)
10-3
1
103
100
0,1
0,1
*10-3
14,5
0*10-3
33,4
5*10-3
401,4
6*10-3
29,5
2*10-3
1bar
(barye,
dynes/cm
2)
10-6
10-3
1
0,1
0,1
*10-3
0,1
*10-6
14,5
*10-6
33,4
5*10-6
401,4
6*10-6
29,5
2*10-6
1Pa(N
/m2)
10-5
0,0
1
10
1
10-3
10-6
0,1
45*10-3
0,3
3*10-3
4,01*
10-3
0,2
9*10-3
1kPa(KN/m2)
0,0
1
10
10*103
103
1
10-3
0,1
45
0,3
345
4,014
6
0,2
952
1MPa
(M
N/m2)
10
10*103
10*106
106
103
1
0,1
45*103
0,3
3*103
4,01*
103
0,2
9*103
1psi(p
sig,
lb(f)/in2)
68,9
4*
10-3
68,9
475
68,9
4*103
6,8
9*103
6,8
947
6,8
9*10-3
1
2,3
066
27,67
99
2,0
36
1ft.H2O(WG,
WS,
WC,
CE)
29,8
9*
10-3
29,8
907
29,8
9*103
2,9
8*103
2,9
89
2,9
8*10-3
433,5
2*10-3
1
12
0,8
826
1in.H2
O(WG,
WS,
WC,
CE)
2,4
9*1
0-3
2,4
908
2,4
9*103
0,2
49*103
0,2
49
0,2
49*10-3
36,1
2*10-3
83,3
3*10-3
1
73,5
5*10-3
1in.Hg
33,8
6*
10-3
33,8
638
33,8
6*103
3,3
8*103
3,3
863
3,3
8*10-3
0,4
911
1,1
329
13,59
51
1
bar
mbar
bar
atm
oz/in2
cmHg
mmHg
mmH2O
mH2O
kg(f)/cm
2
1bar
1
103
106
0,9
86923
232,0
608
75,0
06353
750,0
6
10,1
9*103
10,19
72
1,0
1972
1mbar
(hPa)
10-3
1
103
0,0
00987
0,2
320608
0,0
7500635
750,0
6*10-3
10,1
972
10,19
*10-3
1,0
1*10-3
1bar
(barye,
dynes/cm
2)
10-6
10-3
1
0,0
00001
0,0
00232
0,0
00075
750,0
6*10-6
10,1
9*10-3
10,19
*10-6
1,0
1*10-6
1atm
1,0
132
51
1013,2
51
1013250,7
3
1
235,1
3536
76,0
002649
760,0
02649
10332,5
664
10,33
25664
1,0
33228
1oz/in
2(OSI)
0,0
043
0922
4,3
09216
4309,2
2313
0,0
04253
1
0,3
2321875
3,2
321875
43,9
41875
0,043
94187
0,0
043942
1cmHg
0,0
133
322
13,3
322
13332,1
848
0,0
1316
3,0
9387992
1
10
135,9
5
0,135
95
1mmH
g(Torr)
1,3
3*1
0-3
1,3
332
1,3
3*103
0,0
01316
0,3
0938799
0,1
1
13,5
951
13,59
*10-3
1,3
5*10-3
1mmH
2O(WG,
WS,
WC,
CE)
98,0
6*
10-6
98,0
6*10-3
98,0
665
0,0
00097
0,0
2275734
0,0
0735565
73,5
5*10-3
1
10-3
0,1
*10-3
1mH2O(WG,
WS,
WC,
CE)
98,0
6*
10-3
98,0
665
98,0
6*103
0,0
97
22,7
573357
7,3
5564546
73,5
561
103
1
0,1
1kg(f)/cm
2(at,
kp/cm
2)
0,9
806
0,9
8*103
0,9
8106
0,9
67841
227,5
728
73,5
56
735,5
61
10*103
10
1
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mounting variations for pressure gauges
For technical data sheets and dimensional drawings please refer to our website www.badotherm.com28/04/2006 rev 2-A
1.1.1.
bottom connectionType A
side connectionType AR
side connectionType AL
diameter in mm height in mm
63 mm 73
100 mm 112
160 mm 162
top connectionType AT
mounting bracketType B4
universal bracket
mounting bracketType B2
mounting bracketType B3
surface connectionType C (DIN)
back flange
surface connection
Type C (JIS)
back flange
diam H D d2 d4
63 73 85 75 3.5
80 95 110 96 4.8
100 117 130 118 6
160 185 196 178 6
diam H d2 d4 d
80 98 88 4.8 80
100 127 115 6 105
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p r e s s u r e i n s t r u m e n t a t i o n
mounting variations for pressure gauges1.1.1.
center back connectionType D (centric)
eccentric back connectionType D
flush panel mountingback connectionpush on bezel
Type E-1
flush panel mountingback connection
for crimped casingType E-2
flush panel mountingback connection
for bayonet casingType E-4
front flange
diam D d d4
40 62 51 3.550 71 60 3.563 85 75 3.580 110 95 4.8
100 132 118 6160 196 178 6
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gauges with liquid fillingMany of the Badotherm pressure gauge series have the option of being liquid filled, to decidewhether you need a liquid filling consider the below following details. In the field, manypressure gauges are exposed to vibration and / or shocks, sometimes transmitted by theprocess fluid or by the way the gauge is mounted.
A consequence of this condition is that the moving parts and also the pointer will vibrate andthe actual reading will be impossible. High wear shortens the life cycle of the instrument dras-tically. Pulsations coming from the process fluid could be dampened by restrictors (referred toas check-screws or throttle-screws) or valves, but this only applies for clean process fluid. Therestrictor has a small hole that easily can be clogged and can cause incorrect reading, thisagain can lead to dangerous situations and may lead to accidents caused by wrong operationdecisions. In these cases liquid filling can protect the internal measuring system.
Dampening of vibration by reducing friction depends on the velocity of the moving parts(movement, tube and pointer) in the liquid. In the case of fast changing values, the averagepressure will be indicated.
The friction depends again on the viscosity of the liquid in addition to the velocity of themoving part. As the viscosities of liquids are temperature dependent, a series of standard fillingliquids can be used to suit the various thermal operating conditions.
If a chemical reaction of the process fluid with the liquid filling is possible in the event of aleakage in the system, fluorinated liquids should be used (fluorolube). For example oxygenwith glycerine will cause an explosion so an alternative fluid must be used.
The small temperature dependence of silicone oils makes this oil perfect as filling fluid in placeswhere there are extreme climatic (cold) circumstances. In these cases the liquid filling will
protect against the possible freezing of the moving parts and operating reliability is secured,even under extreme conditions. Also it will protect the internals from corrosive attack.
With liquid filling, the instrument must be sealed during transport but after installation it mustbe vented because pressure measuring instruments with tube systems require the atmosphereas a reference. Often this fact is forgotten with the consequence of a reading error.
The entry of aggressive ambient matter cannot be entirely excluded, and water condensatemay mix with filling liquid or when not filled collect at the bottom of the casing.To avoid these aspects a hermetically closed instrument is required with a compensatingmembrane built in such as the BDT20 series.
liquid filling of Badotherm gauges gives the following advantages
Increases dramatically the lifetime of the gauge under high dynamic operating conditions
Produces a steady reading when vibrations and pulsations occur
Avoids the entry of aggressive environment
Avoids the formation of water condensate
Increase general operational safety
Avoids misting of windows
Badotherm gauges are repairable in 63/80/100/160 mm (bayonet casings)
Available with contact switches and isolation filling oil (BDT30)
High quality, price competitive worldwide
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pressureinstrumentation
pressure elements guideFor most process conditions reliable measurement of the pressure is possible by using thecorrect internal measuring system. In case of non-compatibility with the system, a chemicalseal in combination with a pressure gauge, transmitter or pressure switch will solve theproblem. Types below indicate the available options.
Cshaped bourdon tube systemranges from -1 up to maximum 60 bartype BDT1/2/4/5/6/10/14/17/18/19/20/21/22/30/31/32/36
coiled tube systemranges from 60 up to 1600 bartype BDT1/2/4/5/6/10/14/17/18/19/20/21/22/30/31/32/34/36
capsule system
ranges from 6 mbar up to 600 mbartype BDT9/9-08/9-18
diaphragm systemranges from -1 up to 25 barranges from 16 mbar up to 600 mbartype BDT12
differential diaphragm system
ranges from 25 mbar up to 25 bartype BDT13
differential capsule systemfrom 4 mbar up to 400 mbartype BDT13
differential tube systemfrom 0.4 bar up to 25 bartype BDT13
differential piston systemfrom 0.25 bar up to 10 bartype BDT13
bellow systemfrom 25 mbar up to 1000 mbartype BDT8
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international standards for pressure gaugesBadotherm instrumentation is tested and manufactured under Badotherm and ISO9000 standardsand comply with the following.
pressure instruments
testingAll Badotherm gauges are in accordance with the EUROPEAN STANDARD EN837-1-2-3EN837-1 (part 1) - bourdon tube pressure gauge dimensions, metrology requirements and testing.EN837-2 (part 2) - selection and installation recommendations for pressure gauges.EN837-3 (part 3) - diaphragm and capsule gauge dimensions, metrology, requirements and testing.For more details see page 23 testing acc EN837.
accuracy classesAll Badotherm gauge accuracy classes are standard according to EN837-1/6.The classes within EN837 are defined as 0.1%, 0.25%, 0.6%, 1%, 1.6%, 2.5%, 4%.
For more details see page 25/26/27 pressure ranges with accuracy class.Badotherm gauges also comply with American standard, ASME B40.1 Grade B, class 3/2/3% and1.5%; ASME B40.1 Grade 1A, class 1%; ASME B40.1 Grade 2A, class 0.5%;ASME B40.1 Grade 3A class 0.25%; ASME B40.1 Grade 4A class 0.1%.
connection threadsAll Badotherm gauges have threads according to EN837-1/7.3.1 - 7.3.2 - 7.3.3 and 7.3.4.Parallel pipe thread (symbol G) according ISO 228-1.Tapered pipe thread (symbol NPT) according ANSI/ASME B1.20.1.For more details see page 23 pressure connections.
safety pattern gaugesSafety pattern solid front type with baffle wall to EN837-1/9.7.2/S3 (old DIN design 16006/UNI8541/BS1780). Safety gauges without baffle wall with blow out disk to EN837 1/9.7.1/S2.
weatherproof standard for gaugesIP54, NEMA 3. IP65, NEMA 4X.
oxygen and acetylene gaugesWetted parts materials comply with EN29539. Free of oil and grease.Safety pattern type according to EN837 1/9.7.1/S1.
certified material specificationAll stainless steel and other exotic materials used in Badotherm production for connections, flanges,bourdon tubes, diaphragms (wetted gauge process parts) etc are traceable, all materials areaccording to DIN EN 10204 2.2 or 3.1 (b).
quality controlBadotherm instruments are produced under the rigid codes of the instrumentation industry and QAstandards NEN-EN-ISO 9001 : 2000. Our company ISO 9000 procedures are continuously controlledand monitored by Lloyds Register Quality Assurance.Our ISO approval certification numbers for the different production plants are, 922045 Lloyds Register 751008448 TV 2124 National Quality Assurance co. A9638 UL inc.
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p r e s s u r e i n s t r u m e n t a t i o n
testing referred to EN837When a gauge is tested for accuracy and hysteresis, test instruments with an accuracy of at least4 times greater than the accuracy of the instrument to be tested, shall be required.The test instrument shall be traceable to national or international standards.
The test shall be made by rising and falling pressure. The number of test points shall be evenly dis-
tributed on the entire scale. The maximum scale value is a test point and the zero (free zero only)is a test point. - classes 0.1% up to 0.6% a minimum of 10 points.
- classes 1% up to 2.5% a minimum of 5 points.
Standard gauges may be pressurized for maximum 12 hours, to the full maximum scale value.An over pressure is allowed for 15 minutes. Cyclic pressure testing may fluctuate between 30%and 60% of the maximum scale value with a frequency of 20 to 60 cycles per minute.
pressure connectionsThe position of the connection can be specified per order, normal for bottom connection is6 oclock. Thread forms and sizes are shown in table below. The different threads are parallel withsymbol G or BSP, tapered thread with symbol NPT. Other threads such as BSPT, SAE, metric areavailable on request. The connection can be made from square, hexagon or round with flats.
parallel pipe threadG 1/8(28)G 1/4(19)G 3/8(19)G 1/2(14)
With parallel threads the pressure seal is made on the sealing face with a spigot using a washerthat is compatible to pressure medium.
tapered thread1/8 NPT (27)1/4 NPT (18)3/8 NPT (18)1/2 NPT (14)
With NPT threads the pressure seal is normally made by the fitting of the thread ( metal to metal)by using special never seize paste or PTFE tape on the male thread before assembly, the jointingmaterial should be compatible with the process fluid.
warning labels
All pressure gauges sealed for the purpose of liquid filling have a device to assure atmosphericcompensation. A label glued to the case shows how to open after installation. Make sure this willbe done because if this device is not opened severe personal damage may be caused whenoperating. For all standard pressure gauges an adhesive sticker is available that can be fixed on thecase with the following warning; Severe personal injury or damage may be caused by pressurebeyond the top of the scale, excessive vibration or pressure pulsation, excessive instrumenttemperature, corrosion of the pressure containing parts, or other misuse. Refer to ASME B40.1.
liabilityBadotherm shall not be liable for any damage or loss, caused to or by the item delivered as a
consequence of whatever event, unless and to the extent that any statuary provision or obligatoryforce holds Badotherm liable.
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installation manual
do not tighten by grasping the case of the gauge as this may cause damage
Before installing a pressure gauge, consideration should be given to temperature, humidity,vibration, pulsation, shock and other climatic and ambient conditions of the service application,and also to the possible need for protective attachments and / or special installation requirements.Consult ASME B40.1 1991 and NEN-EN837 to avoid misuse.
The user shall ensure that the correct gauge has been selected with the correct range, constructionand materials.
When a gauge incorporates a blow out device or blow out back, a minimum distance of 20 mmfrom any obstacle shall be ensured.
When tightening direct mounting gauges ( type A or D ) one should only use the correct spanneron the connection, this will avoid damage to the case and incorrect reading of the pressure range.
safety regulationsWith respect to the use of pressure gauges, the cause of failure is usually misuse or misapplication.
The following applications are considered potentially hazardous and must be carefully evaluated.Compressed gas systemsOxygen systemsSystems containing hydrogen or free hydrogen atomsCorrosive fluid systemsPressure systems containing any explosive or flammable mixture of mediumSteam systemsSystems in which the interchangeability of gauges could result in hazardousinternal contamination.Systems installed in hazardous environmentHydrogen embrittlement contamination from a compressed gasFormation of acetyleneWeakening of soft solder joints by steam or other heat sourcesCorrosionFatigue or mechanical shocksExcessive vibrations
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p r e s s u r e i n s t r u m e n t a t i o n
pressure and compound rangesSTANDARD DIALS NON STANDARD DIALS
BAR PSI BAR / PSI PSI / BAR kPa / PSIsingle scale single scale Main scale BAR Main scale PSI Main scale kPa/mPa
sec scale PSI sec scale BAR sec scale PSI0 ~ 0.6 0 ~ 10 0 ~ 10 / 0 ~ 0.7
0 ~ 1 0 ~ 15 0 ~ 1 / 0 ~ 15 0 ~ 15 / 0 ~ 1 0 ~ 100 / 0 ~ 150 ~ 1.6 0 ~ 1.6 / 0 ~ 23 0 ~ 20 / 0 ~ 1.4 0 ~ 160 / 0 ~ 230 ~ 30 0 ~ 2 / 0 ~ 30 0 ~ 30 / 0 ~ 2 0 ~ 200 / 0 ~ 30
0 ~ 2.5 0 ~ 2.5 / 0 ~ 35 0 ~ 40 / 0 ~ 2.5 0 ~ 250 / 0 ~ 350 ~ 4 0 ~ 60 0 ~ 4 / 0 ~ 60 0 ~ 60 / 0 ~ 4 0 ~ 400 / 0 ~ 600 ~ 6 0 ~ 6 / 0 ~ 86 0 ~ 80 / 0 ~ 5.6 (6) 0 ~ 600 / 0 ~ 86
0 ~ 100 0 ~ 7 / 0 ~ 100 0 ~ 100 / 0 ~ 7 0 ~ 700 / 0 ~ 1000 ~ 10 (1 0 ~ 150 0 ~ 10 / 0 ~ 150 0 ~ 150 / 0 ~ 10 0 ~ 1000 / 0 ~ 150
0 ~ 160 0 ~ 160 / 0 ~ 110 ~ 16 (1 0 ~ 200 0 ~ 14 / 0 ~ 200 0 ~ 200 / 0 ~ 14 0 ~ 1400 / 0 ~ 200
0 ~ 250 0 ~ 16 / 0 ~ 230 0 ~ 1600 / 0 ~ 2300 ~ 300 0 ~ 20 / 0 ~ 300 0 ~ 300 / 0 ~ 20 0 ~ 2000 / 0 ~ 300
0 ~ 25 (1 0 ~ 25 / 0 ~ 350 0 ~ 2500 / 0 ~ 3500 ~ 30 0 ~ 400 0 ~ 30 / 0 ~ 400 0 ~ 3000 / 0 ~ 4000 ~ 35 / 0 ~ 500
0 ~ 40 (1 0 ~ 600 0 ~ 40 / 0 ~ 600 0 ~ 600 / 0 ~ 40 0 ~ 4000 / 0 ~ 6000 ~ 50 / 0 ~ 700
0 ~ 60 (1 0 ~ 800 0 ~ 60 / 0 ~ 860 0 ~ 800 / 0 ~ 56 (60) 0 ~ 6000 / 0 ~ 8600 ~ 1000 0 ~ 70 / 0 ~ 1000 0 ~ 1000 / 0 ~ 70 0 ~ 7000 / 0 ~ 1 000
0 ~ 100 (1 0 ~ 100 / 0 ~ 1500 0 ~ 1500 / 0 ~ 100 0 ~ 10000 / 0 ~ 15000 ~ 1600 0 ~ 1600 / 0 ~ 110
0 ~ 160 (1 0 ~ 2000 0 ~ 140 / 0 ~ 2000 0 ~ 2000 / 0 ~ 140 0 ~ 14000 / 0 ~ 20000 ~ 2500 0 ~ 160 / 0 ~ 2300 0 ~ 16000 / 0 ~ 23000 ~ 3000 0 ~ 200 / 0 ~ 3000 0 ~ 3000 / 0 ~ 200 0 ~ 20000 / 0 ~ 3000
0 ~ 250 (1 0 ~ 4000 0 ~ 250 / 0 ~ 3500 0 ~ 4000 / 0 ~ 280 0 ~ 25000 / 0 ~ 35000 ~ 315 0 ~ 4500 0 ~ 300 / 0 ~ 45000 ~ 400 (1 0 ~ 5000 0 ~ 400 / 0 ~ 6000 0 ~ 5000 / 0 ~ 300
0 ~ 6000 0 ~ 500 / 0 ~ 7000 0 ~ 6000 / 0 ~ 400 0 ~ 40000 / 0 ~ 60000 ~ 600 (1 0 ~ 8000 0 ~ 600 / 0 ~ 8600 0 ~ 8000 / 0 ~ 560(600) 0 ~ 60000 / 0 ~ 8600
0 ~ 10000 0 ~ 10000/ 0 ~ 7000 ~ 1000 0 ~ 1000 / 0 ~ 15000 0 ~ 15000/ 0 ~ 1000 0 ~ 100000 / 0 ~ 14000
0 ~ 160000 ~ 1600 0 ~ 20000 0 ~ 1400 / 0 ~ 20000 0 ~ 20000 / 0 ~ 1400 0 ~ 140000 / 0 ~ 200000 ~ 2500 0 ~ 300000 ~ 4000 0 ~ 60000-1 ~ 0 -30 ~ 0"Hg -1 bar ~ 0/-30"Hg ~ 0 -30 ~ 0"Hg /-1~ 0 bar-1 ~ 0.6-1 ~ 1.5 -1 bar ~ 1 bar/-30"Hg ~ 15 psi -30"Hg ~ 15/-1 ~ 1
-1 bar ~ 2/-30"Hg ~ 30 -30"Hg ~ 30/-1 ~ 2-1 ~ 3 -1 bar ~ 4/-30"Hg ~ 60 -30"Hg ~ 60/-1 ~ 4-1 ~ 5 -1 bar ~ 6/-30"Hg ~ 80
-1 bar ~ 7/-30"Hg ~ 100 -30"Hg ~ 100/-1 ~ 7-1 ~ 9 -1 bar ~ 10/-30"Hg ~ 150 -30"Hg ~ 150/-1 ~ 10-1 ~ 15 -1 bar ~ 15/-30"Hg ~ 200 -30"Hg ~ 200/-1 ~ 14
-30"Hg ~ 300/-1 ~ 20-1 ~ 24 -1 bar ~ 25/-30"Hg ~ 350 -30"Hg ~ 500/-1 ~ 35
(1 also standard mbar range for BDT9 series.Special ranges available on request such as kg/cm2, kPa, MPa, mm wg, freon scales, ammonia scales.Badotherm stock items are available in BAR and in BAR+PSI.MPa will replace kPa where more than 4 figures are involved.
1.1.1.
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bar scale, size 40 mmbrass internal, accuracy 1.6%
bar scale, size 50 mmbrass internal, acc. 1.6%
bar scale, size 63 mmstainless steel internal,
acc. 1.6%
bar scale, size 80 mmbrass internal, acc. 1.6%
psi scale, size 40 mmbrass internal, acc. 1.6%
psi scale, size 50 mmbrass internal, acc. 1.6%
psi scale, size 63 mmsafety pattern
stainless steel internal,acc. 1.6%
psi scale, size 80 mmstainless steel internal,
acc. 1.6%
psi and bar scale, size 40 mmbrass internal, acc. 1.6%
psi and bar scale, size 50 mmbrass internal, acc. 1.6%
psi and bar scale, size 63 mmbrass internal, acc. 1.6%
psi and bar scale, size 80 mmstainless steel internal,
acc. 1.6%
sample dials
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sample dials1.1.1.
bar scale, size 100 mmbrass internal, accuracy 1.0%
bar scale, size 125 mmsafety pattern,
stainless steel internal,acc. 0.5%
bar scale, size 160 mmbrass internal, acc. 1.0%
mbar scale, size 63 mmbrass internal, acc. 1.6%
psi scale, size 100 mmbrass internal, acc. 1.0%
psi and bar scale, size 125 mmsafety pattern,
stainless steel internal,acc. 0.5%
psi scale, size 160 mmstainless steel internal,
acc. 1.0%
mbar scale, size 100 mmbrass internal, acc. 1.6%
psi and bar scale, size 100 mmsafety pattern,
stainless steel internal,acc. 1.0%
psi and bar scale, size 160 mmsafety pattern,
stainless steel internal,acc. 1.0%
mbar scale, size 160 mmstainless steel internal, acc. 1.6%
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logo or brand name on dialsIn order to accommodate a name or logo on the dial it must fit within the space stipulated, if thelogo is outside these dimensions a complete new dial design will be required at extra cost.The area, defined below, may be used as a template for your company logo or name.The maximum sizes for these areas are shown in the table in millimeters.
oxygen and acetylene gauges
Badotherm oxygen and acetylene gauges are manufactured in accordance with standard EN562and have the following specific details.
The gauges shall be of the safety pattern type
All materials liable to come into contact with the oxygen or acetylene shall comply with EN29539
Bourdon tubes and other parts in contact with oxygen shall be free from oil and grease
Only lubricants suitable for use with oxygen at maximum working pressure shall be used.
The dial shall be marked with the word oxygen
The dial shall be marked with the international symbol for no lubrication
Symbol as shown below ( ISO 7000 symbol 0248 )
Gauges for use with acetylene shall have dials marked with acetylene
connections for high pressure gauges BDT20
ranges up to 1500 bar have standard 1/2 BSP or NPT connection;ranges from 1600 up to 2000 bar have standard 1/2 BSP connection;ranges from 2500 up to 4000 bar have standard M16 x 1.5 female or 5/8 x 18 UNF female.
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1.1.1.
40 mm 50 mm 63 mm 80 mm 100 mm 125 mm 160 mm
dual single dual single 41/2"h1 2 2.25 2.5 5 7 10.5 7.5b1 15.5 16.25 23 26 3 46 62h2 4.5 3.75 6.5 6 8 5 10 17 13b2 8.25 12 11 17 18 21 29 34 39
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1.1.1.
Badotherm contact devices for pressure and temperature gaugesapplicationsBadotherm contacts are used on diameter 100/160 mm. The contacts are available in single,double and triple versions and can be built under or on to the dial.The nominal value can be set from the outside covering the full scale and the switchingdirection is clockwise.
technical specification contact devicesS-type: low-action contactsLow action contacts are suitable for use when there is no high contact loads and vibration.These contacts are not suitable for use in heavy duty operation, aggressive environment and oilfilled gauges. A pulse controlled protection relay is recommended to secure a long working life(MSR series).
M-type: magnet-action contactsThese contacts can be used in almost all operating conditions and are usually not affected by
vibration. A pulse controlled contact relay is recommended.
E-type: electronic contactsElectronic contacts are equipped with a 3-wire non-touching proximity switch PNP (polaritysafe) these contacts can be used for the direct control of an SPS or other electronic controlfeatures. E contacts may not be used in Ex-zones. An isolating amplifier is not necessary.
I-type: inductive contactsInductive contacts are equipped with non-touching proximity switches , due to a contact freeoperation the switching accuracy and long life service makes this contact suitable for any indus-
trial application. When used together with isolating amplifier WE77/Ex the set complies withprotection type I (intrinsic safety), classified as EEx ib IIC T6 and is homologated for zones 1 and2. Connection diagram is shown on page 36.
electrical connection box protection relay MSR
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low action contacts
Low-action type contacts can be used where high contact loads are not required and wherevibration does not occur. They cannot be used in potentially explosive areas due to sparking orwhere oxidation of the contact components due to an aggressive atmosphere can occur. In the
table below only single and double contacts are shown, but the contact devices are alsoavailable as triple or quadruple types. The functions are given considering the pointer moves ina clockwise direction so that the pointer passes the set point (break or make contact).
contact typeCode size version 1st contact 2nd contact amplifierS-1 100/160 low-action make MSR-010S-2 100/160 low-action break MSR-010S-3 100/160 low-action SPDT MSR-010S-11 100/160 low-action make make MSR-020
S-12 100/160 low-action make break MSR-020S-22 100/160 low-action break break MSR-020 / 011S-21 100/160 low-action break make MSR-020 / 011
magnetic contacts
Magnetic type contacts can be used under virtually all conditions, they are largely insensitive tovibration. The contact pin holder of the setting pointer is fitted with an adjustable magnetwhich attracts the contact arm just before the preset level is reached. This avoids arcing andscorching of the contact pin.
In the table below only single and double contacts are shown, but the contact devices are alsoavailable as triple or quadruple types. The functions are given considering the pointer moves ina clockwise direction so that the pointer passes the set point (break or make contact).
contact typeCode size version 1st contact 2nd contact amplifier M-1 100/160 magnetic make MSR-010M-2 100/160 magnetic break MSR-010M-3 100/160 magnetic SPDT MSR-010
M-11 100/160 magnetic make make MSR-020M-12 100/160 magnetic make break MSR-020M-21 100/160 magnetic break make MSR-020 / 011M-22 100/160 magnetic break break MSR-020 / 011M-33 100/160 magnetic DPDT MSR-02
1.1.1.
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31For technical data sheets and dimensional drawings please refer to our website www.badotherm.com01/01/2006 rev 2
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inductive contacts
Inductive contacts are non-contacting operating electrical switching elements.Basically the contact system consists of a pair of coils energised in a transistorized oscillatorwhose RF magnetic field is influenced by a metal control tab. This influence effects a change in
the amplitude of oscillation of the oscillator which communicates to a succeeding amplifier.By means of the amplifier a relay is controlled which releases the actual switching process.The advantage of this contact is that the systems can be used in rooms where there is anexplosive hazard up to classification (Ex) I G5; in addition they are wear resistant due to lack ofmechanical contact and therefore need no maintenance.In the table below only single and double contacts are shown, but the contact devices are alsoavailable as triple or quadruple types. The functions are given considering the pointer moves ina clockwise direction so that the pointer passes the set point (break or make contact).
contact type
Code size version 1st contact 2nd contact Amplifier I-1 100/160 inductive make WE77/Ex1 or MSR-010-II-2 100/160 inductive break WE77/Ex1 or MSR-010-II-11 100/160 inductive make make WE77/Ex2 or MSR-020-II-12 100/160 inductive make break WE77/Ex-IR or MSR-020-II-21 100/160 inductive break make WE77/Ex2 or MSR-020-II-22 100/160 inductive break break WE77/Ex2 or MSR-020-I
electronic contacts
Electronic contacts can be used in almost all industrial applications. Due to their switchingaccuracy (proximity type) these contacts are suitable for precision measuring instruments (alsofor liquid filled and low pressure instruments). Compared with inductive contacts this system ismore cost effective because it does not need an amplifier.Electronic contacts with a PNP output are particularly suitable for switching small DC loads(10-30 V DC, under 100 mA), for instance PLC signal inputs.In the table below only single and double contacts are shown, but the contact devices are alsoavailable as triple or quadruple types. The functions are given considering the pointer moves ina clockwise direction so that the pointer passes the set point (break or make contact).
contact typeCode size version 1st contact 2nd contactE-1 100/160 electronic makeE-2 100/160 electronic breakE-11 100/160 electronic make makeE-12 100/160 electronic make breakE-21 100/160 electronic break makeE-22 100/160 electronic break break
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Badotherm contact devices for pressure and temperature gaugeselectronic contacts
With a PNP switching unit, the switched output (U) is a connection towards "+" (brown).The load (R) between (U) and the connection towards "-"(blue) should be selected in a way notto exceed the maximum switching current (100 mA).
No direct connection between (U) and "-"
load table for limit value switchesThe basic condition for safe switching is the clean electrically conductive surface of the contactpins. Technical details as under are valid for low-action contacts (without magnet) and forsnap-action contacts (with magnet).
recommended contact load under ohmic and inductive load and operation in air
Voltage Low-action contact Snap-action contact
Acc.to DIN IEC 38 ohmic load ind load ohmic load ind load
direct alternating DC AC AC DC AC AC
voltage voltage cos >0.7 cos >0.7V V mA mA mA mA mA mA
220 230 40 45 25 100 120 65110 110 80 90 45 200 240 13048 48 120 170 70 300 450 20024 24 200 350 100 400 600 250
For a filled gauge with contacts the contact load is approx 30% less.
To guarantee maximum switching safety, to avoid switching interruptions and to increase theswitching power, we recommend the protection of MSR series relays.
The service life of the contact devices is considerably increased, because the contacts open andclose under no voltage in 99% of cases.A switching amplifier should be used in all oil filled measuring instruments.
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electrical wiring for contact gauges
In these diagrams the codes used for the contact types S stand for low-action contacts,M stands for magnetic contacts and I stands for inductive contacts. The electrical wiringfor the electronic (E type) contacts is the same as the wiring for the inductive type contacts.The figures 1 to 4 correspond with the codes used in the connection box.
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multi functional relay type MSR for low-action and magnetic contactsIf properly used, electrical mechanical limit value switches (contact devices) guarantee safeswitching and a long service life.The following should be observed when these contacts are being used.
The switching capacity is limited by the size of the element and by the adjusting forces bearingon the contact arms available for the respective instrument pointers (actual value pointer).Higher transitional resistances may be caused by exterior effects such as pollution,an aggressive atmosphere, oxidation or the like, and these may jeopardize the switching safety.Contact chattering or bouncing may occur through very low contact forces (pressure of thecontact pins) and may cause undesired switching operations which may limit the service life ofthe limit value switches and may even release uncontrolled switching operations.Switching of loads may produce a switching spark. In oil filled gauges these sparks willdisintegrate the oil and turn it cloudy. In addition, the contact surfaces may carbonize.These impurities as well as the oil itself form an isolating layer on the contact surfaces whichagain cause faulty switching operations.
relay function
The pulse controlled multifunctional relays of the MSR series have been developed for the specialpurpose of solving the above mentioned problems. The following solutions have been established.
Almost load-free switching of the contact by pulse control signals in the ratio 1:100.Overcoming resistive layers by pulse voltages up to 40 V at a rising speed of typical 120 V/sec.Reduction of controllable wrong switching operations of the contact caused by shatters orother vibrations of same, by the introduction of a fall delay time of 0.4 seconds(changes are possible upon request)Increase of the switching performance of the contact by a posterior relay provided with a
potential free changer.
models available
MSR-10 this is a monostable execution for the connection of a single contactsuch as S-1 / M-2 or S-2 / M-2.MSR-20 this is a monostable execution for the connection of one double or two single contactssuch as S-1 / M-2 to S-22 / M-22.MSR-11 this is a bistable execution for connection of a double (interval operation)such as S-21 and M21.
With this execution, the switching condition of one contact is memorized temporarilyuntil the other contact is operated (no permanent storage).
All the above mentioned executions are also available with the following supply voltages;230 V AC, 115 V AC, 24 V AC, 24 V DC.
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multi functional relay type MSR for low-action and magnetic contacts
supply voltage L;N 115 V AC 230 V AC 24 V AC 24 V DCcurrent consumption 40-45 mA typ 22 mA 22-40 mA 14-30 mA
control signals 12 35-40 V DC pulsespulse/pause ratio 0,5 ms +/- 20%edge steepness /= approx. 120 Vs \= approx. 20 Vs
switching treshold 13 9,7V DC +/- 20%direct impedance 2200 Ohm, 100 nF +/- 20%
max. contact and wire resistivityMSR010 12-13 4700 Ohm, 47nF for 115 V AC and 230V AC; 2200 Ohm for 24 V AC and 24 V DCMSR011 12-13 4700 Ohm, 47nF for 115 V AC and 230V AC; 2200 Ohm for 24 V AC and 24 V DCMSR011 12-11 2000 Ohm, 47 nF for all supply voltagesMSR020 (contact I) 12-13 4700 Ohm, 47nF for 115 V AC and 230V AC; 2000 Ohm for 24 V AC and 24 V DCMSR020 (contact II) 22-23 4700 Ohm, 47nF for 115 V AC and 230V AC; 2000 Ohm for 24 V AC and 24 V DC
1 relay exit 42; 41; 43 potential free change-over contact
pickup delay time typ. 10-60 msfall delay time typ. 450 msbreaking capacity max. 1860 VAbreaking voltage max. 250 V, 50 Hz (100 V DC)breaking current max. 8 A AC (0,5 A DC)electrical service life 10E5 switching hysteresis (6 hysteresis/min. and a load of 220 V, 50 HZ, 8A)mechanical service life 10E7 hysteresis (no load)
1 voltage exit 82(-) 24 V DC +/- 10%; Imax 20 mA(for external units only) 81(+)
1.1.1.
MSR 020
multifunctional relaysingle low action
example of connection
multifunctional relaydouble low action
multifunctional relaydouble low action
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isolation amplifier WE77/Ex 1 - 2, single / double input inductive
technical data
Power supplySupply voltage AC 198 253 V, 45 65 Hz / 115 VAC / 24 VDCPower consumption Approx. 3.5 VA
Inputs (intrinsically safe) To DIN 19234 or NAMURNominal values Approx. DC 8 VQuiescent voltage U Approx. 8 mA
Short circuit current J 1.2 mA 2.1 mASwitching point J within the range approx. 0.2 mASwitching hysteresis J >0.5 msInput pulse length / pulse interval J
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Pressure p 250 bar p> 250 bar p> 400 bar p> 600 bar p> 1000 bar NominalP 400 bar P 600 bar P 1000 bar P 1600 bar size
Threads preferred
G 1/8 B 401/8-27 NPT (-) (-) (-) 50
40G 1/4 B 501/4 - 18 NPT (-) 63
80
80G 3/8 (-) 100
150 and 160
80G 1/2 B 100
150 and 160250
801/2-14 NPT (-) 100EXT 150 and 160
250
G 1/2 B 100(For HP) 150 and 160
250
Table of combination: Pressure, threads, nominal size, materials
Material withRp 0,2 150N/mm
2 (e.g. brass)
Material with
Rp 0,2 190 N/mm2 (e.g. stainless steel - monel)
Material with
Rp 0,2 260 N/mm2 (e.g. stainless steel, . . .)
Note: Combinations marked (-) shall not be used.
1.1.1.
p r e s s u r e i n s t r u m e n t a t i o n