Catalog CE Marshal

We reserve the right to make modification without prior notice.2

Lugansk plant of pipeline fittings JSC “LSE AF & SS “Specavtomatika” is one of the leading manufacturers of pipe-line valves in Eastern Europe countries. Products manufactured by the plant under trade mark trade mark “MARSHAL” are used in the heat and water supplying systems, gas distribution systems; extraction, refining and storage of oil and gas in diverse industry areas.

“Marshal” ball valves are notable for for their reliability, simplicity of operation, safety and lifetime. Providing partners with the high quality products is the priority of enterprise activities, which is reached by way of constant implementation of innovation technologies in the production, expanding of existing production capacity and development of pipeline fittings projecting. Special attention is given to the enterprise Quality Management System: interconnection of all enter-prise departments in projecting, design, production and promotion of products enable taking into account to the maximal extent the needs of companies applying the pipeline valves when installing and servicing of pipeline systems. Quality control on every stage of production – from design to the delivery of finished products to the stock – is performed in strict compliance with the international Quality System ISO 9001:2000 and requirements of GOST (National Standard), CE and API that makes it possible to provide the quality warranties to partners in different countries of the world.

The plant began the history of ball valves design and manufacturing in 1992. Since 1997 the products of plant have been represented in Russia by Trading House “Marshal”, located in Moscow. Currently JSC “LSE AF & SS “Specav-tomatika” manufactures the following product range:

— sectional ball valves;— all-welded ball valves;— short pattern flanged ball valves (shortened face-to-face dimension);— threaded end ball valves;— ball valves with an extended stem;— ball valves for application under high pressure for oil and gas working medium;— stainless steel ball valves;— cast iron and steel gauze filters;— connection flanges and fasteners.

“MARSHAL” ball valves are produced for application under pressure PN 1.6; 2.5; 4.0; 10.0 MPa with bore diameters from DN10 to DN500 inclusive.

Today “MARSHAL” ball valves are widely used in Russia, Ukraine, Belarus, Kazakhstan, Moldova, Lithuania, Latvia, Estonia, Bulgaria, Azerbaijan, Georgia. Ball valves have been supplied to the biggest companies: “Rosneft”, “Gazprom-Regiongaz”, “OMZ” (Uralmash-Izhora Group), “Power Machines Company”, “TverGazStroy”, “KazMunayGas”, “Bolgar-Gaz”, “Kyivmiskbud”, “Poznyakizhilstroy”, “Alchevsk Iron & Steel Works”, “NaftoGaz of Ukraine” etc.

In 2009 there was manufactured an anniversary ball valve which pointed the line of 1000000 items manufactured by the plant for the whole time of its working on the pipeline fittings market. A continuous expansion of products range complying with the customers’ requirements providing high quality rates along with reliability and safety values is one of the strategic purposes of the enterprise.

It should be noted that thanks to the coordinated work of professional team on all the stages of production and dis-tribution of products, we are ready to propose to the clients the shortest possible terms of their orders fulfillment as well as technical consulting by engineers on subject of application and conditions of our product maintenance.

About us

3


Contents1. PN16, PN25, PN40 split body MS 01.c ball valve1.1 Full bore1.1.1 Flanged ends design• handle operated…………………….………………………….…….…….4• actuator operated……………………………….………………………….81.1.2 Welding ends design• handle operated………………………………….……….…….…………10• actuator operated……………………………………….…………………121.2 Reduced bore1.2.1 Flanged ends design• handle operated…………………….………………………….………….14• actuator operated……………………………….…………………………161.2.2 Welding ends design• handle operated…………………………………………………….……..18• actuator operated…………………………………………….……………202. PN16, PN25, PN40 handle operated short pattern split body MS 05.c ball valve with flanged ends design• full bore……….…………………………………………………….………22• reduced bore………………...…………………………………………….243. PN16, PN25, PN40 handle operated single body all-welded MS 21.c, MS 21.s ball valve3.1 Full bore• flanged ends……………………………………………………………….26• welding ends……………………………………………………………….283.2 Reduced bore• flanged ends……………………………………………………………….30• welding ends……………………………………………………………….324. PN16, PN25, PN40 single body all-welded MS 21.c, MS 21.s ball valve4.1 Actuator operated• flanged ends………………………………………………………………..34• welding ends……………………………………………………………….364.2 Handle operated• lightweight, welding ends………………....……………………………...385. PN16, PN25, PN40 single body MS 21/01.c, MS 21/01.s ball valve with extended stem 5.1 Handle operated, full bore• flanged ends……………………………….………………………….……40• welding ends…………….…………………………………………….…...425.2 Handle operated, reduced bore• flanged ends………...……………………………………………………...44• welding ends………..………………………………………………………466. PN63, PN100, PN160 split body MS 01.c ball valve6.1 Handle operated, full bore• flanged ends………………………………………………………..………48• welding ends…………………………………………………..……………506.2 Actuator operated, full bore• flanged ends……………………………………………………..…………52• welding ends……………………………………………………..……...…547. PN16, PN25 single body MS 01.s cast ball valve made of stainless steel………………………….…….…56

8. PN63, PN100, PN160 split body MS 01.c ball valve with threaded ends design…….……………………….………58

9. PN16, PN25, PN40 single body all-welded MS 01.c ball valve with threaded ends design…....……………………….………60

10. PN16, PN25 cast gauze filterwith flanged ends design...............……………………………………….……62

5

MS XX. x. X . X. XXX. XXX

Type of control

Type of pipeline connection

Body material

Series

How to order

Series: 01 — Split body ball valve with welded body 21 — Single body ball valve with all-welded body 60 — Gauze filter

Body material: c — Carbon steel s — Stainless steel

Type of pipeline connection: 1 — Flanged ends 2 — Welding ends 4 — Threaded ends

Type of control: 1 — Handle 2 — Gear actuator 3 — Pneumatic actuator 4 — Hydraulic actuator

For the right ordering of a product you require, please note an appropriate product designation struc-ture shown below which we use as a description of our manufactured devices.The designation structure is as follows:

PN nominal pressure class

DN nominal bore


Flanged ends ball valves are designated for installation on the pipelines in water and gas supplying systems, for application in heat-power engineering and also in chemical, oil-refining, gas and other industries as a locking device fully blocking liquid and gaseous medium flow. The manufacturer has at his disposal a compre-hensive informational background on the conse-quences of working medium influence on differ-ent types of materials and can offer its customers a type of ball valve that would fully correspond to all the specified parameters.

Split body ball valve. Full bore. Flanged ends design. Ball valve body is made of carbon steel. Body component parts are made with the ap-plication of welding. Free floating ball is sealed with teflon seats. Stem is protected from extru-sion and sealed by teflon rings tightened by a press-on bush. Seats are pressed to the ball by spring washers. Teflon gaskets are used to seal the body component parts. Ball valve control is performed manually by turning a handle at an angle of 90˚ up to the full stop. Handle axis is parallel to bore axis so its position indicates ball valve “open” or “closed” state. Ball valve is in-tended to be installed on the pipeline in any posi-tion with working medium flow applied from any direction

Working pressure, not higher than...........................16 bar, 25 bar, 40 barWorking medium temperature...................................from – 29°C to +180°CWorking medium.........................................................water, gas, oil products and other medium, neutral for ball valve componentsEnvironment temperature..........................................not less than – 29°CQuantity of work cycles..............................................not less than 5000Full lifetime..................................................................not less than 30 yearsPipeline connection....................................................flanged endsControl means.............................................................handleFace-to-face dimension..............................................according to EN 558-1Flanges connection....................................................according to EN1092-1Ball valve manufacturing...........................................according to EN 1983Pressure tests.............................................................according to EN 12266-1

6 5 2 1 8

7

10 1513

14

11

3

94

16 12

14

Ball valvesFull boreMS 01.c.1.1

DESIGNATION AND APPLICATION AREA

DESIGN

TECHNICAL CHARACTERISTICS

PRESSURE/TEMPERATURE RATING№ PART NAME MATERIAL

1 Body P265GH 1.04252 Ball X12CrNiTi18-9 1.48783 Stem X20Cr13 1.40214 Press-on bush C22E 1.11515 Ball seat PTFE6 Seat ring C22E 1.11517 Spring washer DIN17221 60Si7 1.50278 Body gasket PTFE9 Stem seat PTFE

10 Gasket ring Rubber11 Ring PTFE12 Handle S235JR 1.0037 13 Stud C35E 1.118114 Nut 5 Zn (ISO 4034)15 Retaining washer DIN17221 60Si7 1.502716 Washer C10E 1.1121 (ISO7089)

MATERIALS LIST

PTFE50

40

30

20

10

-29 0 100 200

Pres

sure

, bar

Temperature, °C

PN25

PN40

PN16

7

MS 01.c.1.1.016.010 10 130 90 60 40 189 96.5 9 14 219 4 2.2 6MS 01.c.1.1.016.015 15 130 95 65 45 189 96.5 12.5 14 219 4 2.25 16.3MS 01.c.1.1.016.020 20 150 105 75 58 189 99.5 17 14 221 4 3.1 29.5MS 01.c.1.1.016.025 25 160 115 85 68 189 105 24 14 221 4 4.4 43MS 01.c.1.1.016.032 32 180 140 100 78 226.5 131 30 18 263.5 4 5.6 89MS 01.c.1.1.016.040 40 200 150 110 88 281.5 141 37 18 318.5 4 7.6 230MS 01.c.1.1.016.050 50 230 165 125 102 312 155 48 18 359 4 10.4 265MS 01.c.1.1.016.065 65 290 185 145 122 312 167 64 18 369 8 14.8 540MS 01.c.1.1.016.080 80 310 200 160 138 382 184 75 18 443 8 16.5 873MS 01.c.1.1.016.100 100 350 220 180 158 602 167 98 18 681 8 25 1390MS 01.c.1.1.016.125 125 400 250 210 188 602 183 123 18 691 8 39.2 1707MS 01.c.1.1.016.150 150 480 285 240 212 602 201 148 22 704 8 48 2024MS 01.c.1.1.016.200 200 600 340 295 268 1098 239 195 22 1227 12 79 2720

MS 01.c.1.1.025.010 10 130 90 60 40 189 96.5 9 14 219 4 2.2 6MS 01.c.1.1.025.015 15 130 95 65 45 189 96.5 12.5 14 219 4 2.25 16.3MS 01.c.1.1.025.020 20 150 105 75 58 189 99.5 17 14 221 4 3.1 29.5MS 01.c.1.1.025.025 25 160 115 85 68 189 105 24 14 221 4 4.4 43MS 01.c.1.1.025.032 32 180 140 100 78 226.5 131 30 18 263.5 4 5.6 89MS 01.c.1.1.025.040 40 200 150 110 88 281.5 141 37 18 318.5 4 7.6 230MS 01.c.1.1.025.050 50 230 165 125 102 312 155 48 18 360 4 11.4 265MS 01.c.1.1.025.065 65 290 185 145 122 312 167 64 18 370 8 16.5 540MS 01.c.1.1.025.080 80 310 200 160 138 382 184 75 18 447 8 18.3 873MS 01.c.1.1.025.100 100 350 235 190 162 602 167 98 22 685 8 29 1390MS 01.c.1.1.025.125 125 400 270 220 188 602 183 123 26 699 8 47.5 1707MS 01.c.1.1.025.150 150 480 300 250 218 602 201 148 26 710 8 68 2024MS 01.c.1.1.025.200 200 600 360 310 278 1098 239 195 26 1233 12 96 2720

MS 01.c.1.1.040.010 10 130 90 60 40 189 96.5 9 14 219 4 2.2 6MS 01.c.1.1.040.015 15 130 95 65 45 189 96.5 12.5 14 219 4 2.25 16.3MS 01.c.1.1.040.020 20 150 105 75 58 189 99.5 17 14 221 4 3.1 29.5MS 01.c.1.1.040.025 25 160 115 85 68 189 106 24 14 221 4 4.4 43MS 01.c.1.1.040.032 32 180 140 100 78 226.5 131 30 18 263.5 4 5.6 89MS 01.c.1.1.040.040 40 200 150 110 88 282 141 37 18 319 4 7.6 230MS 01.c.1.1.040.050 50 230 165 125 102 312 155 48 18 360 4 11.4 265MS 01.c.1.1.040.065 65 290 185 145 122 312 163 64 18 370 8 16.5 540MS 01.c.1.1.040.080 80 310 200 160 138 421.5 155.5 75 18 486.5 8 18.3 873MS 01.c.1.1.040.100 100 350 235 190 162 602 179 98 22 685 8 29 1390MS 01.c.1.1.040.125 125 400 270 220 188 602 192 123 26 699 8 47.5 1707MS 01.c.1.1.040.150 150 480 300 250 218 602 213 148 26 710 8 81 2024

DIMENSIONS & WEIGHT

Code DN L D D1 D2 L1 H Dmin d B n Weight Kvmm

mm

mm

PN 16

PN 25

PN 40

Code DN L D D1 D2 L1 H Dmin d B n Weight Kv

MS

01.

c.1.

1


kg

kg

kg


Split body ball valve. Full bore. Flanged ends design. Ball valve body is made of carbon steel. Body component parts are made with the ap-plication of welding. Shutoff ball is settled on a support. Antistatic design. Teflon seats in me-tallic seat rings are pressed against the shutoff ball by springs. Emergency system of sealing lubricant injection. Stem is protected from extru-sion and sealed by teflon rings tightened by a press-on-bush. Teflon gaskets are used to seal the body component parts. Draining plug for let-ting the water and condensate out of valve body. Ball valve control is performed manually by rotat-ing actuator handwheel. State of the shutoff ball is controlled by a position indicator. Ball valve is intended to be installed on the pipeline in hori-zontal position with working medium flow applied from any direction.

6

27 10 1 13 8

12

5

11

14

15

3

916

4

Working pressure, not higher than...........................16 bar, 25 bar, 40 barWorking medium temperature...................................from – 29°C to +180°CWorking medium.........................................................water, gas, oil products and other medium, neutral for ball valve componentsEnvironment temperature..........................................not less than – 29°CQuantity of work cycles..............................................not less than 5000Full lifetime..................................................................not less than 30 yearsPipeline connection....................................................flanged endsControl means.............................................................actuator handwheelFace-to-face dimension..............................................according to EN 558-1Flanges connection....................................................according to EN1092-1Ball valve manufacturing...........................................according to EN 1983Pressure tests.............................................................according to EN 12266-1




DESIGN



1 Body P265GH 1.04252 Ball X12CrNiTi18-9 1.48783 Stem X20Cr13 1.40214 Press-on bush C22E 1.11515 Ball seat PTFE6 Seat ring C22E 1.11517 Spring DIN17221 60Si7 1.50278 Body gasket PTFE9 Stem seat PTFE

10 Gasket ring Rubber11 Ring PTFE12 Handwheel S235JR 1.003713 Stud C35E 1.118114 Nut 5 Zn (ISO4034)15 Retaining washer DIN17221 60Si7 1.5027 (ISO82008)16 Washer C10E 1.1121 (ISO7089)

MATERIALS LIST

PTFE50

40

30

20

10

-29 0 100 200

Pres

sure

, bar

Temperature, °C

PN25

PN40

PN16

MS 01.c.1.3.016.200 200 600 340 295 268 503 600 195 22 12 89 2720MS 01.c.1.3.016.250 250 730 405 355 320 537 730 245 26 12 175 12750MS 01.c.1.3.016.300 300 850 460 410 378 668 850 294 26 12 385 19550MS 01.c.1.3.016.400 400 1100 580 525 490 893 1211 385 30 16 1200 31620MS 01.c.1.3.016.500 500 1250 715 650 610 1087 1250 487 33 20 1520 50150

MS 01.c.1.3.025.200 200 600 360 310 278 503 600 195 26 12 112 2720MS 01.c.1.3.025.250 250 730 425 370 335 537 730 245 30 12 195 12750MS 01.c.1.3.025.300 300 850 485 430 395 669 850 294 30 16 405 19550MS 01.c.1.3.025.400 400 1100 620 550 505 893 1100 385 36 16 1360 31620MS 01.c.1.3.025.500 500 1250 730 660 615 1087 1250 487 36 20 1820 50150

MS 01.c.1.3.040.150 150 480 300 250 218 463.5 480 148 26 8 68 2024MS 01.c.1.3.040.200 200 600 375 320 285 526 603 195 30 12 125 2720MS 01.c.1.3.040.250 250 730 450 385 345 537 730 245 33 12 255 12750MS 01.c.1.3.040.300 300 850 515 450 410 669 610 294 33 16 605 19550MS 01.c.1.3.040.400 400 1100 660 585 535 893 1211 385 39 16 1560 31620MS 01.c.1.3.040.500 500 1250 755 670 615 1087 1250 487 42 20 2120 50150

PN 40

PN 16

PN 25

Code DN L D D1 D2 H B Dmin d n Weight Kvmm

mm

mm

Code DN L D D1 D2 H B Dmin d n Weight Kv

Code DN L D D1 D2 H B Dmin d n Weight Kv

MS

01.

c.1.

3

kg

kg

kg

9

DIMENSIONS & WEIGHT

Welding ends ball valves are designated for installation on the pipelines in water and gas supplying systems, for application in heat-power engineering and also in chemical, oil-refining, gas and other industries as a locking device fully blocking liquid and gaseous medium flow. The manufacturer has at his disposal a compre-hensive informational background on the conse-quences of working medium influence on differ-ent types of materials and can offer its customers a type of ball valve that would fully correspond to all the specified parameters.

Split body ball valve. Full bore. Welding ends design. Ball valve body is made of carbon steel. Body component parts are made with the ap-plication of welding. Free floating ball is sealed with teflon seats. Stem is protected from extru-sion and sealed by teflon rings tightened by a press-on bush. Seats are pressed to the ball by spring washers. Teflon gaskets are used to seal the body component parts. Ball valve control is performed manually by turning a handle at an angle of 90˚ up to the full stop. Handle axis is parallel to bore axis so its position indicates ball valve “open” or “closed” state. Ball valve is in-tended to be installed on the pipeline in any posi-tion with working medium flow applied from any direction.

15

167 6 3 11

8

1142

15

12

4

105

1713

9

Working pressure, not higher than..........................16 bar, 25 bar, 40 barWorking medium temperature...................................from – 29°C to +180°CWorking medium.........................................................water, gas, oil products and other medium, neutral for ball valve componentsEnvironment temperature..........................................not less than – 29°CQuantity of work cycles..............................................not less than 5000Full lifetime..................................................................not less than 30 yearsPipeline connection....................................................welding endsControl means.............................................................handleEnd-to-end dimension................................................according to EN 12982Welding ends..............................................................according to EN12627Ball valve manufacturing...........................................according to EN 1983Pressure tests............................................................according to EN 12266-1


DESIGN



1 Body P265GH 1.04252 Ends connection P265GH 1.04253 Ball X12CrNiTi18-9 1.48784 Stem X20Cr13 1.40215 Press-on bush C22E 1.11516 Ball seat PTFE7 Seat ring C22E 1.11518 Spring washer DIN14221 60Si7 1.50279 Body gasket PTFE

10 Stem seat PTFE11 Gasket ring Rubber12 Ring PTFE13 Handle S235JR 1.003714 Stud C35E 1.118115 Nut 5 Zn (ISO4034)16 Retaining washer DIN17221 60Si7 1.5027(ISO82008)17 Washer C10E 1.1121 (ISO7089)

MATERIALS LIST

PTFE50

40

30

20

10

-29 0 100 200

Pres

sure

, bar

Temperature, °C

PN25

PN40

PN16



MS 01.c.2.1.016.010 10 130 17.2 90 2.9 189 96.5 9 1.65 6MS 01.c.2.1.016.015 15 140 21.3 95 3.2 189 97 12.5 1.8 16.3MS 01.c.2.1.016.020 20 152 26.9 105 4 189 100 17 2.25 29.5MS 01.c.2.1.016.025 25 165 33.7 115 4.5 189 106 24 3.15 43MS 01.c.2.1.016.032 32 178 42.4 135 5 226.5 131 30 4.7 80MS 01.c.2.1.016.040 40 190 51 145 5 282 141 37 6.25 230MS 01.c.2.1.016.050 50 216 60.3 158 5 312 155 48 8.5 265MS 01.c.2.1.016.065 65 241 76.1 180 5.6 312 167 64 13 540MS 01.c.2.1.016.080 80 283 88.9 189 6.3 382 184 75 13.4 873MS 01.c.2.1.016.100 100 305 114.3 230 7.1 602 167 98 20.7 1390MS 01.c.2.1.016.125 125 381 139.7 260 8 602 183 123 28.2 1707MS 01.c.2.1.016.150 150 457 168.3 310 8 602 201 148 40.1 2024MS 01.c.2.1.016.200 200 521 219.1 395 8 1098 239 195 80.1 2720

MS 01.c.2.1.025.010 10 130 17.2 90 2.9 189 96.5 9 1.65 6MS 01.c.2.1.025.015 15 140 21.3 95 3.2 189 97 12.5 1.8 16.3MS 01.c.2.1.025.020 20 152 26.9 105 4 189 100 17 2.25 29.5MS 01.c.2.1.025.025 25 165 33.7 115 4.5 189 106 24 3.15 43MS 01.c.2.1.025.032 32 178 42.4 135 5 226.5 131 30 4.7 80MS 01.c.2.1.025.040 40 190 51 145 5 282 141 37 6.25 230MS 01.c.2.1.025.050 50 216 60.3 158 5 312 155 48 8.5 265MS 01.c.2.1.025.065 65 241 76.1 180 6.3 312 167 64 13 540MS 01.c.2.1.025.080 80 283 88.9 189 6.3 382 184 75 13.4 873MS 01.c.2.1.025.100 100 305 114.3 230 7.1 602 167 98 20.7 1390MS 01.c.2.1.025.125 125 381 139.7 260 8 602 183 123 28.2 1707MS 01.c.2.1.025.150 150 457 168.3 310 8.8 602 201 148 40.1 2024MS 01.c.2.1.025.200 200 521 219.1 395 8.8 1098 239 195 80.1 2720

PN 16

Code DN L D A T L1 H Dmin Weight Kvmm

PN 25

PN 40

Code DN L D A T L1 H Dmin Weight Kv

MS 01.c.2.1.040.010 10 130 17.2 90 2.9 189 96.5 9 2.65 6MS 01.c.2.1.040.015 15 140 21.3 95 3.6 189 97 12.5 3.4 16.3MS 01.c.2.1.040.020 20 152 26.9 105 4 189 100 17 4.25 29.5MS 01.c.2.1.040.025 25 165 33.7 115 4.5 189 105 24 5.15 43MS 01.c.2.1.040.032 32 178 42.4 135 5 226.5 131 30 6.7 80MS 01.c.2.1.040.040 40 190 51 145 5.6 282 141 37 8.25 230MS 01.c.2.1.040.050 50 216 60.3 158 5.6 312 155 48 10.5 265MS 01.c.2.1.040.065 65 241 76.1 180 6.3 312 163 64 16 540MS 01.c.2.1.040.080 80 283 88.9 189 7.1 421.5 155.5 75 19.4 873MS 01.c.2.1.040.100 100 305 114.3 230 8 602 175 98 28.7 1390MS 01.c.2.1.040.125 125 381 139.7 260 8.8 602 197 123 36.2 1707MS 01.c.2.1.040.150 150 457 219.1 310 10 602 201 148 57 2024


MS

01.

c.2.

1

kg

kg

kg

mm

mm

mm

11

DIMENSIONS & WEIGHT


Split body ball valve. Full bore. Welding ends design. Ball valve body is made of carbon steel. Body component parts are made with the ap-plication of welding. Shutoff ball is settled on a support. Antistatic design. Teflon seats in me-tallic seat rings are pressed against the shutoff ball by springs. Emergency system of sealing lubricant injection. Stem is protected from extru-sion and sealed by teflon rings tightened by a press-on-bush. Teflon gaskets are used to seal the body component parts. Draining plug for let-ting the water and condensate out of valve body. Ball valve control is performed manually by rotat-ing actuator handwheel. State of the shutoff ball is controlled by a position indicator. Ball valve is intended to be installed on the pipeline in hori-zontal position with working medium flow applied from any direction.

9

38 72 1 14 11

13

6

12

15

16

10

17

4

5


DESIGN


PRESSURE/TEMPERATURE RATING№ PART NAME MATERIALMATERIALS LIST

PTFE50

40

30

20

10

-29 0 100 200

Pres

sure

, bar

Temperature, °C

PN25

PN40

PN16

Working pressure, not higher than..........................16 bar, 25 bar, 40 barWorking medium temperature...................................from – 29°C to +180°CWorking medium.........................................................water, gas, oil products and other medium, neutral for ball valve componentsEnvironment temperature..........................................not less than – 29°CQuantity of work cycles..............................................not less than 5000Full lifetime..................................................................not less than 30 yearsPipeline connection....................................................welding endsControl means.............................................................actuator handwheelEnd-to-end dimension................................................according to EN 12982Welding ends...............................................................according to EN12627Ball valve manufacturing............................................according to EN 1983Pressure tests.............................................................according to EN 12266-1

1 Body P265GH 1.04252 Ends connection P265GH 1.04253 Ball X12CrNiTi18-9 1.48784 Stem X20Cr13 1.40215 Press-on bush C22E 1.11516 Ball seat PTFE7 Seat ring C22E 1.11518 Spring DIN14221 60Si7 1.50279 Body gasket PTFE

10 Stem seat PTFE11 Gasket ring Rubber12 Ring PTFE13 Handwheel S235JR 1.003714 Stud C35E 1.118115 Nut 5 Zn (ISO4034)16 Retaining washer DIN17221 60Si7 1.5027(ISO82008)17 Washer C10E 1.1121 (ISO7089)



MS 01.c.2.3.016.200 200 521 219.1 395 8 503 195 98 2720MS 01.c.2.3.016.250 250 559 273 475 10 537 245 190 12750MS 01.c.2.3.016.300 300 635 323.9 558 12 668 294 394 19550MS 01.c.2.3.016.400 400 838 406.4 753 14 893 385 950 31620MS 01.c.2.3.016.500 500 991 508 931 16 1087 487 1310 50150

MS 01.c.2.3.025.200 200 521 219.1 395 8.8 503 195 98 2720MS 01.c.2.3.025.250 250 559 273 475 10 537 245 190 12750MS 01.c.2.3.025.300 300 635 323.9 558 12 668 294 394 19550MS 01.c.2.3.025.400 400 838 406.4 753 14 893 385 950 31620MS 01.c.2.3.025.500 500 991 508 931 17.5 1087 487 1360 50150

MS 01.c.2.3.040.150 150 457 168.3 310 8 463.5 148 148 2024MS 01.c.2.3.040.200 200 521 219.1 395 10 503 195 195 2720MS 01.c.2.3.040.250 250 559 273 475 12.5 537 245 245 12750MS 01.c.2.3.040.300 300 635 323.9 558 14 668 294 294 19550MS 01.c.2.3.040.400 400 838 406.4 753 16 893 385 385 31620MS 01.c.2.3.040.500 500 991 508 931 20 1087 487 487 50150

PN 16

PN 25

PN 40

Code DN L D A T H Dmin Weight Kv



mm

mm

mm

MS

01.

c.2.

3

kg

kg

kg

13

DIMENSIONS & WEIGHT


Split body ball valve. Reduced bore. Flanged ends design. Ball valve body is made of carbon steel. Body component parts are made with the application of welding. Free floating ball is sealed with teflon seats. Stem is protected from extrusion and sealed by teflon rings tightened by a press-on bush. Seats are pressed to the ball by spring washers. Teflon gaskets are used to seal the body component parts. Ball valve con-trol is performed manually by turning a handle at an angle of 90˚ up to the full stop. Handle axis is parallel to bore axis so its position indicates ball valve “open” or “closed” state. Ball valve is intended to be installed on the pipeline in any position with working medium flow applied from any direction.

6 5 2 1 8

7

10 1513

14

11

3

94

16 12

14


DESIGN


PRESSURE/TEMPERATURE RATING

PTFE50

40

30

20

10

-29 0 100 200

Pres

sure

, bar

Temperature, °C

PN25

PN40

PN16

Working pressure, not higher than..........................16 bar, 25 bar, 40 barWorking medium temperature...................................from – 29°C to +180°CWorking medium.........................................................water, gas, oil products and other medium, neutral for ball valve componentsEnvironment temperature..........................................not less than – 29°CQuantity of work cycles..............................................not less than 5000Full lifetime..................................................................not less than 30 yearsPipeline connection....................................................flanged endsControl means.............................................................handleFace-to-face dimension..............................................according to EN 558-1Flanges connection....................................................according to EN1092-1Ball valve manufacturing...........................................according to EN 1983Pressure tests.............................................................according to EN 12266-1

№ PART NAME MATERIAL


10 Gasket ring Rubber11 Ring PTFE12 Handle S235JR 1.0037 13 Stud C35E 1.118114 Nut 5 Zn (ISO 4034)15 Retaining washer DIN17221 60Si7 1.502716 Washer C10E 1.1121 (ISO7089)

MATERIALS LIST


Ball valvesReduced boreMS 01.c.1.1

MS 01.c.1.1.016.065/050 065/050 290 185 145 122 312 155 48 18 360 8 14 160

MS 01.c.1.1.016.100/080 100/080 350 220 180 158 382 184 75 18 445 8 19 510

MS 01.c.1.1.016.125/100 125/100 400 250 210 188 602 168.5 98 18 681 8 34 590

MS 01.c.1.1.016.150/100 150/100 480 285 240 212 602 168.5 98 22 693 8 41 680

MS 01.c.1.1.016.200/150 200/150 600 340 295 268 602 201 148 22 706 12 61 1830

MS 01.c.1.1.016.250/200 250/200 730 405 355 320 1098 239 195 26 1230 12 95 3655

MS 01.c.1.1.025.065/050 065/050 290 185 145 122 314 155 48 18 362 8 14.5 160

MS 01.c.1.1.025.100/080 100/080 350 235 190 162 382 184 75 22 449 8 21 510

MS 01.c.1.1.025.125/100 125/100 400 270 220 188 602 167 98 26 687 8 39 590

MS 01.c.1.1.025.150/100 150/100 480 300 250 218 602 167 98 26 689 8 51 680

MS 01.c.1.1.025.200/150 200/150 600 360 310 278 602 201 148 26 712 12 81 1830

MS 01.c.1.1.040.065/050 065/050 290 185 145 122 314 155 48 18 362 8 14.5 160

MS 01.c.1.1.040.100/080 100/080 350 235 190 162 382 155.5 75 22 488.5 8 21 510

MS 01.c.1.1.040.125/100 125/100 400 270 220 188 602 179 98 26 687 8 39 590

MS 01.c.1.1.040.150/100 150/100 480 300 250 218 602 175 98 26 689 8 51 680

PN 16

PN 25

PN 40




mm

mm

mm

MS

01.

c.1.

1

kg

kg

kg

15

DIMENSIONS & WEIGHT


Split body ball valve. Reduced bore. Flanged ends design. Ball valve body is made of carbon steel. Body component parts are made with the application of welding. Shutoff ball is settled on a support. Antistatic design. Teflon seats in me-tallic seat rings are pressed against the shutoff ball by springs. Emergency system of sealing lubricant injection. Stem is protected from extru-sion and sealed by teflon rings tightened by a press-on-bush. Teflon gaskets are used to seal the body component parts. Draining plug for let-ting the water and condensate out of valve body. Ball valve control is performed manually by rotat-ing actuator handwheel. State of the shutoff ball is controlled by a position indicator. Ball valve is intended to be installed on the pipeline in hori-zontal position with working medium flow applied from any direction.


DESIGN



PTFE50

40

30

20

10

-29 0 100 200

Pres

sure

, bar

Temperature, °C

PN25

PN40

PN16

Working pressure, not higher than..........................16 bar, 25 bar, 40 barWorking medium temperature...................................from – 29°C to +180°CWorking medium.........................................................water, gas, oil products and other medium, neutral for ball valve componentsEnvironment temperature..........................................not less than – 29°CQuantity of work cycles..............................................not less than 5000Full lifetime..................................................................not less than 30 yearsPipeline connection....................................................flanged endsControl means.............................................................actuator handwheelFace-to-face dimension..............................................according to EN 558-1Flanges connection....................................................according to EN1092-1Ball valve manufacturing...........................................according to EN 1983Pressure tests............................................................according to EN 12266-1

6

27 10 1 13 8

12

5

11

14

15

3

916

4




10 Gasket ring Rubber11 Ring PTFE12 Handwheel S235JR 1.003713 Stud C35E 1.118114 Nut 5 Zn (ISO4034)15 Retaining washer DIN17221 60Si7 1.5027 (ISO82008)16 Washer C10E 1.1121 (ISO7089)

MS 01.c.1.3.016.250/200 250/200 730 405 355 320 503 730 195 26 12 120 3655

MS 01.c.1.3.016.300/250 300/250 850 460 410 378 537 850 245 26 12 275 6420

MS 01.c.1.3.016.350/300 350/300 980 520 470 438 668 980 294 26 12 385 11900

MS 01.c.1.3.025.250/200 250/200 730 425 370 335 503 600 195 30 12 132 3655

MS 01.c.1.3.025.300/250 300/250 850 485 430 378 537 730 245 30 16 295 6420

MS 01.c.1.3.025.350/300 350/300 980 555 490 450 668 850 294 30 16 405 11900

MS 01.c.1.3.040.250/200 200/150 600 375 320 285 463.5 600 148 30 12 116 1830

MS 01.c.1.3.040.300/250 250/200 730 450 385 345 503 730 195 33 12 152 3655

MS 01.c.1.3.040.350/300 300/250 850 515 450 410 545 850 245 33 16 325 6420

MS 01.c.1.3.040.350/300 350/300 980 580 510 465 668 960 294 36 16 455 11900

PN 16

PN 25

PN 40


MS

01.

c.1.

3



kg

kg

kg

17

DIMENSIONS & WEIGHT


Split body ball valve. Reduced bore. Weld-ing ends design. Ball valve body is made of car-bon steel. Body component parts are made with the application of welding. Free floating ball is sealed with teflon seats. Stem is protected from extrusion and sealed by teflon rings tightened by a press-on bush. Seats are pressed to the ball by spring washers. Teflon gaskets are used to seal the body component parts. Ball valve con-trol is performed manually by turning a handle at an angle of 90˚ up to the full stop. Handle axis is parallel to bore axis so its position indicates ball valve “open” or “closed” state. Ball valve is intended to be installed on the pipeline in any position with working medium flow applied from any direction.

15

167 6 3 11

8

1142

15

12

4

105

1713

9


DESIGN



PTFE50

40

30

20

10

-29 0 100 200

Pres

sure

, bar

Temperature, °C

PN25

PN40

PN16

1 Body P265GH 1.04252 Ends connection P265GH 1.04253 Ball X12CrNiTi18-9 1.48784 Stem X20Cr13 1.40215 Press-on bush C22E 1.11516 Ball seat PTFE7 Seat ring C22E 1.11518 Spring washer DIN14221 60Si7 1.50279 Body gasket PTFE

10 Stem seat PTFE11 Gasket ring Rubber12 Ring PTFE13 Handle S235JR 1.003714 Stud C35E 1.118115 Nut 5 Zn (ISO4034)16 Retaining washer DIN17221 60Si7 1.5027(ISO82008)17 Washer C10E 1.1121 (ISO7089)

Working pressure, not higher than..........................16 bar, 25 bar, 40 barWorking medium temperature...................................from – 29°C to +180°CWorking medium.........................................................water, gas, oil products and other medium, neutral for ball valve componentsEnvironment temperature..........................................not less than – 29°CQuantity of work cycles..............................................not less than 5000Full lifetime..................................................................not less than 30 yearsPipeline connection....................................................welding endsControl means.............................................................handleEnd-to-end dimension................................................according to EN 12982Welding ends..............................................................according to EN12627Ball valve manufacturing...........................................according to EN 1983Pressure tests............................................................according to EN 12266-1



MS 01.c.2.1.016.065/050 065/050 241 76.1 158 5.6 312 155 48 10 160MS 01.c.2.1.016.100/080 100/080 305 114.3 189 7.1 382 187 75 16 510MS 01.c.2.1.016.125/100 125/100 381 139.7 250 8 602 168.5 98 25 590MS 01.c.2.1.016.150/100 150/100 457 168.3 250 8 602 168.5 98 31 680MS 01.c.2.1.016.200/150 200/150 521 219.1 310 8 602 201 148 56 1830MS 01.c.2.1.016.250/200 250/200 559 273 395 8.8 1098 239 195 95 3655

MS 01.c.2.1.025.065/050 065/050 241 76.1 158 5.6 312 155 48 10 160MS 01.c.2.1.025.100/080 100/080 305 114.3 189 7.1 382 187 75 16 510MS 01.c.2.1.025.125/100 125/100 381 139.7 250 8 602 168.5 98 25 590MS 01.c.2.1.025.150/100 150/100 457 168.3 250 8 602 168.5 98 31 680MS 01.c.2.1.025.200/150 200/150 521 219.1 310 8 602 201 148 56 1830

MS 01.c.2.1.040.065/050 065/050 241 76.1 158 6.3 312 154 48 14 160MS 01.c.2.1.040.100/080 100/080 305 114.3 189 8 421.5 155.5 75 22 510MS 01.c.2.1.040.125/100 125/100 381 139.7 270 8.8 602 175 98 29.5 590MS 01.c.2.1.040.150/100 150/100 457 168.3 270 8.8 602 175 98 41 680MS 01.c.2.1.040.200/150 200/150 521 219.1 310 10 602 215 148 67 1830

MS

01.

c.2.

1

PN 16

PN 25

PN 40




mm

mm

mm

kg

kg

kg

19

DIMENSIONS & WEIGHT

19


Split body ball valve. Reduced bore. Welding ends design. Ball valve body is made of carbon steel. Body component parts are made with the application of welding. Shutoff ball is settled on a support. Antistatic design. Teflon seats in me-tallic seat rings are pressed against the shutoff ball by springs. Emergency system of sealing lubricant injection. Stem is protected from extru-sion and sealed by teflon rings tightened by a press-on-bush. Teflon gaskets are used to seal the body component parts. Draining plug for let-ting the water and condensate out of valve body. Ball valve control is performed manually by rotat-ing actuator handwheel. State of the shutoff ball is controlled by a position indicator. Ball valve is intended to be installed on the pipeline in hori-zontal position with working medium flow applied from any direction.

9

38 72 1 14 11

13

6

12

15

16

10

17

4

5


DESIGN



PTFE50

40

30

20

10

-29 0 100 200

Pres

sure

, bar

Temperature, °C

PN25

PN40

PN16

Working pressure, not higher than..........................16 bar, 25 bar, 40 barWorking medium temperature...................................from – 29°C to +180°CWorking medium.........................................................water, gas, oil products and other medium, neutral for ball valve componentsEnvironment temperature..........................................not less than – 29°CQuantity of work cycles..............................................not less than 5000Full lifetime..................................................................not less than 30 yearsPipeline connection....................................................welding endsControl means.............................................................actuator handwheelEnd-to-end dimension................................................according to EN 12982Flanges connection....................................................according to EN12627Ball valve manufacturing...........................................according to EN 1983Pressure tests.............................................................according to EN 12266-1

1 Body P265GH 1.04252 Ends connection P265GH 1.04253 Ball X12CrNiTi18-9 1.48784 Stem X20Cr13 1.40215 Press-on bush C22E 1.11516 Ball seat PTFE7 Seat ring C22E 1.11518 Spring DIN14221 60Si7 1.50279 Body gasket PTFE

10 Stem seat PTFE11 Gasket ring Rubber12 Ring PTFE13 Handwheel S235JR 1.003714 Stud C35E 1.118115 Nut 5 Zn (ISO4034)16 Retaining washer DIN17221 60Si7 1.5027(ISO82008)17 Washer C10E 1.1121 (ISO7089)



MS 01.c.2.3.016.250/200 250/200 559 273 395 8.8 559 195 215 3655

MS 01.c.2.3.016.300/250 300/250 635 323.9 475 12 635 245 235 6420

MS 01.c.2.3.016.350/300 350/300 762 355.6 558 14 660 394 380 11900

MS 01.c.2.3.025.250/200 250/200 559 273 395 10 503 195 217 3655

MS 01.c.2.3.025.300/250 300/250 635 323.9 475 12 537 245 238 6420

MS 01.c.2.3.025.350/300 350/300 762 355.6 558 14 660 394 389 11900

MS 01.c.2.3.040.200/150 200/150 521 219.1 310 10 453.5 148 85 1830

MS 01.c.2.3.040.250/200 250/200 559 273 395 12.5 503 195 238 3655

MS 01.c.2.3.040.300/250 300/250 635 323.9 475 16 537 245 285 6420

MS 01.c.2.3.040.350/300 350/300 762 355.6 558 16 660 394 410 11900

PN 16

PN 25

PN 40




mm

mm

mm

MS

01.

c.2.

3

kg

kg

kg

21

DIMENSIONS & WEIGHT

Flanged ends ball valves are designated for installation on the pipelines in water and gas supplying systems, for application in heat-power engineering and also in chemical, oil-refining, gas and other industries as a locking device fully blocking liquid and gaseous medium flow The manufacturer has at his disposal a com-prehensive informational background on the consequences of working medium influence on different types of materials and can offer its cus-tomers a type of ball valve that would fully cor-respond to all the specified parameters.

Split body short pattern ball valve. Full bore. Flanged ends design. Ball valve body is made of carbon steel. Body component parts are made with the application of welding. Free floating ball is sealed with teflon seats. Stem is protected from extrusion and sealed by teflon rings tight-ened by a press-on bush. Seats are pressed to the ball by spring washers. Teflon gaskets are used to seal the body component parts. Ball valve control is performed manually by turning a handle at an angle of 90˚ up to the full stop. Handle axis is parallel to bore axis so its position indicates ball valve “open” or “closed” state. Ball valve is intended to be installed on the pipeline in any position with working medium flow applied from any direction.

Working pressure, not higher than.......16 bar, 25 bar, 40 barWorking medium temperature................from – 29°C to +180°CWorking medium......................................water, gas, oil products and other nontoxic and non- aggressive medium, neutral for ball valve componentsEnvironment temperature....................... not less than – 29°C Quantity of work cycles............................not less than 5000Full lifetime................................................not less than 30 yearsPipeline connection..................................flanged endsControl means...........................................handleFlanges connection..................................according to EN 1092-1Testing and inspection.............................according to ISO 5208


DESIGN



PTFE50

40

30

20

10

-29 0 100 200

Pres

sure

, bar

Temperature, °C

PN25

PN40

PN16


10 Gasket ring Rubber11 Ring PTFE12 Handle S235JR 1.0037 13 Stud C35E 1.118114 Nut 5 Zn (ISO 4034)15 Washer C10E 1.1121 (ISO7089)


Ball valvesFull boreMS 01.c.1/01.1

MS 01.c.1/01.1.025.010 10 60 90 60 40 189 97 219 9 14 4 1.6 6MS 01.c.1/01.1.025.015 15 60 95 65 45 189 97 219 12.5 14 4 1.7 16.3MS 01.c.1/01.1.025.020 20 64 105 75 58 189 100 221 17 14 4 2.3 29.5MS 01.c.1/01.1.025.025 25 64 115 85 68 189 105 221 24 14 4 3.3 43MS 01.c.1/01.1.025.032 32 72 140 100 78 227 135 263 30 18 4 4.4 89MS 01.c.1/01.1.025.040 40 76 150 110 88 282 141 320 37 18 4 5.2 230MS 01.c.1/01.1.025.050 50 96 165 125 102 312 154 359 47 18 4 7.6 265MS 01.c.1/01.1.025.065 65 113 185 145 122 312 170 368.5 62 18 8 9.2 540MS 01.c.1/01.1.025.080 80 127 200 160 138 370 185 434 74 18 8 12.8 873MS 01.c.1/01.1.025.100 100 181 246 190 162 602 169 693 98 22 8 22.6 1390MS 01.c.1/01.1.025.125 125 196 285 220 188 602 184 700 119 26 8 31 1707MS 01.c.1/01.1.025.150 150 200 310 250 218 602 201 702 142 26 8 37 2024MS 01.c.1/01.1.025.200 200 278 395 310 278 1098 239 1237 190 26 12 75.4 2720

MS 01.c.1/01.1.040.010 10 60 90 60 40 189 97 219 9 14 4 2.5 6MS 01.c.1/01.1.040.015 15 60 95 65 45 189 97 219 12.5 14 4 2.5 16.3MS 01.c.1/01.1.040.020 20 64 105 75 58 189 100 221 17 14 4 3 29.5MS 01.c.1/01.1.040.025 25 66 115 85 68 189 105 222 24 14 4 3.5 43MS 01.c.1/01.1.040.032 32 78 140 100 78 227 137 266 30 18 4 5.6 89MS 01.c.1/01.1.040.040 40 88 150 110 88 282 139 326 37 18 4 6.9 230MS 01.c.1/01.1.040.050 50 98 165 125 102 312 120 367 47 18 4 9.6 265MS 01.c.1/01.1.040.065 65 115 185 145 122 289 161 347 62 18 8 13.3 540MS 01.c.1/01.1.040.080 80 132 200 160 138 422 156 488 74 18 8 17.2 873MS 01.c.1/01.1.040.100 100 166 246 190 162 602 179 685 98 22 8 26.8 1390MS 01.c.1/01.1.040.125 125 190 285 220 188 602 197 697 119 26 8 33.9 1707MS 01.c.1/01.1.040.150 150 216 310 250 218 602 215 710 142 26 8 35 2024MS 01.c.1/01.1.040.200 200 258 395 320 285 1108 299 1227 190 30 12 73.4 2720

MS 01.c.1/01.1.016.010 10 60 90 60 40 189 97 219 9 14 4 1.5 6MS 01.c.1/01.1.016.015 15 60 95 65 45 189 97 219 12.5 14 4 1.7 16.3MS 01.c.1/01.1.016.020 20 64 105 75 58 189 100 221 17 14 4 2.1 29.5MS 01.c.1/01.1.016.025 25 64 115 85 68 189 105.5 221 24 14 4 3.3 43MS 01.c.1/01.1.016.032 32 72 140 100 78 227 135 263 30 18 4 4.3 89MS 01.c.1/01.1.016.040 40 76 150 110 88 282 141 319.5 37 18 4 5 230MS 01.c.1/01.1.016.050 50 94 165 125 102 312 154 358 47 18 4 8.4 265MS 01.c.1/01.1.016.065 65 109 185 145 122 312 170 366.5 62 18 8 9.3 540MS 01.c.1/01.1.016.080 80 120 200 160 138 370 185 430 74 18 8 11 873MS 01.c.1/01.1.016.100 100 173 246 180 158 602 166.5 688.5 98 18 8 17.1 1390MS 01.c.1/01.1.016.125 125 184 285 210 188 602 184 694 119 18 8 28.9 1707MS 01.c.1/01.1.016.150 150 188 310 240 212 602 201 696 142 22 8 36.8 2024MS 01.c.1/01.1.016.200 200 266 395 295 268 1098 239 1231 190 22 12 70.6 2720

PN 16

PN 25

PN 40

Code DN L D D1 D2 L1 H B Dmin d n Weight Kv



mm

mm

mm

MS

01.

c.1/

01.1

kg

kg

kg

23

DIMENSIONS & WEIGHT


DESIGN



PTFE50

40

30

20

10

-29 0 100 200

Pres

sure

, bar

Temperature, °C

PN25

PN40

PN16


10 Gasket ring Rubber11 Ring PTFE12 Handle S235JR 1.0037 13 Stud C35E 1.118114 Nut 5 Zn (ISO 4034)15 Washer C10E 1.1121 (ISO7089)


Ball valvesReduced boreMS 01.c.1/01.1


Split body short pattern ball valve. Reduced bore. Flanged ends design. Ball valve body is made of carbon steel. Body component parts are made with the application of welding. Free float-ing ball is sealed with teflon seats. Stem is pro-tected from extrusion and sealed by teflon rings tightened by a press-on bush. Seats are pressed to the ball by spring washers. Teflon gaskets are used to seal the body component parts. Ball valve control is performed manually by turning a handle at an angle of 90˚ up to the full stop. Handle axis is parallel to bore axis so its position indicates ball valve “open” or “closed” state. Ball valve is intended to be installed on the pipeline in any position with working medium flow applied from any direction.

Working pressure, not higher than.......16 bar, 25 bar, 40 barWorking medium temperature................from – 29°C to +180°CWorking medium......................................water, gas, oil products and other nontoxic and non- aggressive medium, neutral for ball valve componentsEnvironment temperature....................... not less than – 29°C Quantity of work cycles............................not less than 5000Full lifetime................................................not less than 30 yearsPipeline connection..................................flanged endsControl means...........................................handleFlanges connection..................................according to EN 1092-1Testing and inspection.............................according to ISO 5208

MS 01.c.1/01.1.016.065/050 65/50 96 185 145 122 312 166 359,5 47 18 8 9.1 390

MS 01.c.1/01.1.016.100/080 100/80 124 246 180 158 312 178 372 74 18 8 13.5 750

MS 01.c.1/01.1.016.125/100 125/100 158 285 210 188 602 169 681 98 18 8 23.1 860

MS 01.c.1/01.1.016.150/100 150/100 162 310 240 212 590 190 671 98 22 8 26.9 1020

MS 01.c.1/01.1.016.200/150 200/150 208 395 295 268 590 222 694 142 22 12 44 1830

MS 01.c.1/01.1.025.065/050 65/50 100 185 145 122 312 166 360 47 18 8 9 390

MS 01.c.1/01.1.025.100/080 100/80 132 246 190 162 312 177,5 377 74 22 8 15.6 750

MS 01.c.1/01.1.025.125/100 125/100 170 285 220 188 602 169 687 98 26 8 25.6 860

MS 01.c.1/01.1.025.150/100 150/100 174 310 250 212 590 190 677 98 26 8 26.8 1020

MS 01.c.1/01.1.025.200/150 200/150 220 395 310 278 590 222 700 142 26 12 45.1 1830

MS 01.c.1/01.1.040.065/050 65/50 106 185 145 122 289 149 342 47 18 8 12.4 390

MS 01.c.1/01.1.040.100/080 100/80 136 246 190 162 422 155 490 74 22 8 22.7 750

MS 01.c.1/01.1.040.125/100 125/100 170 285 220 188 602 179 687 98 26 8 24.7 860

MS 01.c.1/01.1.040.150/100 150/100 174 310 250 218 602 179 679 98 26 8 31.7 1020

MS 01.c.1/01.1.040.200/150 200/150 228 395 320 285 602 215 716 142 30 12 43.2 1830

PN 16

PN 25

PN 40




MS

01.

c.1/

01.1

mm

mm

mm

kg

kg

kg

25

DIMENSIONS & WEIGHT

Flanged ends ball valves are designated for installation on the pipelines in water and gas supplying systems, for application in heat-power engineering and also in chemical, oil-refining, gas and other industries as a locking device fully blocking liquid and gaseous medium flow. Ball valves made of stainless steel can be used in food industry. The manufacturer has at his disposal a comprehensive informational back-ground on the consequences of working medium influence on different types of materials and can offer its customers a type of ball valve that would fully correspond to all the specified parameters.

Single body all-welded ball valve. Full bore. Flanged ends design. All body component parts are joined by welding. Ball valve is maintenance-free.

Design types:MS21.c.1.1 – made of carbon steel. MS21.s.1.1 – made of stainless steel. Free floating ball is sealed with teflon seats.

Stem is protected from extrusion and sealed by teflon rings tightened by a press-on bush. Seats are pressed to the ball by spring washers. Teflon gaskets are used to seal the body component parts. Ball valve control is performed manually by turning a handle at an angle of 90˚ up to the full stop. Handle axis is parallel to bore axis so its position indicates ball valve “open” or “closed” state. Ball valve is intended to be installed on the pipeline in any position with working medium flow applied from any direction

Working pressure, not higher than.....16bar(class B20), 25bar(class B25), 40bar(class B40)Working medium temperature..............from – 29°C to +180°CWorking medium.............MS 21.c.1.1 water, gas, oil products and other nontoxic and non- aggressive medium, neutral for ball valve components MS 21.s.1.1 water, gas, oil products and other including aggressive medium and neutral one for ball valve componentsEnvironment temperature.....................not less than – 29°CQuantity of work cycles........................not less than 5000Full lifetime............................................not less than 30 yearsPipeline connection...............................flanged endsControl means........................................handleFace-to-face dimension.........................according to EN 558-1Flanges connection................................according to EN 1092-1Pressure tests.........................................according to EN 12266-1Ball valve manufacturing......................according to EN 1983

9

7 2 1

5

6

11

3

10

48

1213


DESIGN


PRESSURE/TEMPERATURE RATINGMATERIALS LIST

PTFE50

40

30

20

10

-29 0 100 200

Pres

sure

, bar

Temperature, °C

PN25

PN40

PN16

1 Body P265TR1 1.0258 X6CrNiTi18-10 1.4541 2 Ball GX5CrNi19-10 1.4308 Gx5CrNiTi19-10 1.43083 Stem X20Cr13 1.4021 X12CrNiTi18-9 1.48784 Press-on bush C22E 1.1151 X12CrNiTi18-9 1.48785 Ball seat PTFE PTFE6 Seat ring St37-2 1.0037 X12CrNiTi18-9 1.48787 Spring washer 60Si7 X39Cr13 1.40318 Stem seat PTFE PTFE 9 Gasket ring Rubber Rubber

10 Ring PTFE PTFE11 Handle GP240GH1.0619 GP240GH 1.061912 Nut 5 Zn (ISO 4034)13 Washer C20E 1.1121 (ISO 7089)

№ PART NAME MATERIAL MS21.c.1.1 MATERIAL MS 21.s.1.1



MS 21.s.1.1

MS 21.c.1.1.025.010 MS 21.s.1.1.025.010 10 130 90 60 40 161 226 92 9 14 4 1.75 6MS 21.c.1.1.025.015 MS 21.s.1.1.025.015 15 130 95 65 45 161 226 92 12.5 14 4 1.85 16.3MS 21.c.1.1.025.020 MS 21.s.1.1.025.020 20 150 105 75 58 161 236 96 17 14 4 3.11 29.5MS 21.c.1.1.025.025 MS 21.s.1.1.025.025 25 160 115 85 68 161 243 100 24 14 4 4.12 43MS 21.c.1.1.025.032 MS 21.s.1.1.025.032 32 180 140 100 78 174 264 115 30 18 4 5.89 89MS 21.c.1.1.025.040 MS 21.s.1.1.025.040 40 200 150 110 88 282 382 138 37 18 4 6.81 230MS 21.c.1.1.025.050 MS 21.s.1.1.025.050 50 230 165 125 102 311 426 147 48 18 4 9.82 265MS 21.c.1.1.025.065 MS 21.s.1.1.025.065 65 290 185 145 122 289 434 165 64 18 8 12.53 540MS 21.c.1.1.025.080 MS 21.s.1.1.025.080 80 310 200 160 138 381 536 180 75 18 8 17.86 873MS 21.c.1.1.025.100 MS 21.s.1.1.025.100 100 350 235 190 162 602 777 179 98 22 8 37.0 1390MS 21.c.1.1.025.125 MS 21.s.1.1.025.125 125 400 270 220 188 602 802 188 123 26 8 42.24 1707MS 21.c.1.1.025.150 MS 21.s.1.1.025.150 150 480 300 250 218 602 842 208 148 26 8 56.2 2024MS 21.c.1.1.025.200 MS 21.s.1.1.025.200 200 600 360 310 278 1100 1398 258 195 26 12 89.3 2720

MS 21.c.1.1.040.015 MS 21.s.1.1.040.015 10 130 90 60 40 161 227 92 9 14 4 1.75 6MS 21.c.1.1.040.015 MS 21.s.1.1.040.015 15 130 95 65 45 161 227 92 12.5 14 4 1.85 16.3MS 21.c.1.1.040.020 MS 21.s.1.1.040.020 20 150 105 75 58 161 238 96 17 14 4 3.11 29.5MS 21.c.1.1.040.025 MS 21.s.1.1.040.025 25 160 115 85 68 161 243 101 24 14 4 4.12 43MS 21.c.1.1.040.032 MS 21.s.1.1.040.032 32 180 140 100 78 174 264 117 30 18 4 5.89 89MS 21.c.1.1.040.040 MS 21.s.1.1.040.040 40 200 150 110 88 282 382 141.5 37 18 4 6.81 230MS 21.c.1.1.040.050 MS 21.s.1.1.040.050 50 230 165 125 102 311 426 153 48 18 4 9.82 265MS 21.c.1.1.040.065 MS 21.s.1.1.040.065 65 290 185 145 122 286 431 164 64 18 8 12.53 540MS 21.c.1.1.040.080 MS 21.s.1.1.040.080 80 310 200 160 138 391 546 176 75 18 8 17.86 873MS 21.c.1.1.040.100 MS 21.s.1.1.040.100 100 350 235 190 162 602 777 190 98 22 8 37.0 1390MS 21.c.1.1.040.125 MS 21.s.1.1.040.125 125 400 270 220 188 602 803 88 123 26 8 42.24 1707MS 21.c.1.1.040.150 MS 21.s.1.1.040.150 150 480 300 250 218 602 842 208 148 26 8 56.2 2024

PN 16

PN 25

PN 40

Code DN L D D1 D2 L1 B H Dmin d n Weight Kv


mm

mm

kg

kg

MS

21.

c.1.

1 M

S 2

1.s.

1.1

MS 21.c.1.1.016.010MS 21.s.1.1.016.010 10 130 90 60 40 161 276 92 9 14 4 1.75 6MS 21.c.1.1.016.015 MS 21.s.1.1.016.015 15 130 95 65 45 161 226 92 12.5 14 4 1.85 16.3MS 21.c.1.1.016.020 MS 21.s.1.1.016.020 20 150 105 75 58 161 236 96 17 14 4 3.11 29.3MS 21.c.1.1.016.025 MS 21.s.1.1.016.025 25 160 115 85 68 161 243 101 24 14 4 4.12 43MS 21.c.1.1.016.032 MS 21.s.1.1.016.032 32 180 140 100 78 174 264 117 30 18 4 5.89 89MS 21.c.1.1.016.040 MS 21.s.1.1.016.040 40 200 150 110 88 282 382 138 37 18 4 6.81 230MS 21.c.1.1.016.050 MS 21.s.1.1.016.050 50 230 165 125 102 311 426 153 48 18 4 9.42 265MS 21.c.1.1.016.065 MS 21.s.1.1.016.065 65 290 185 145 122 289 434 164 64 18 8 11.68 540MS 21.c.1.1.016.080 MS 21.s.1.1.016.080 80 310 200 160 138 381 536 184 75 18 8 15.95 873MS 21.c.1.1.016.100 MS 21.s.1.1.016.100 100 350 220 180 158 602 777 176 98 18 8 33.32 1390MS 21.c.1.1.016.125 MS 21.s.1.1.016.125 125 400 250 210 188 602 803 188 123 18 8 33.34 1707MS 21.c.1.1.016.150 MS 21.s.1.1.016.150 150 480 285 240 212 602 842 208 148 22 8 45.6 2024MS 21.c.1.1.016.200 MS 21.s.1.1.016.200 200 600 340 295 268 1100 1398 254 195 22 12 79 2720

Note: MS 21.c.1.1 - carbon steel ball valve design MS 21.s.1.1 - stainless steel ball valve design

27

DIMENSIONS & WEIGHT

Code DN L D D1 D2 L1 B H Dmin d n Weight Kvmm kg

Welding ends ball valves are designated for installation on the pipelines in water and gas supplying systems, for application in heat-power engineering and also in chemical, oil-refining, gas and other industries as a locking device fully blocking liquid and gaseous medium flow. Ball valves made of stainless steel can be used in food industry. The manufacturer has at his disposal a comprehensive informational back-ground on the consequences of working medium influence on different types of materials and can offer its customers a type of ball valve that would fully correspond to all the specified parameters.

Single body all-welded ball valve. Full bore. Welding ends design. All body component parts are joined by welding. Ball valve is maintenance-free.


Stem is protected from extrusion and sealed by teflon rings tightened by a press-on bush. Seats are pressed to the ball by spring washers. Teflon gaskets are used to seal the body component parts. Ball valve control is performed manually by turning a handle at an angle of 90˚ up to the full stop. Handle axis is parallel to bore axis so its position indicates ball valve “open” or “closed” state. Ball valve is intended to be installed on the pipeline in any position with working medium flow applied from any direction.

103

28 1

7

6

12

4

11

5

9

1314


DESIGN



PTFE50

40

30

20

10

-29 0 100 200

Pres

sure

, bar

Temperature, °C

PN25

PN40

PN16

1 Body P265TR1 1.0258 X6CrNiTi18-10 1.4541 2 Ball GX5CrNi19-10 1.4308 Gx5CrNiTi19-10 1.43083 Ends connection P265TR1 1.0258 X6CrNiTi18-10 1.45414 Stem X20Cr13 1.4021 X12CrNiTi18-9 1.48785 Press-on bush C22E 1.1151 X12CrNiTi18-9 1.48786 Ball seat PTFE PTFE7 Seat ring St37-2 1.0037 X12CrNiTi18-9 1.48788 Spring washer 60Si7 X39Cr13 1.40319 Stem seat PTFE PTFE

10 Gasket ring Rubber Rubber11 Ring PTFE PTFE12 Handle GP240GH1.0619 GP240GH 1.061913 Nut 5 Zn (ISO 4034)14 Washer C20E 1.1121 (ISO 7089)

Working pressure, not higher than.....16bar(class B20), 25bar(class B25), 40bar(class B40)Working medium temperature..............from – 29°C to +180°CWorking medium..............MS 21.c.2.1 water, gas, oil products and other nontoxic and non- aggressive medium, neutral for ball valve components MS 21.s.2.1 water, gas, oil products and other including aggressive medium and neutral one for ball valve componentsEnvironment temperature.....................not less than – 29°CQuantity of work cycles........................not less than 5000Full lifetime............................................not less than 30 yearsPipeline connection...............................welding endsControl means........................................handleEnd-to-end dimension...........................according to EN 12982Welding ends..........................................according to EN 12627Pressure tests.........................................according to EN 12266-1Ball valve manufacturing......................according to EN 1983




MS 21.s.2.1

MS 21.c.2.1.016.010MS 21.s.2.1.016.010 10 140 17.2 42.4 161 92 9 0.9 6MS 21.c.2.1.016.015 MS 21.s.2.1.016.015 15 140 21.3 42.4 161 90 12.5 0.95 16.3MS 21.c.2.1.016.020 MS 21.s.2.1.016.020 20 152 26.9 51 161 96 17 1.54 29.5MS 21.c.2.1.016.025 MS 21.s.2.1.016.025 25 165 33.7 60.3 161 101 24 2.12 43MS 21.c.2.1.016.032 MS 21.s.2.1.016.032 32 178 42.4 73 174 117 30 3.2 89MS 21.c.2.1.016.040 MS 21.s.2.1.016.040 40 190 51 82.5 282.5 144 37 3.65 230MS 21.c.2.1.016.050 MS 21.s.2.1.016.050 50 216 60.3 101.6 311 155 48 5.67 265MS 21.c.2.1.016.065 MS 21.s.2.1.016.065 65 241 76.1 127 289 164 64 8.18 540MS 21.c.2.1.016.080 MS 21.s.2.1.016.080 80 283 88.9 139.7 381 184 75 8.9 873MS 21.c.2.1.016.100 MS 21.s.2.1.016.100 100 305 114.3 177.8 602 176 98 15.5 1390MS 21.c.2.1.016.125 MS 21.s.2.1.016.125 125 381 139.7 219.1 602 190 123 22.1 1707MS 21.c.2.1.016.150 MS 21.s.2.1.016.150 150 457 168.3 244.5 602 208 148 29.4 2024MS 21.c.2.1.016.200 MS 21.s.2.1.016.200 200 521 219 325 1100 234.5 195 72 2720

MS 21.c.2.1.025.010 MS 21.s.2.1.025.010 10 140 21.3 42.4 161 92 9 0.9 6MS 21.c.2.1.025.015 MS 21.s.2.1.025.015 15 140 21.3 42.4 161 90 12.5 0.95 16.3MS 21.c.2.1.025.020 MS 21.s.2.1.025.020 20 152 26.9 51 161 96 17 1.54 29.5MS 21.c.2.1.025.025 MS 21.s.2.1.025.025 25 165 33.7 60.3 161 100 24 2.12 43MS 21.c.2.1.025.032 MS 21.s.2.1.025.032 32 178 42.4 73 174 118 30 3.2 89MS 21.c.2.1.025.040 MS 21.s.2.1.025.040 40 190 51 82.5 282.5 144 37 3.65 230MS 21.c.2.1.025.050 MS 21.s.2.1.025.050 50 216 60.3 101.6 311 149 48 5.67 265MS 21.c.2.1.025.065 MS 21.s.2.1.025.065 65 241 76.1 127 289 167 64 8.18 540MS 21.c.2.1.025.080 MS 21.s.2.1.025.080 80 283 88.9 139.7 381 182 75 8.9 873MS 21.c.2.1.025.100 MS 21.s.2.1.025.100 100 305 114.3 177.8 602 167 98 15.5 1390MS 21.c.2.1.025.125 MS 21.s.2.1.025.125 125 381 139.7 219.1 602 192 123 22.1 1707MS 21.c.2.1.025.150 MS 21.s.2.1.025.150 150 457 168.3 244.5 602 208 148 29.4 2024MS 21.c.2.1.025.200 MS 21.s.2.1.025.200 200 521 219.1 272 1100 234.5 195 72 2720

MS 21.c.2.1.040.015 MS 21.s.2.1.040.015 15 140 21.3 42.4 161 92 9 0.95 16.3MS 21.c.2.1.040.015 MS 21.s.2.1.040.015 15 140 21.3 42.4 161 92 12.5 0.95 16.3MS 21.c.2.1.040.020 MS 21.s.2.1.040.020 20 152 26.9 51 161 96 17 1.54 29.5MS 21.c.2.1.040.025 MS 21.s.2.1.040.025 25 165 33.7 60.3 161 101 24 2.12 43MS 21.c.2.1.040.032 MS 21.s.2.1.040.032 32 178 42.4 73 174 117 30 3.2 89MS 21.c.2.1.040.040 MS 21.s.2.1.040.040 40 190 51 82.5 282.5 144 37 3.65 230MS 21.c.2.1.040.050 MS 21.s.2.1.040.050 50 216 60.3 101.6 311 149 48 5.67 265MS 21.c.2.1.040.065 MS 21.s.2.1.040.065 65 241 76.1 127 289 167 64 8.18 540MS 21.c.2.1.040.080 MS 21.s.2.1.040.080 80 283 88.9 139.7 382 182 75 8.9 873MS 21.c.2.1.040.100 MS 21.s.2.1.040.100 100 305 114.3 177.8 602 176 98 15.5 1390MS 21.c.2.1.040.125 MS 21.s.2.1.040.125 125 381 139.7 219.1 602 190 123 22.1 1707MS 21.c.2.1.040.150 MS 21.s.2.1.040.150 150 457 168.3 244.5 602 208 148 29.4 2024

PN 25

PN 40

PN 16

Code DN L D A L1 H Dmin Weight Kv

Code DN L D A L1 H Dmin Weight Kvmm

mm

mmCode DN L D A L1 H Dmin Weight Kv

kg

kg

kg


MS

21.

c.2.

1 M

S 2

1.s.

2.1

29

DIMENSIONS & WEIGHT


DESIGN



PTFE50

40

30

20

10

-29 0 100 200

Pres

sure

, bar

Temperature, °C

PN25

PN40

PN16

Single body all-welded ball valve. Reduced bore. Flanged ends design. All body component parts are joined by welding. Ball valve is main-tenance-free.



Working pressure, not higher than.....16bar(class B20), 25bar(class B25), 40bar(class B40)Working medium temperature..............from – 29°C to +180°CWorking medium.............MS 21.c.1.1 water, gas, oil products and other nontoxic and non- aggressive medium, neutral for ball valve components MS 21.s.1.1 water, gas, oil products and other including aggressive medium and neutral one for ball valve componentsEnvironment temperature.....................not less than – 29°CQuantity of work cycles........................not less than 5000Full lifetime............................................not less than 30 yearsPipeline connection...............................flanged endsControl means........................................handleFace-to-face dimension.........................according to EN 558-1Flanges connection................................according to EN 1092-1Pressure tests.........................................according to EN 12266-1Ball valve manufacturing......................according to EN 1983




MS 21.c.1.1MS 21.s.1.1


Ball valvesReduced bore


6 5 2 1

3

10

13

48

9 7

12 11

MS 21.c.1.1.016.020/015 MS 21.s.1.1.016.020/015 020/015 150 105 75 58 189 264 92 12.5 14 4 2.5 10MS 21.c.1.1.016.025/020 MS 21.s.1.1.016.025/020 025/020 160 115 85 68 189 269 95 17 14 4 3.3 21MS 21.c.1.1.016.032/025 MS 21.s.1.1.016.032/025 032/025 180 140 100 78 189 279 104 24 18 4 4.7 32MS 21.c.1.1.016.040/032 MS 21.s.1.1.016.040/032 040/032 200 150 110 88 281 381.5 135 30 18 4 5.45 60MS 21.c.1.1.016.050/040 MS 21.s.1.1.016.050/040 050/040 230 165 125 102 281.5 396.5 140 37 18 4 7.54 150MS 21.c.1.1.016.065/050 MS 21.s.1.1.016.065/050 065/050 290 185 145 122 261.5 426.5 147 48 18 8 9.34 160MS 21.c.1.1.016.080/065 MS 21.s.1.1.016.080/065 080/065 310 200 160 138 289 444 166 64 18 8 12.76 380MS 21.c.1.1.016.100/080 MS 21.s.1.1.016.100/080 100/080 350 220 180 158 421.5 596.5 157 75 18 8 26.65 510MS 21.c.1.1.016.125/100 MS 21.s.1.1.016.125/100 125/100 400 250 210 188 602 802 177 98 18 8 27.0 590MS 21.c.1.1.016.150/125 MS 21.s.1.1.016.150/125 150/125 480 285 240 212 602 842 191.5 123 22 8 36.5 680MS 21.c.1.1.016.200/150 MS 21.s.1.1.016.200/150 200/150 600 340 295 268 602 902 207 148 22 12 62.3 1830MS 21.c.1.1.016.250/200 MS 21.s.1.1.016.250/200 250/200 730 405 355 320 1100 1465 234.5 195 26 12 86.5 3655

MS 21.c.1.1.025.020/015 MS 21.s.1.1.025.020/015 020/015 150 105 75 58 189 264 92 12.5 14 4 2.5 10MS 21.c.1.1.025.025/020 MS 21.s.1.1.025.025/020 025/020 160 115 85 68 189 269 95 17 14 4 3.3 21MS 21.c.1.1.025.032/025 MS 21.s.1.1.025.032/025 032/025 180 140 100 78 189 279 101 24 18 4 4.7 32MS 21.c.1.1.025.040/032 MS 21.s.1.1.025.040/032 040/032 200 150 110 88 281.5 381.5 119 30 18 4 5.45 60MS 21.c.1.1.025.050/040 MS 21.s.1.1.025.050/040 050/040 230 165 125 102 281.5 396.5 140 37 18 4 7.86 150MS 21.c.1.1.025.065/050 MS 21.s.1.1.025.065/050 065/050 290 185 145 122 289 426.5 147 48 18 8 10.0 160MS 21.c.1.1.025.080/065 MS 21.s.1.1.025.080/065 080/065 310 200 160 138 289 414 166 64 18 8 14.3 380MS 21.c.1.1.025.100/080 MS 21.s.1.1.025.100/080 100/080 350 235 190 162 421 596.5 157 75 22 8 29.6 510MS 21.c.1.1.025.125/100 MS 21.s.1.1.025.125/100 125/100 400 270 220 188 602 802 177 98 26 8 3.8 590MS 21.c.1.1.025.150/125 MS 21.s.1.1.025.150/125 150/125 480 300 250 218 602 842 190 123 26 8 45.0 680MS 21.c.1.1.025.200/150 MS 21.s.1.1.025.200/150 200/150 600 360 310 278 602 902 209 140 26 12 75 1830MS 21.c.1.1.025.250/200 MS 21.s.1.1.025.250/200 250/200 730 425 370 335 1100 1465 258 195 30 12 93.6 3655

MS 21.c.1.1.040.020/015 MS 21.s.1.1.040.020/015 020/015 150 105 75 58 189 264 92 12.5 14 4 2.5 10MS 21.c.1.1.040.025/020 MS 21.s.1.1.040.025/020 025/020 160 115 85 68 189 269 95 17 14 4 3.3 21MS 21.c.1.1.040.032/040 MS 21.s.1.1.040.032/040 032/025 180 140 100 78 189 279 101 24 18 4 4.7 32MS 21.c.1.1.040.040/032 MS 21.s.1.1.040.040/032 040/032 200 150 110 88 281.5 381.5 135 30 18 4 5.45 60MS 21.c.1.1.040.050/040 MS 21.s.1.1.040.050/040 050/040 230 165 125 102 281.5 396.5 140 37 18 4 7.86 150MS 21.c.1.1.040.065/050 MS 21.s.1.1.040.065/050 065/050 290 185 145 122 281.5 426.5 147 48 18 8 10.0 160MS 21.c.1.1.040.080/065 MS 21.s.1.1.040.080/065 080/065 310 200 160 138 380.5 444 166 64 18 8 14.3 380MS 21.c.1.1.040.100/080 MS 21.s.1.1.040.100/080 100/080 350 235 190 162 421 546.5 157 75 22 8 29.6 510MS 21.c.1.1.040.125/100 MS 21.s.1.1.040.125/100 125/100 400 270 220 188 602 802 177 98 26 8 3.8 590MS 21.c.1.1.040.150/125 MS 21.s.1.1.040.150/125 150/125 480 300 250 218 602 842 190 123 26 8 45.0 680MS 21.c.1.1.040.200/150 MS 21.s.1.1.040.200/150 200/150 600 375 320 285 602 902 209.5 148 30 12 75 1830

PN 16

PN 25

PN 40




mm

mm

mm

kg

kg

kg

MS

21.

c.1.

1 M

S 2

1.s.

1.1

31

DIMENSIONS & WEIGHT

Note: MS 21.c - carbon steel ball valve design MS 21.s - stainless steel ball valve design



DESIGN



PTFE50

40

30

20

10

-29 0 100 200

Pres

sure

, bar

Temperature, °C

PN25

PN40

PN16

Single body all-welded ball valve. Reduced bore. Welding ends design. All body component parts are joined by welding. Ball valve is main-tenance-free.



1 Body P265TR1 1.0258 X6CrNiTi18-10 1.4541 2 Ball GX5CrNi19-10 1.4308 Gx5CrNiTi19-10 1.43083 Ends connection P265TR1 1.0258 X6CrNiTi18-10 1.45414 Stem X20Cr13 1.4021 X12CrNiTi18-9 1.48785 Press-on bush C22E 1.1151 X12CrNiTi18-9 1.48786 Ball seat PTFE PTFE7 Seat ring St37-2 1.0037 X12CrNiTi18-9 1.48788 Spring washer 60Si7 X39Cr13 1.40319 Stem seat PTFE PTFE

10 Gasket ring Rubber Rubber11 Ring PTFE PTFE12 Handle GP240GH1.0619 GP240GH 1.061913 Nut 5 Zn (ISO 4034)14 Washer C20E 1.1121 (ISO 7089)

Working pressure, not higher than.....16bar(class B20), 25bar(class B25), 40bar(class B40)Working medium temperature..............from – 29°C to +180°CWorking medium..............MS 21.c.2.1 water, gas, oil products and other nontoxic and non- aggressive medium, neutral for ball valve components MS 21.s.2.1 water, gas, oil products and other including aggressive medium and neutral one for ball valve componentsEnvironment temperature.....................not less than – 29°CQuantity of work cycles........................not less than 5000Full lifetime............................................not less than 30 yearsPipeline connection...............................welding endsControl means........................................handleEnd-to-end dimension...........................according to EN 12982Welding ends..........................................according to EN 12627Pressure tests.........................................according to EN 12266-1Ball valve manufacturing......................according to EN 1983

MS 21.c.2.1MS 21.s.2.1



Ball valvesReduced bore

MS 21.c.2.1.016.020/015MS 21.s.2.1.016.020/015 20/15 152 26.9 42.4 189 92 12.5 1.23 10MS 21.c.2.1.016.025/020 MS 21.s.2.1.016.025/020 25/20 165 33.7 51 189 95 17 1.7 21MS 21.c.2.1.016.032/025 MS 21.s.2.1.016.032/025 32/25 178 42.4 60.3 189 101 24 2.56 32MS 21.c.2.1.016.040/032 MS 21.s.2.1.016.040/032 40/32 190 51 73 281.5 135 30 2.9 60MS 21.c.2.1.016.050/040 MS 21.s.2.1.016.050/040 50/40 216 60.3 82.5 281.5 140 37 4.54 150MS 21.c.2.1.016.065/050 MS 21.s.2.1.016.065/050 65/50 241 76.1 101.6 281.5 147 48 6.54 160MS 21.c.2.1.016.080/065 MS 21.s.2.1.016.080/065 80/65 283 88.9 127 289 186 64 7.12 380MS 21.c.2.1.016.100/080 MS 21.s.2.1.016.100/080 100/80 305 114.3 139.7 421.5 157 75 12.0 510MS 21.c.2.1.016.125/100 MS 21.s.2.1.016.125/100 125/100 381 138.7 177.8 602 177 98 17.68 590MS 21.c.2.1.016.150/125 MS 21.s.2.1.016.150/125 150/125 457 168.3 219.1 602 191.5 123 23.5 680MS 21.c.2.1.016.200/150 MS 21.s.2.1.016.200/150 200/150 521 219.1 244.5 602 209.5 148 36.5 1830MS 21.c.2.1.016.250/200 MS 21.s.2.1.016.250/200 250/200 559 273 325 1100 258 195 79 3655

MS 21.c.2.1.025.020/015 MS 21.s.2.1.025.020/015 20/15 152 26.9 42.4 189 92 12.5 1.23 10MS 21.c.2.1.025.025/020 MS 21.s.2.1.025.025/020 25/20 165 33.7 51 189 95 17 1.7 21MS 21.c.2.1.025.032/025 MS 21.s.2.1.025.032/025 32/25 178 42.4 60.3 189 101 24 2.56 32MS 21.c.2.1.025.040/032 MS 21.s.2.1.025.040/032 40/32 190 51 73 281.5 135 30 2.9 60MS 21.c.2.1.025.050/040 MS 21.s.2.1.025.050/040 50/40 216 60.3 82.5 281.5 140 37 4.54 150MS 21.c.2.1.025.065/050 MS 21.s.2.1.025.065/050 65/50 241 76.1 101.6 281.5 147 48 6.54 160MS 21.c.2.1.025.080/065 MS 21.s.2.1.025.080/065 80/65 283 88.9 127 289 186 64 7.3 380MS 21.c.2.1.025.100/080 MS 21.s.2.1.025.100/080 100/80 305 114.3 139.7 421.5 166 75 12.56 510MS 21.c.2.1.025.125/100 MS 21.s.2.1.025.125/100 125/100 381 138.7 177.8 602 177 98 17.68 590MS 21.c.2.1.025.150/125 MS 21.s.2.1.025.150/125 150/125 457 168.3 219.1 602 191.5 123 26.0 680MS 21.c.2.1.025.200/150 MS 21.s.2.1.025.200/150 200/150 521 219.1 244.5 602 209.5 148 38 1830MS 21.c.2.1.025.250/200 MS 21.s.2.1.025.250/200 250/200 559 273 325 1100 258 195 80.5 3655

MS 21.c.2.1.040.020/015 MS 21.s.2.1.040.020/015 20/15 152 26.9 42.4 189 92 12.5 1.23 10MS 21.c.2.1.040.025/020 MS 21.s.2.1.040.025/020 25/20 165 33.7 51 189 95 17 1.7 21MS 21.c.2.1.040.032/025 MS 21.s.2.1.040.032/025 32/25 178 42.4 60.3 189 101 24 2.56 32MS 21.c.2.1.040.040/032 MS 21.s.2.1.040.040/032 40/32 190 51 73 281.5 135 30 2.9 60MS 21.c.2.1.040.050/040 MS 21.s.2.1.040.050/040 50/40 216 60.3 82.5 281.5 140 37 4.7 150MS 21.c.2.1.040.065/050 MS 21.s.2.1.040.065/050 65/50 241 76.1 101.6 281.5 147 48 7.0 160MS 21.c.2.1.040.080/065 MS 21.s.2.1.040.080/065 80/65 283 88.9 127 289 166 64 7.4 380MS 21.c.2.1.040.100/080 MS 21.s.2.1.040.100/080 100/80 305 114.3 139.7 421.5 157 75 13.2 510MS 21.c.2.1.040.125/100 MS 21.s.2.1.040.125/100 125/100 381 138.7 177.8 602 177 98 18.3 590MS 21.c.2.1.040.150/125 MS 21.s.2.1.040.150/125 150/125 457 168.3 219.1 602 191.5 123 26.0 680MS 21.c.2.1.040.200/150 MS 21.s.2.1.040.200/150 200/150 521 219.1 244.5 602 209.5 148 63 1830

PN 16

PN 25

PN 40




mm

mm

mm

kg

kg

kg


MS

21.

c.2.

1 M

S 2

1.s.

2.1

33

DIMENSIONS & WEIGHT


Single body all-welded ball valve. Full bore. Flanged ends design. All body component parts are joined by welding. Ball valve is maintenance-free.


Both seats are pressed to the ball by spring washers. Stem is protected from extrusion and sealed by rubber gasket rings. Ball valve control is performed manually by rotating of the actuator handwheel. State of the shutoff ball is controlled by a position indicator. Ball valve is intended to be installed on the pipeline in any position with working medium flow applied from any direc-tion.

Working pressure, not higher than.....16bar(class B20), 25bar(class B25), 40bar(class B40)Working medium temperature..............from – 29°C to +180°CWorking medium.............MS 21.c.1.3 water, gas, oil products and other nontoxic and non- aggressive medium, neutral for ball valve components MS 21.s.1.3 water, gas, oil products and other including aggressive medium and neutral one for ball valve componentsEnvironment temperature.....................not less than – 29°CQuantity of work cycles........................not less than 5000Full lifetime............................................not less than 30 yearsPipeline connection...............................flanged endsControl means........................................actuator handwheelFace-to-face dimension.........................according to EN 558-1Flanges connection................................according to EN 1092-1Pressure tests.........................................according to EN 12266-1Ball valve manufactured.......................according to EN 1983


DESIGN



PTFE50

40

30

20

10

-29 0 100 200

Pres

sure

, bar

Temperature, °C

PN25

PN40

PN16

1 Body P265TR1 1.0258 X6CrNiTi18-10 1.4541 2 Ball GX5CrNi19-10 1.4308 Gx5CrNiTi19-10 1.43083 Flange P265TR1 1.0258 X6CrNiTi18-10 1.45414 Stem X20Cr13 1.4021 X12CrNiTi18-9 1.48785 Gasket ring Rubber Rubber6 Ball seat PTFE PTFE7 Seat ring St37-2 1.0037 X12CrNiTi18-9 1.48788 Spring washer 60Si7 X39Cr13 1.40319 Gasket ring Rubber Rubber

10 Ring PTFE PTFE11 Handwheel S235JR 1.003712 Bolt 5 Zn (ISO 4034) A2 (ISO 4034)13 Nut 60 Si7 1.5027 (ISO 82008) x39Cr13 1.4031 (ISO 82008)14 Washer 5.3 Zn (ISO 4017) A2 (ISO 4017)

Ball valvesMS 21.c.1.3MS 21.s.1.3



PN 16

PN 25

PN 40

MS

21.

c.1.

3 M

S 2

1.s.

1.3

MS 21.c.1.3.016.200MS 21.s.1.3.016.200 200 600 340 295 268 580 503 195 22 12 89.3 2720

MS 21.c.1.3.016.250/200 MS 21.s.1.3.016.250/200 250/200 730 405 355 320 647 503 195 26 12 101 3655

MS 21.c.1.3.016.250MS 21.s.1.3.016.250 250 730 405 355 320 647 620 245 26 12 136.6 12750

MS 21.c.1.3.025.200MS 21.s.1.3.025.200 200 600 360 310 278 580 503 195 26 12 89.3 2720

MS 21.c.1.3.025.250/200 MS 21.s.1.3.025.250/200 250/200 730 425 370 335 647 503 195 30 12 101 3655

MS 21.c.1.3.025.250MS 21.s.1.3.025.250 250 730 425 370 335 647 620 245 30 12 136.6 12750

MS 21.c.1.3.040.150MS 21.s.1.3.040.150 150 480 300 250 218 520 463 148 26 8 56.2 2024

MS 21.c.1.3.040.200/150MS 21.s.1.3.040.200/150 200/150 600 375 320 285 580 463 148 30 12 87 1830

MS 21.c.1.3.040.200MS 21.s.1.3.040.200 200 600 375 320 285 647 503 195 30 12 99.5 2720

MS 21.c.1.3.040.250/200MS 21.s.1.3.040.250/200 250/200 730 450 385 345 647 503 195 33 12 108 3655

MS 21.c.1.3.040.250MS 21.s.1.3.040.250 250 730 450 385 345 647 620 245 33 12 155.4 12750


DIMENSIONS & WEIGHT

Code DN L D D1 D2 B H Dmin d n Weight Kv



mm

mm

mm

kg

kg

kg

B

L

D2D

H

D1

n/d

35



DESIGN


PRESSURE/TEMPERATURE RATING

PTFE50

40

30

20

10

-29 0 100 200

Pres

sure

, bar

Temperature, °C

PN25

PN40

PN16

Working pressure, not higher than.....16bar(class B20), 25bar(class B25), 40bar(class B40)Working medium temperature..............from – 29°C to +180°CWorking medium.............MS 21.c.2.3 water, gas, oil products and other nontoxic and non- aggressive medium, neutral for ball valve components MS 21.s.2.3 water, gas, oil products and other including aggressive medium and neutral one for ball valve componentsEnvironment temperature.....................not less than – 29°CQuantity of work cycles........................not less than 5000Full lifetime............................................not less than 30 yearsPipeline connection...............................welding endsControl means........................................actuator handwheelEnd-to-end dimension...........................according to EN 12982Welding ends..........................................according to EN 126871Pressure tests.........................................according to EN 12266-1Ball valve manufacturing......................according to EN 1983

Ball valvesMS 21.c.2.3MS 21.s.2.3

Single body all-welded ball valve. Full bore. Welding ends design. All body component parts are joined by welding. Ball valve is maintenance-free.


Both seats are pressed to the ball by spring washers. Stem is protected from extrusion and sealed by rubber gasket rings. Ball valve control is performed manually by rotating of the actuator handwheel. State of the shutoff ball is controlled by a position indicator. Ball valve is intended to be installed on the pipeline in any position with working medium flow applied from any direc-tion.

MATERIALS LIST

1 Body P265TR1 1.0258 X6CrNiTi18-10 1.4541 2 Ball GX5CrNi19-10 1.4308 Gx5CrNiTi19-10 1.43083 Ends connection P265TR1 1.0258 X6CrNiTi18-10 1.45414 Stem X20Cr13 1.4021 X12CrNiTi18-9 1.48785 Gasket ring Rubber Rubber6 Ball seat PTFE PTFE7 Seat ring St37-2 1.0037 X12CrNiTi18-9 1.48788 Spring washer 60Si7 X39Cr13 1.40319 Gasket ring Rubber Rubber

10 Ring PTFE PTFE11 Handwheel S235JR 1.003712 Bolt 5 Zn (ISO 4034) A2 (ISO 4034)13 Nut 60 Si7 1.5027 (ISO 82008) x39Cr13 1.4031 (ISO 82008)14 Washer 5.3 Zn (ISO 4017) A2 (ISO 4017)



MS 21.c.2.3.016.200MS 21.s.2.3.016.200 200 521 219.1 323.9 8 503 195 83.3 2720

MS 21.c.2.3.016.250/200 MS 21.s.2.3.016.250/200 250/200 559 273 323.9 8 503 195 95 3655

MS 21.c.2.3.016.250MS 21.s.2.3.016.250 250 559 273 406.4 8.8 620 245 100.6 12750

MS 21.c.2.3.025.200MS 21.s.2.3.025.200 200 521 219.1 323.9 8.8 503 195 73.4 2720

MS 21.c.2.3.025.250/200 MS 21.s.2.3.025.250/200 250/200 559 273 323.9 10 503 195 102 3655

MS 21.c.2.3.025.250MS 21.s.2.3.025.250 250 559 273 406.4 8.8 620 245 104.3 12750

MS 21.c.2.3.040.150MS 21.s.2.3.040.150 150 457 168.3 244.5 8.8 463 148 48 2024

MS 21.c.2.3.040.200/150 MS 21.s.2.3.040.200/150 200/150 521 219.1 244.5 8.8 463 148 75 1830

MS 21.c.2.3.040.200MS 21.s.2.3.040.200 200 521 219.1 323.9 10 503 195 81.3 2720

MS 21.c.2.3.040.250/200 MS 21.s.2.3.040.250/200 250/200 559 273 323.9 10 503 195 96 3655

MS 21.c.2.3.040.250MS 21.s.2.3.040.250 250 559 273 406.4 12.5 620 245 109.4 12750

PN 16

PN 25

PN 40




mm

mm

mm

kg

kg

kg

DIMENSIONS & WEIGHT

MS

21.

c.2.

3 M

S 2

1.s.

2.3

A

H

D

T

L

B


37

Lightweight all-welded ball valves are des-ignated for installation on the pipelines in water and gas supplying systems, for application in heat-power engineering and also in chemical, oil-refining, gas and other industries as a locking device fully blocking liquid and gaseous medium flow. Ball valves made of stainless steel can be used in food industry. The manufacturer has at his disposal a comprehensive informational background on the consequences of working medium influence on different types of materials and can offer its customers a type of ball valve that would fully correspond to all the specified parameters.

Lightweight single body all-welded ball valve. Reduced bore. Welding ends design. All body component parts are joined by welding. Ball valve is maintenance-free.

Design types:MS21/02.c.2.1 – made of carbon steel. Free floating ball is sealed with teflon seats.

Both seats are pressed to the ball by spring washers. Stem is protected from extrusion and sealed by teflon rings tightened by a press-on bush. Ball valve control is performed manually by turning a handle at an angle of 90˚ up to the full stop. Handle axis is parallel to bore axis so its position indicates ball valve “open” or “closed” state. Ball valve is intended to be installed on the pipeline in any position with working medium flow applied from any direction.


DESIGN



PTFE50

40

30

20

10

-29 0 100 200

Pres

sure

, bar

Temperature, °C

PN25

PN40

PN16

1 Body P265TR1 1.02582 Ball GX5CrNi19-10 1.43083 Ends connection P265TR1 1.02584 Stem X20Cr13 1.40215 Press-on bush C22E 1.11516 Ball seat PTFE7 Seat ring St37-2 1.00378 Spring washer 60Si79 Stem seat PTFE

10 Gasket ring Rubber11 Ring PTFE12 Handle GP240GH1.061913 Nut 5 Zn (ISO 4034)14 Washer C206 1.1121 (ISO 7089)

Working pressure, not higher than.....16bar(class B20), 25bar(class B25), 40bar(class B40)Working medium temperature..............from – 29°C to +180°CWorking medium.....................................water, gas, oil products and other nontoxic and non-aggressive medium, neutral for ball valve componentsEnvironment temperature.......................not less than – 29°CQuantity of work cycles..........................not less than 5000Full lifetime..............................................not less than 30 yearsPipeline connection.................................welding endsControl means..........................................handleWelding ends............................................according to EN 12627End-to-end dimension.............................according to EN 12982Pressure tests...........................................according to EN 12266-1Ball valve manufacturing.......................according to EN 1983

Ball valvesLightweightMS 21/02.c.2.1

№ PART NAME MATERIAL


MS21/02.c.2.1.016.015 15 230 161 231 92 12.5 21.3 2 38 0.85 16.3MS21/02.c.2.1.016.020/015 20/15 230 189 265 92 12.5 26.9 2.9 42.4 1.02 10MS21/02.c.2.1.016.025/020 25/20 230 189 271.5 95 17 33.7 3.2 44.5 1.15 21MS21/02.c.2.1.016.032/025 32/25 260 189 278 101 24 42.4 3.2 54 1.62 32MS21/02.c.2.1.016.040/032 40/32 260 281.5 371.5 135 30 51 3.2 63.5 2.15 60MS21/02.c.2.1.016.050/040 50/40 300 281.5 389.5 140 37 60.3 3.2 73 3.1 150MS21/02.c.2.1.016.065/050 65/50 360 281.5 402 147 48 76.1 3.2 101.6 4.49 160MS21/02.c.2.1.016.080/065 80/65 370 289 430.5 186 64 88.9 4 127 6.47 380MS21/02.c.2.1.016.100/080 100/80 390 421.5 574 167 75 114.3 4 133 8.12 510MS21/02.c.2.1.016.125/100 125/100 390 602 792.5 177 98 139.7 4 177.8 13.1 590MS21/02.c.2.1.016.150/125 150/125 390 602 830.5 191.5 123 168.3 5 219.1 19.29 680MS21/02.c.2.1.016.200/150 200/150 390 602 862.5 209.5 148 219.1 10 244.5 38.5 1830MS21/02.c.2.1.016.250/200 250/200 630 1100 1379.5 258 195 273 12 273 62 3655

MS21/02.c.2.1.025.015 15 230 161 231 92 12.5 21.3 2 38 0.85 16.3MS21/02.c.2.1.025.020/015 20/15 230 189 265 92 12.5 26.9 2.9 42.4 1.02 10MS21/02.c.2.1.025.025/020 25/20 230 189 271.5 95 17 33.7 3.2 44.5 1.15 21MS21/02.c.2.1.025.032/025 32/25 260 189 278 101 24 42.4 3.2 54 1.58 32MS21/02.c.2.1.025.040/032 40/32 260 281.5 371.5 135 30 51 3.2 63.5 2.09 60MS21/02.c.2.1.025.050/040 50/40 300 281.5 389.5 140 37 60.3 3.2 73 3.1 150MS21/02.c.2.1.025.065/050 65/50 360 281.5 402 147 48 76.1 3.2 101.6 4.25 160MS21/02.c.2.1.025.080/065 80/65 370 289 430.5 186 64 88.9 4 127 6.49 380MS21/02.c.2.1.025.100/080 100/80 390 421.5 574 167 75 114.3 4 133 8.12 510MS21/02.c.2.1.025.125/100 125/100 390 602 792.5 177 98 139.7 4 177.8 13.1 590MS21/02.c.2.1.025.150/125 150/125 390 602 830.5 191.5 123 168.3 5 219.1 18.83 680MS21/02.c.2.1.025.200/150 200/150 390 602 862.5 209.5 148 219.1 10 244.5 38.3 1830MS21/02.c.2.1.025.250/200 250/200 630 1100 1379.5 258 195 273 12 273 76.5 3655

MS21/02.c.2.1.040.015 15 230 161 231 92 12.5 21.3 2 38 0.85 16.3MS21/02.c.2.1.040.020/015 20/15 230 189 265 92 12.5 26.9 2.9 42.9 1.02 10MS21/02.c.2.1.040.025/020 25/20 230 189 271.5 95 17 33.7 3.2 44.5 1.15 21MS21/02.c.2.1.040.032/040 32/25 260 189 278 101 24 42.4 3.2 54 1.62 32MS21/02.c.2.1.040.040/032 40/32 260 281.5 371.5 135 30 51 3.2 63.5 2.15 60MS21/02.c.2.1.040.050/040 50/40 300 281.5 389.5 140 37 60.3 3.2 73 3.1 150

PN 16

PN 25

PN 40

Code DN L L1 B H Dmin d1 T A Weight Kv



MS

21/

02.c

.2.1

mm

mm

mm

kg

kg

kg

DIMENSIONS & WEIGHTd1

T

Note: The end-to-end dimension may be changed by agreement with the client.

39

6

28 111

10

7

12

4

3

59

1314

Working pressure, not higher than.....16bar(class B20), 25bar(class B25), 40bar(class B40)Working medium temperature..............from – 29°C to +180°CWorking medium...............MS 21/01.c.water, gas, oil products and other nontoxic and non- aggressive medium, neutral for ball valve components MS 21/01.s.water, gas, oil products and other including aggressive medium and neutral one for ball valve componentsEnvironment temperature.....................not less than – 29°CQuantity of work cycles........................not less than 5000Full lifetime............................................not less than 30 yearsPipeline connection...............................flanged endsControl means........................................handleFace-to-face dimension.........................according to EN 558-1Flanges connection................................according to EN 1092-1Pressure tests.........................................according to EN 12266-1Ball valve manufacturing......................according to EN 1983


DESIGN



PTFE50

40

30

20

10

-29 0 100 200

Pres

sure

, bar

Temperature, °C

PN25

PN40

PN16

1 Body P265TR1 1.0258 X6CrNiTi18-10 1.4541 2 Ball GX5CrNi19-10 1.4308 Gx5CrNiTi19-10 1.43083 Stem X20Cr13 1.4021 X12CrNiTi18-9 1.48784 Stem extenension C22E 1.1151 X12CrNiTi18-9 1.48785 Press-on bush C22E 1.1151 X12CrNiTi18-9 1.48786 Ball seat PTFE PTFE7 Seat ring St37-2 1.0037 X12CrNiTi18-9 1.48788 Spring washer 60Si7 X39Cr13 1.40319 Stem seat PTFE PTFE

10 Gasket ring Rubber Rubber11 Ring PTFE PTFE12 Handle GP240GH1.061913 Nut 5 Zn (ISO 4034)14 Washer C10E 1.1121 (ISO 7089)

№ PART NAME MATERIAL MS 21/01.c MATERIAL MS 21/01.s


Ball valvesFull boreMS 21/01.c.1.1

MS 21/01.s.1.1


Single body all-welded ball valve with extend-ed stem. Full bore. Flanged ends design. All body component parts are joined by welding. Ball valve is maintenance-free.

Design types:MS21.c – made of carbon steel. MS21.s – made of stainless steel. Free floating ball is sealed with teflon seats.

Both seats are pressed to the ball by spring wash-ers.Stem is protected from extrusion and sealed by teflon rings tightened by a press-on bush. An extended stem makes remote installation of a ball valve in an inaccessible place possible with op-erating handle located away from the ball valve. Ball valve control is performed manually by turn-ing a handle at an angle of 90˚ up to the full stop. Handle axis is parallel to bore axis so its position indicates ball valve “open” or “closed” state. Ball valve is intended to be installed on the pipeline horizontally with stem directed upwards and with working medium flow applied from any direction.

MS 21/01.c.1.1.025.010 MS 21/01.s.1.1.025.010 10 130 90 60 40 161 226

by a

gree

men

t with

the

clie

nt9 14 4 1.75 6

MS 21/01.c.1.1.025.015 MS 21/01.s.1.1.025.015 15 130 95 65 45 161 226 12.5 14 4 1.85 16.3MS 21/01.c.1.1.025.020 MS 21/01.s.1.1.025.020 20 150 105 75 58 161 236 17 14 4 3.11 29.5MS 21/01.c.1.1.025.025 MS 21/01.s.1.1.025.025 25 160 115 85 68 161 243 24 14 4 4.12 43MS 21/01.c.1.1.025.032 MS 21/01.s.1.1.025.032 32 180 140 100 78 174 264 30 18 4 5.89 89MS 21/01.c.1.1.025.040 MS 21/01.s.1.1.025.040 40 200 150 110 88 282 382 37 18 4 6.81 230MS 21/01.c.1.1.025.050 MS 21/01.s.1.1.025.050 50 230 165 125 102 311 426 48 18 4 9.82 265MS 21/01.c.1.1.025.065 MS 21/01.s.1.1.025.065 65 290 185 145 122 289 434 64 18 8 12.53 540MS 21/01.c.1.1.025.080 MS 21/01.s.1.1.025.080 80 310 200 160 138 381 536 75 18 8 17.86 873MS 21/01.c.1.1.025.100 MS 21/01.s.1.1.025.100 100 350 235 190 162 602 777 98 22 8 37.0 1390MS 21/01.c.1.1.025.125 MS 21/01.s.1.1.025.125 125 400 270 220 188 602 802 123 26 8 42.24 1707MS 21/01.c.1.1.025.150 MS 21/01.s.1.1.025.150 150 480 300 250 218 602 842 148 26 8 56.2 2024MS 21/01.c.1.1.025.200 MS 21/01.s.1.1.025.200 200 600 360 310 278 1100 1398 195 26 12 89.3 2720

MS 21/01.c.1.1.040.010 MS 21/01.s.1.1.040.010 10 130 90 60 40 161 227

by a

gree

men

t with

the

clie

nt

9 14 4 1.75 6MS 21/01.c.1.1.040.015 MS 21/01.s.1.1.040.015 15 130 95 65 45 161 227 12.5 14 4 1.85 16.3MS 21/01.c.1.1.040.020 MS 21/01.s.1.1.040.020 20 150 105 75 58 161 238 17 14 4 3.11 29.5MS 21/01.c.1.1.040.025 MS 21/01.s.1.1.040.025 25 160 115 85 68 161 243 24 14 4 4.12 43MS 21/01.c.1.1.040.032 MS 21/01.s.1.1.040.032 32 180 140 100 78 174 264 30 18 4 5.89 89MS 21/01.c.1.1.040.040 MS 21/01.s.1.1.040.040 40 200 150 110 88 282 382 37 18 4 6.81 230MS 21/01.c.1.1.040.050 MS 21/01.s.1.1.040.050 50 230 165 125 102 311 426 48 18 4 9.82 265MS 21/01.c.1.1.040.065 MS 21/01.s.1.1.040.065 65 290 185 145 122 286 431 64 18 8 12.53 540MS 21/01.c.1.1.040.080 MS 21/01.s.1.1.040.080 80 310 200 160 138 391 546 75 18 8 17.86 873MS 21/01.c.1.1.040.100 MS 21/01.s.1.1.040.100 100 350 235 190 162 602 777 98 22 8 37.0 1390MS 21/01.c.1.1.040.125 MS 21/01.s.1.1.040.125 125 400 270 220 188 602 803 119 26 8 42.24 1707MS 21/01.c.1.1.040.150 MS 21/01.s.1.1.040.150 150 480 300 250 218 602 842 142 26 8 56.2 2024

PN 16

PN 25

PN 40



mm

mm

kg

kg

MS 21/01.c.1.1.016.010MS 21/01.s.1.1.016.010 10 130 90 60 40 161 276

by a

gree

men

t with

the

clie

nt

9 14 4 1.75 6MS 21/01.c.1.1.016.015 MS 21/01.s.1.1.016.015 15 130 95 65 45 161 226 12.5 14 4 1.85 16.3MS 21/01.c.1.1.016.020 MS 21/01.s.1.1.016.020 20 150 105 75 58 161 236 17 14 4 3.11 29.3MS 21/01.c.1.1.016.025 MS 21/01.s.1.1.016.025 25 160 115 85 68 161 243 24 14 4 4.12 43MS 21/01.c.1.1.016.032 MS 21/01.s.1.1.016.032 32 180 140 100 78 174 264 30 18 4 5.89 89MS 21/01.c.1.1.016.040 MS 21/01.s.1.1.016.040 40 200 150 110 88 282 382 37 18 4 6.81 230MS 21/01.c.1.1.016.050 MS 21/01.s.1.1.016.050 50 230 165 125 102 311 426 48 18 4 9.42 265MS 21/01.c.1.1.016.065 MS 21/01.s.1.1.016.065 65 290 185 145 122 289 434 64 18 8 11.68 540MS 21/01.c.1.1.016.080 MS 21/01.s.1.1.016.080 80 310 200 160 138 381 536 75 18 8 15.95 873MS 21/01.c.1.1.016.100 MS 21/01.s.1.1.016.100 100 350 220 180 158 602 777 98 18 8 33.32 1390MS 21/01.c.1.1.016.125 MS 21/01.s.1.1.016.125 125 400 250 210 188 602 803 123 18 8 33.34 1707MS 21/01.c.1.1.016.150 MS 21/01.s.1.1.016.150 150 480 285 240 212 602 842 148 22 8 45.6 2024MS 21/01.c.1.1.016.200 MS 21/01.s.1.1.016.200 200 600 340 295 268 1100 1398 195 22 12 79 2720

Code DN L D D1 D2 L1 B H Dmin d n Weight Kvmm kg

MS2

1/01

.c.1

.1 M

S21/

01.s

.1.1

41

DIMENSIONS & WEIGHT

Note: MS 21/01.c — carbon steel ball valve design MS 21/01.s — stainless steel ball valve design Weight is given without stem extension H — by agreement with the client

Welding ends ball valves are designated for installation on the pipelines in water and gas supplying systems, for application in heat-power engineering and also in chemical, oil-refining, gas and other industries as a locking device fully blocking liquid and gaseous medium flow. Ball valves made of stainless steel can be used in food industry. The manufacturer has at his dis-posal a comprehensive informational background on the consequences of working medium influ-ence on different types of materials and can offer its customers a type of ball valve that would fully correspond to all the specified parameters.

Single body all-welded ball valve with extend-ed stem. Full bore. Welding ends design. All body component parts are joined by welding. Ball valve is maintenance-free.

Design types:MS21/01.c – made of carbon steel. MS21/01.s – made of stainless steel. Free floating ball is sealed with teflon seats.

Both seats are pressed to the ball by spring wash-ers. Stem is protected from extrusion and sealed by teflon rings tightened by a press-on bush. An extended stem makes remote installation of a ball valve in an inaccessible place possible with op-erating handle located away from the ball valve. Ball valve control is performed manually by turn-ing a handle at an angle of 90˚ up to the full stop. Handle axis is parallel to bore axis so its position indicates ball valve “open” or “closed” state. Ball valve is intended to be installed on the pipeline horizontally with stem directed upwards and with working medium flow applied from any direction.

27

8 6

1 10

12

4

3

5

13

14

9

11


DESIGN



PTFE50

40

30

20

10

-29 0 100 200

Pres

sure

, bar

Temperature, °C

PN25

PN40

PN16

Working pressure, not higher than.....16bar(class B20), 25bar(class B25), 40bar(class B40)Working medium temperature..............from – 29°C to +180°CWorking medium..............MS 21/01.c water, gas, oil products and other nontoxic and non- aggressive medium, neutral for ball valve components MS 21/01.s water, gas, oil products and other including aggressive medium and neutral one for ball valve componentsEnvironment temperature.....................not less than – 29°CQuantity of work cycles........................not less than 5000Full lifetime............................................not less than 30 yearsPipeline connection...............................welding endsControl means........................................handleEnd-to-end dimension...........................according to EN 12982Welding ends..........................................according to EN 12627Pressure tests.........................................according to EN 12266-1Ball valve is manufacturing..................according to EN 1983





Ball valvesFull boreMS 21/01.c.2.1

MS 21/01.s.2.1

Note: MSA21/01.c — carbon steel ball valve design MSA21/01.s — stainless steel ball valve design Weight is given without stem extension H — by agreement with the client

MS 21/01.c.2.1.016.015MS 21/01.s.2.1.016.015 10 140 17.2 42.4 161

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the

clie

nt

9 0.9 6MS 21/01.c.2.1.016.015 MS 21/01.s.2.1.016.015 15 140 21.3 42.4 161 12.5 0.95 16.3MS 21/01.c.2.1.016.020 MS 21/01.s.2.1.016.020 20 152 26.9 51 161 17 1.54 29.5MS 21/01.c.2.1.016.025 MS 21/01.s.2.1.016.025 25 165 33.7 60.3 161 24 2.12 43MS 21/01.c.2.1.016.032 MS 21/01.s.2.1.016.032 32 178 42.4 73 174 30 3.2 89MS 21/01.c.2.1.016.040 MS 21/01.s.2.1.016.040 40 190 51 82.5 282.5 37 3.65 230MS 21/01.c.2.1.016.050 MS 21/01.s.2.1.016.050 50 216 60.3 101.6 311 48 5.67 265MS 21/01.c.2.1.016.065 MS 21/01.s.2.1.016.065 65 241 76.1 127 289 64 8.18 540MS 21/01.c.2.1.016.080 MS 21/01.s.2.1.016.080 80 283 88.9 139.7 381 75 8.9 873MS 21/01.c.2.1.016.100 MS 21/01.s.2.1.016.100 100 305 114.3 177.8 602 98 15.5 1390MS 21/01.c.2.1.016.125 MS 21/01.s.2.1.016.125 125 381 139.7 219.1 602 123 22.1 1707MS 21/01.c.2.1.016.150 MS 21/01.s.2.1.016.150 150 457 168.3 244.5 602 148 29.4 2024MS 21/01.c.2.1.016.200 MS 21/01.s.2.1.016.200 200 521 219 325 1100 195 72 2720

MS 21/01.c.2.1.025.010 MS 21/01.s.2.1.025.010 10 140 21.3 42.4 161

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the

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nt

9 0.9 6MS 21/01.c.2.1.025.015 MS 21/01.s.2.1.025.015 15 140 21.3 42.4 161 12.5 0.95 16.3MS 21/01.c.2.1.025.020 MS 21/01.s.2.1.025.020 20 152 26.9 51 161 17 1.54 29.5MS 21/01.c.2.1.025.025 MS 21/01.s.2.1.025.025 25 165 33.7 60.3 161 24 2.12 43MS 21/01.c.2.1.025.032 MS 21/01.s.2.1.025.032 32 178 42.4 73 174 30 3.2 89MS 21/01.c.2.1.025.040 MS 21/01.s.2.1.025.040 40 190 51 82.5 282.5 37 3.65 230MS 21/01.c.2.1.025.050 MS 21/01.s.2.1.025.050 50 216 60.3 101.6 311 48 5.67 265MS 21/01.c.2.1.025.065 MS 21/01.s.2.1.025.065 65 241 76.1 127 289 64 8.18 540MS 21/01.c.2.1.025.080 MS 21/01.s.2.1.025.080 80 283 88.9 139.7 381 75 8.9 873MS 21/01.c.2.1.025.100 MS 21/01.s.2.1.025.100 100 305 114.3 177.8 602 98 15.5 1390MS 21/01.c.2.1.025.125 MS 21/01.s.2.1.025.125 125 381 139.7 219.1 602 123 22.1 1707MS 21/01.c.2.1.025.150 MS 21/01.s.2.1.025.150 150 457 168.3 244.5 602 148 29.4 2024MS 21/01.c.2.1.025.200 MS 21/01.s.2.1.025.200 200 521 219.1 272 1100 195 72 2720

MS 21/01.c.2.1.040.015 MS 21/01.s.2.1.040.015 15 140 21.3 42.4 161

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the

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nt

9 0.95 16.3MS 21/01.c.2.1.040.015 MS 21/01.s.2.1.040.015 15 140 21.3 42.4 161 12.5 0.95 16.3MS 21/01.c.2.1.040.020 MS 21/01.s.2.1.040.020 20 152 26.9 51 161 17 1.54 29.5MS 21/01.c.2.1.040.025 MS 21/01.s.2.1.040.025 25 165 33.7 60.3 161 24 2.12 43MS 21/01.c.2.1.040.032 MS 21/01.s.2.1.040.032 32 178 42.4 73 174 30 3.2 89MS 21/01.c.2.1.040.040 MS 21/01.s.2.1.040.040 40 190 51 82.5 282.5 37 3.65 230MS 21/01.c.2.1.040.050 MS 21/01.s.2.1.040.050 50 216 60.3 101.6 311 48 5.67 265MS 21/01.c.2.1.040.065 MS 21/01.s.2.1.040.065 65 241 76.1 127 289 64 8.18 540MS 21/01.c.2.1.040.080 MS 21/01.s.2.1.040.080 80 283 88.9 139.7 382 75 8.9 873MS 21/01.c.2.1.040.100 MS 21/01.s.2.1.040.100 100 305 114.3 177.8 602 98 15.5 1390MS 21/01.c.2.1.040.125 MS 21/01.s.2.1.040.125 125 381 139.7 219.1 602 123 22.1 1707MS 21/01.c.2.1.040.150 MS 21/01.s.2.1.040.150 150 457 168.3 244.5 602 148 29.4 2024

PN 25

PN 40

PN 16


Code DN L D A L1 H Dmin Weight Kvmm

mm

mmCode DN L D A L1 H Dmin Weight Kv

kg

kg

kg

MS2

1/01

.c.1

.1 M

S21/

01.s

.2.1

43

DIMENSIONS & WEIGHT

6

28 111

10

7

12

4

3

59

1314



PTFE50

40

30

20

10

-29 0 100 200

Pres

sure

, bar

Temperature, °C

PN25

PN40

PN16


DESIGN

Working pressure, not higher than.....16bar(class B20), 25bar(class B25), 40bar(class B40)Working medium temperature..............from – 29°C to +180°CWorking medium...............MS 21/01.c.water, gas, oil products and other nontoxic and non- aggressive medium, neutral for ball valve components MS 21/01.s.water, gas, oil products and other including aggressive medium and neutral one for ball valve componentsEnvironment temperature.....................not less than – 29°CQuantity of work cycles........................not less than 5000Full lifetime............................................not less than 30 yearsPipeline connection...............................flanged endsControl means........................................handleFace-to-face dimension.........................according to EN 558-1Flanges connection................................according to EN 1092-1Pressure tests.........................................according to EN 12266-1Ball valve manufacturing......................according to EN 1983




Single body all-welded ball valve with extend-ed stem. Reduced bore. Flanged ends design. All body component parts are joined by welding. Ball valve is maintenance-free.

Design types:MS21.c – made of carbon steel. MS21.s – made of stainless steel. Free floating ball is sealed with teflon seats.

Both seats are pressed to the ball by spring wash-ers.Stem is protected from extrusion and sealed by teflon rings tightened by a press-on bush. An extended stem makes remote installation of a ball valve in an inaccessible place possible with op-erating handle located away from the ball valve. Ball valve control is performed manually by turn-ing a handle at an angle of 90˚ up to the full stop. Handle axis is parallel to bore axis so its position indicates ball valve “open” or “closed” state. Ball valve is intended to be installed on the pipeline horizontally with stem directed upwards and with working medium flow applied from any direction.



Ball valvesReduced boreMS 21/01.c.1.1

MS 21/01.s.1.1


MS 21/01.c.1.1.016.020/015 MS 21/01.s.1.1.016.020/015 020/015 150 105 75 58 189 264

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gree

men

t with

the

clie

nt

12.5 14 4 2.5 10MS 21/01.c.1.1.016.025/020 MS 21/01.s.1.1.016.025/020 025/020 160 115 85 68 189 269 17 14 4 3.3 21MS 21/01.c.1.1.016.032/025 MS 21/01.s.1.1.016.032/025 032/025 180 140 100 78 189 279 24 18 4 4.7 32MS 21/01.c.1.1.016.040/032 MS 21/01.s.1.1.016.040/032 040/032 200 150 110 88 281 381.5 30 18 4 5.45 60MS 21/01.c.1.1.016.050/040 MS 21/01.s.1.1.016.050/040 050/040 230 165 125 102 281.5 396.5 37 18 4 7.54 150MS 21/01.c.1.1.016.065/050 MS 21/01.s.1.1.016.065/050 065/050 290 185 145 122 261.5 426.5 48 18 8 9.34 160MS 21/01.c.1.1.016.080/065 MS 21/01.s.1.1.016.080/065 080/065 310 200 160 138 289 444 64 18 8 12.76 380MS 21/01.c.1.1.016.100/080 MS 21/01.s.1.1.016.100/080 100/080 350 220 180 158 421.5 596.5 75 18 8 26.65 510MS 21/01.c.1.1.016.125/100 MS 21/01.s.1.1.016.125/100 125/100 400 250 210 188 602 802 98 18 8 27.0 590MS 21/01.c.1.1.016.150/125 MS 21/01.s.1.1.016.150/125 150/125 480 285 240 212 602 842 123 22 8 36.5 680MS 21/01.c.1.1.016.200/150 MS 21/01.s.1.1.016.200/150 200/150 600 340 295 268 602 902 148 22 12 62.3 1830MS 21/01.c.1.1.016.250/200 MS 21/01.s.1.1.016.250/200 250/200 730 405 355 320 1100 1465 195 26 12 86.5 3655

MS 21/01.c.1.1.025.020/015 MS 21/01.s.1.1.025.020/015 020/015 150 105 75 58 189 264

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gree

men

t with

the

clie

nt

12.5 14 4 2.5 10MS 21/01.c.1.1.025.025/020 MS 21/01.s.1.1.025.025/020 025/020 160 115 85 68 189 269 17 14 4 3.3 21MS 21/01.c.1.1.025.032/025 MS 21/01.s.1.1.025.032/025 032/025 180 140 100 78 189 279 24 18 4 4.7 32MS 21/01.c.1.1.025.040/032 MS 21/01.s.1.1.025.040/032 040/032 200 150 110 88 281.5 381.5 30 18 4 5.45 60MS 21/01.c.1.1.025.050/040 MS 21/01.s.1.1.025.050/040 050/040 230 165 125 102 281.5 396.5 37 18 4 7.86 150MS 21/01.c.1.1.025.065/050 MS 21/01.s.1.1.025.065/050 065/050 290 185 145 122 289 426.5 48 18 8 10.0 160MS 21/01.c.1.1.025.080/065 MS 21/01.s.1.1.025.080/065 080/065 310 200 160 138 289 414 64 18 8 14.3 380MS 21/01.c.1.1.025.100/080 MS 21/01.s.1.1.025.100/080 100/080 350 235 190 162 421 596.5 75 22 8 29.6 510MS 21/01.c.1.1.025.125/100 MS 21/01.s.1.1.025.125/100 125/100 400 270 220 188 602 802 98 26 8 3.8 590MS 21/01.c.1.1.025.150/125 MS 21/01.s.1.1.025.150/125 150/125 480 300 250 218 602 842 123 26 8 45.0 680MS 21/01.c.1.1.025.200/150 MS 21/01.s.1.1.025.200/150 200/150 600 360 310 278 602 902 140 26 12 75 1830MS 21/01.c.1.1.025.250/200 MS 21/01.s.1.1.025.250/200 250/200 730 425 370 335 1100 1465 195 30 12 93.6 3655

MS 21/01.c.1.1.040.020/015 MS 21/01.s.1.1.040.020/015 020/015 150 105 75 58 189 264

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men

t with

the

clie

nt

12.5 14 4 2.5 10MS 21/01.c.1.1.040.025/020 MS 21/01.s.1.1.040.025/020 025/020 160 115 85 68 189 269 17 14 4 3.3 21MS 21/01.c.1.1.040.032/040 MS 21/01.s.1.1.040.032/040 032/025 180 140 100 78 189 279 24 18 4 4.7 32MS 21/01.c.1.1.040.040/032 MS 21/01.s.1.1.040.040/032 040/032 200 150 110 88 281.5 381.5 30 18 4 5.45 60MS 21/01.c.1.1.040.050/040 MS 21/01.s.1.1.040.050/040 050/040 230 165 125 102 281.5 396.5 37 18 4 7.86 150MS 21/01.c.1.1.040.065/050 MS 21/01.s.1.1.040.065/050 065/050 290 185 145 122 281.5 426.5 48 18 8 10.0 160MS 21/01.c.1.1.040.080/065 MS 21/01.s.1.1.040.080/065 080/065 310 200 160 138 380.5 444 64 18 8 14.3 380MS 21/01.c.1.1.040.100/080 MS 21/01.s.1.1.040.100/080 100/080 350 235 190 162 421 546.5 75 22 8 29.6 510MS 21/01.c.1.1.040.125/100 MS 21/01.s.1.1.040.125/100 125/100 400 270 220 188 602 802 98 26 8 3.8 590MS 21/01.c.1.1.040.150/125 MS 21/01.s.1.1.040.150/125 150/125 480 300 250 218 602 842 123 26 8 45.0 680MS 21/01.c.1.1.040.200/150 MS 21/01.s.1.1.040.200/150 200/150 600 375 320 285 602 902 148 30 12 75 1830

PN 16

PN 25

PN 40




mm

mm

mm

kg

kg

kg

MS2

1/01

.c.1

.1 M

S21/

01.s

.1.1

45

DIMENSIONS & WEIGHT

27

8 6

1 10

12

4

3

5

13

14

9

11


DESIGN



PTFE50

40

30

20

10

-29 0 100 200

Pres

sure

, bar

Temperature, °C

PN25

PN40

PN16

№ PART NAME MATERIAL MS 21.c MATERIAL MS 21.s

Working pressure, not higher than.....16bar(class B20), 25bar(class B25), 40bar(class B40)Working medium temperature..............from – 29°C to +180°CWorking medium..............MS 21/01.c water, gas, oil products and other nontoxic and non- aggressive medium, neutral for ball valve components MS 21/01.s water, gas, oil products and other including aggressive medium and neutral one for ball valve componentsEnvironment temperature.....................not less than – 29°CQuantity of work cycles........................not less than 5000Full lifetime............................................not less than 30 yearsPipeline connection...............................welding endsControl means........................................handleEnd-to-end dimension...........................according to EN 12982Welding ends..........................................according to EN 12627Pressure tests.........................................according to EN 12266-1Ball valve is manufacturing..................according to EN 1983Welding end ball valves are designated for

installation in pipelines of water and gas sup-plying systems, for application in heat- power engineering and in chemical, oil-refining, gas and other industries as a closure device blocking liquid and gaseous working medium flow. A ball valve made of stainless steel can be used in food industry. Manufacturer company has available a comprehensive information range regarding the consequences of working medium influence on different types of material and has an opportunity to propose to the client such a ball valve type, that would correspond all the specified parameters.

All-welded ball valve with extended stem has a full bore and welding end design. The ball valve has non-split body. All the body components are jointed by welding. The ball valve is related to a nonrepairable and nonservicing class of devices.

Design type:MS 21/01.c - produced from carbon steel. MS 21/01.s - produced from stainless steel.

Free floating ball is sealed with teflon seats. Both seats are pressed to the ball by spring washers. Stem is protected from extrusion and sealed by teflon rings tightened by a press-on bush. An ex-tended stem makes remote installation of the ball valve in an inaccessible place possible with op-erating handle located away from the ball valve. Control of the ball valve is performed manually by turning a handle at an angle of 90° up to the stop. Handle axis is parallel to bore axis so its position indicates the ball valve “open” or “closed” state. In the ball valve “open” state, handle is parallel to a pipeline axis. The ball valve is intended to be installed in horizontal position in the pipeline with stem directed upwards and for use with working medium streaming in any direction.




Ball valvesReduced boreMS 21/01.c.1.1

MS 21/01.s.1.1


MS 21/01.c.2.1.016.020/015MS 21/01.s.2.1.016.020/015 20/15 152 26.9 42.4 189

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the

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nt

12.5 1.23 10MS 21/01.c.2.1.016.025/020 MS 21/01.s.2.1.016.025/020 25/20 165 33.7 51 189 17 1.7 21MS 21/01.c.2.1.016.032/025 MS 21/01.s.2.1.016.032/025 32/25 178 42.4 60.3 189 24 2.56 32MS 21/01.c.2.1.016.040/032 MS 21/01.s.2.1.016.040/032 40/32 190 51 73 281.5 30 2.9 60MS 21/01.c.2.1.016.050/040 MS 21/01.s.2.1.016.050/040 50/40 216 60.3 82.5 281.5 37 4.54 150MS 21/01.c.2.1.016.065/050 MS 21/01.s.2.1.016.065/050 65/50 241 76.1 101.6 281.5 48 6.54 160MS 21/01.c.2.1.016.080/065 MS 21/01.s.2.1.016.080/065 80/65 283 88.9 127 289 64 7.12 380MS 21/01.c.2.1.016.100/080 MS 21/01.s.2.1.016.100/080 100/80 305 114.3 139.7 421.5 75 12.0 510MS 21/01.c.2.1.016.125/100 MS 21/01.s.2.1.016.125/100 125/100 381 138.7 177.8 602 98 17.68 590MS 21/01.c.2.1.016.150/125 MS 21/01.s.2.1.016.150/125 150/125 457 168.3 219.1 602 123 23.5 680MS 21/01.c.2.1.016.200/150 MS 21/01.s.2.1.016.200/150 200/150 521 219.1 244.5 602 148 36.5 1830MS 21/01.c.2.1.016.250/200 MS 21/01.s.2.1.016.250/200 250/200 559 273 325 1100 195 79 3655

MS 21/01.c.2.1.025.020/015 MS 21/01.s.2.1.025.020/015 20/15 152 26.9 42.4 189

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nt

12.5 1.23 10MS 21/01.c.2.1.025.025/020 MS 21/01.s.2.1.025.025/020 25/20 165 33.7 51 189 17 1.7 21MS 21/01.c.2.1.025.032/025 MS 21/01.s.2.1.025.032/025 32/25 178 42.4 60.3 189 24 2.56 32MS 21/01.c.2.1.025.040/032 MS 21/01.s.2.1.025.040/032 40/32 190 51 73 281.5 30 2.9 60MS 21/01.c.2.1.025.050/040 MS 21/01.s.2.1.025.050/040 50/40 216 60.3 82.5 281.5 37 4.54 150MS 21/01.c.2.1.025.065/050 MS 21/01.s.2.1.025.065/050 65/50 241 76.1 101.6 281.5 48 6.54 160MS 21/01.c.2.1.025.080/065 MS 21/01.s.2.1.025.080/065 80/65 283 88.9 127 289 64 7.3 380MS 21/01.c.2.1.025.100/080 MS 21/01.s.2.1.025.100/080 100/80 305 114.3 139.7 421.5 75 12.56 510MS 21/01.c.2.1.025.125/100 MS 21/01.s.2.1.025.125/100 125/100 381 138.7 177.8 602 98 17.68 590MS 21/01.c.2.1.025.150/125 MS 21/01.s.2.1.025.150/125 150/125 457 168.3 219.1 602 123 26.0 680MS 21/01.c.2.1.025.200/150 MS 21/01.s.2.1.025.200/150 200/150 521 219.1 244.5 602 148 1830MS 21/01.c.2.1.025.250/200 MS 21/01.s.2.1.025.250/200 250/200 559 273 325 1100 195 3655

MS 21/01.c.2.1.040.020/015 MS 21/01.s.2.1.040.020/015 20/15 152 26.9 42.4 189

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the

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nt

12.5 1.23 10MS 21/01.c.2.1.040.025/020 MS 21/01.s.2.1.040.025/020 25/20 165 33.7 51 189 17 1.7 21MS 21/01.c.2.1.040.032/025 MS 21/01.s.2.1.040.032/025 32/25 178 42.4 60.3 189 24 2.56 32MS 21/01.c.2.1.040.040/032 MS 21/01.s.2.1.040.040/032 40/32 190 51 73 281.5 30 2.9 60MS 21/01.c.2.1.040.050/040 MS 21/01.s.2.1.040.050/040 50/40 216 60.3 82.5 281.5 37 4.7 150MS 21/01.c.2.1.040.065/050 MS 21/01.s.2.1.040.065/050 65/50 241 76.1 101.6 281.5 48 7.0 160MS 21/01.c.2.1.040.080/065 MS 21/01.s.2.1.040.080/065 80/65 283 88.9 127 289 64 7.4 380MS 21/01.c.2.1.040.100/080 MS 21/01.s.2.1.040.100/080 100/80 305 114.3 139.7 421.5 75 13.2 510MS 21/01.c.2.1.040.125/100 MS 21/01.s.2.1.040.125/100 125/100 381 138.7 177.8 602 98 18.3 590MS 21/01.c.2.1.040.150/125 MS 21/01.s.2.1.040.150/125 150/125 457 168.3 219.1 602 123 26.0 680MS 21/01.c.2.1.040.200/150 MS 21/01.s.2.1.040.200/150 200/150 521 219.1 244.5 602 148 63 1830

PN 16

PN 25

PN 25




mm

mm

mm

kg

kg

kg

MS2

1/01

.c.2

.1 M

S21/

01.s

.2.1

4747

DIMENSIONS & WEIGHT


Single body all-welded ball valve with ex-tended stem. Reduced bore. Welding ends de-sign. All body component parts are joined by welding. Ball valve is maintenance-free.

Design types:MS21/01.c – made of carbon steel. MS21/01.s – made of stainless steel. Free floating ball is sealed with teflon seats.

Both seats are pressed to the ball by spring washers.Stem is protected from extrusion and sealed by teflon rings tightened by a press-on bush. An extended stem makes remote installa-tion of a ball valve in an inaccessible place pos-sible with operating handle located away from the ball valve. Ball valve control is performed manually by turning a handle at an angle of 90˚ up to the full stop. Handle axis is parallel to bore axis so its position indicates ball valve “open” or “closed” state. Ball valve is intended to be installed on the pipeline horizontally with stem directed upwards and with working medium flow applied from any direction.

Working pressure, not higher than.......63bar, 100bar, 160 barWorking medium temperature................from – 29°C to +180°CWorking medium......................................water, gas, oil products and other nontoxic and non- aggressive medium, neutral for ball valve componentsPressure tests...........................................according to EN 12266-1Environment temperature.......................not less than – 29°CQuantity of work cycles..........................not less than 5000Full lifetime...............................................not less than 30 yearsPipeline connection.................................flanged endsControl means..........................................handleFace-to-face dimension...........................according to EN 558-1Ball valve manufacturing.........................according to EN 1983Flanges connection.................................according to EN 1092

2

73

12 1 8 9 16

10 18

1714

15

5

134

6

11

19

17


DESIGN



1 Body GP240GH 1.06192 Flange GP240GH 1.06193 Ball X12Gr NiTi18-9 1.48784 Stem X39Cr13 1.40315 Gland housing C22E 1.11516 Press-on bush C22E 1.11517 Ball seat PTFE8 Seat ring C22E 1.11519 Spring washer DIN 17221 60Si7 1.5027

10 Body gasket PTFE11 Stem seat PTFE12 Gasket ring Rubber13 Ring PTFE14 Bearing sleeve Bronze15 Handle GP240GH 1.061916 Stud 34Cr4 1.703317 Nut 5 Zn (ISO 4034)18 Washer DIN17221 60Si7 1.5027 (ISO 82008)19 Washer C10E 1.1121 (ISO7089)

MATERIALS LIST

PTFE200

160

120

80

40

-29 0 100 200

Pres

sure

, bar

Temperature, °C

PN100

PN160

PN63



PN 63

PN 100

PN 160

MS

01.

c.1.

1

kg

4949

DIMENSIONS & WEIGHT

MS01.c.1.1.063.010 10 165 100 70 40 190 94 9 14 272.5 4 3.5 6MS01.c.1.1.063.015 15 165 105 75 45 190 94 12.5 14 272.5 4 3.8 16.3MS01.c.1.1.063.020 20 190 130 90 58 190 98 17 18 285 4 7.6 29.5MS01.c.1.1.063.025 25 216 140 100 68 314 102.5 24 18 422 4 12.2 43MS01.c.1.1.063.032 32 229 155 110 78 314 106.5 30 22 429.5 4 15.1 89MS01.c.1.1.063.040 40 241 170 125 88 314 111.5 37 22 434.5 4 20.3 230MS01.c.1.1.063.050 50 292 180 135 102 400 139.5 48 22 546 4 27.6 265MS01.c.1.1.063.065 65 330 205 160 122 400 154 64 22 565 8 35.7 540MS01.c.1.1.063.080 80 356 215 170 138 400 169.5 75 22 578 8 43.6 873MS01.c.1.1.063.100 100 432 250 200 162 517 195.5 98 26 733 8 52.3 1390

MS01.c.1.1.100.010 10 165 100 70 40 190 94 9 14 272.5 4 3.5 6MS01.c.1.1.100.015 15 165 105 75 45 190 94 12.5 14 272.5 4 3.8 16.3MS01.c.1.1.100.020 20 190 130 90 58 190 98 17 18 285 4 7.6 29.5MS01.c.1.1.100.025 25 216 140 100 68 314 102.5 24 18 422 4 12.6 43MS01.c.1.1.100.032 32 229 155 110 78 314 106.5 30 22 429.5 4 15.8 89MS01.c.1.1.100.040 40 241 170 125 88 314 111.5 37 22 434.5 4 20.8 230MS01.c.1.1.100.050 50 292 195 145 102 400 139.5 48 26 546 4 28.6 265MS01.c.1.1.100.065 65 330 220 170 122 400 154 64 26 565 8 36.6 540MS01.c.1.1.100.080 80 356 230 180 138 400 169.5 75 26 578 8 44.5 873MS01.c.1.1.100.100 100 432 265 210 162 517 195.5 98 30 733 8 53.6 1390

MS01.c.1.1.160.010 10 229 121 82.6 35.1 190 102 12.5 22.2 304.5 4 7.6 6MS01.c.1.1.160.015 15 229 130 88.9 42.9 190 102 17 22.2 304.5 4 9.2 16.3MS01.c.1.1.160.025 25 254 149 101.6 50.8 314 106.5 24 25.4 441 4 15.1 43MS01.c.1.1.160.032 32 278 159 111.1 63.5 314 113.5 30 25.4 454 4 19 89MS01.c.1.1.160.040 40 305 178 123.8 73.2 314 120 37 28.6 467 4 25 230MS01.c.1.1.160.050 50 368 216 165.1 91.9 400 140 48 25.4 584 8 34.3 265MS01.c.1.1.160.065 65 419 244 190.5 104.6 400 155 64 28.6 610 8 43.9 540MS01.c.1.1.160.080 80 381 241 190.5 127 400 170 75 25.4 591 8 53.4 873




mm

mm

mm

kg

kg

2

7

3

12 1 8 9 16

10

17

1814

15

5

134

6

11

19

17DESIGNATION AND APPLICATION AREA

DESIGN



PTFE200

160

120

80

40

-29 0 100 200

Pres

sure

, bar

Temperature, °C

PN100

PN160

PN63

1 Body GP240GH 1.06192 Ends connection GP240GH 1.06193 Ball X12Gr NiTi18-9 1.48784 Stem X39Cr13 1.40315 Gland housing C22E 1.11516 Press-on bush C22E 1.11517 Ball seat PTFE8 Seat ring C22E 1.11519 Spring washer DIN 17221 60Si7 1.5027

10 Body gasket PTFE11 Stem seat PTFE12 Gasket ring Rubber13 Ring PTFE14 Bearing sleeve Bronze15 Handle GP240GH 1.061916 Stud 34Cr4 1.703317 Nut 5 Zn (ISO 4034)18 Washer DIN17221 60Si7 1.5027 (ISO 82008)19 Washer C10E 1.1121 (ISO7089)




Split body ball valve. Full bore. Flanged ends design. Ball valve body is made of carbon steel. Shutoff ball is settled on a support. Teflon seats in metallic seat rings are pressed against the shutoff ball by spring washers. Stem is protected from extrusion and sealed by teflon rings tight-ened by a press-on-bush. Teflon gaskets are used to seal the body component parts. Drain-ing plug for letting the water and condensate out of valve body. Pressure relieving valve. Ball valve control is performed manually by turning a handle at an angle of 90˚ up to the full stop. Handle axis is parallel to bore axis so its position indicates ball valve “open” or “closed” state. Ball valve is intended to be installed on the pipeline in any position with working medium flow applied from any direction.

Working pressure, not higher than.......63bar, 100bar, 160barWorking medium temperature................from – 29°C to +180°CWorking medium......................................water, gas, oil products and other nontoxic and non- aggressive medium, neutral for ball valve componentsPressure tests...........................................according to EN 12266-1Environment temperature.......................not less than – 29°CQuantity of work cycles..........................not less than 5000Full lifetime...............................................not less than 30 yearsPipeline connection.................................welding endsControl means..........................................handleEnd-to-end dimension.............................according to EN 12627Ball valve manufacturing........................according to EN 1983Welding ends............................................according to EN 12982

MS01.c.2.1.100.010 10 165 21 6 52 190 86 9 2.9 6MS01.c.2.1.100.015 15 165 26 6.75 52 190 94 12.5 3.1 16.3MS01.c.2.1.100.020 20 190 29 6 60 190 98 17 5.7 29.5MS01.c.2.1.100.025 25 216 40 8 72 314 102.5 24 11.1 43MS01.c.2.1.100.032 32 229 48 9 76 314 106.5 30 12.9 89MS01.c.2.1.100.040 40 241 56 9.5 100 314 111.5 37 15.2 230MS01.c.2.1.100.050 50 292 67 11 140 400 140 48 18.3 265MS01.c.2.1.100.065 65 330 82 10 170 400 154 64 24.5 540MS01.c.2.1.100.080 80 356 101 14.5 188 400 179.5 75 30.6 873MS01.c.2.1.100.100 100 432 124 13 250 517 195.5 98 36.8 1390

MS01.c.2.1.160.010 10 229 21 5 60 190 55 9 3.5 6MS01.c.2.1.160.015 15 229 26 6 60 190 55 12.5 3.7 16.3MS01.c.2.1.160.020 20 229 29 7 68 190 62 17 6.8 29.5MS01.c.2.1.160.025 25 254 40 8 82 314 68 24 13.3 43MS01.c.2.1.160.032 32 279 48 9 86 314 82 30 15.5 89MS01.c.2.1.160.040 40 305 56 10 120 314 120 37 18.8 230MS01.c.2.1.160.050 50 368 67 12 160 400 140 48 26 265MS01.c.2.1.160.065 65 419 89 14 190 400 155 64 32.5 540MS01.c.2.1.160.080 80 381 104 16 210 400 170 75 38.7 873

PN 63

PN 100

PN 160

Code DN L D T A L1 H Dmin Weight Kv

Code DN L D T A L1 H Dmin Weight Kv

MS

01.

c.2.

1

kg

51

DIMENSIONS & WEIGHT

MS01.c.2.1.063.010 10 165 21 6 52 190 86 9 2.9 6MS01.c.2.1.063.015 15 165 26 6.75 52 190 94 12.5 3.1 16.3MS01.c.2.1.063.020 20 190 29 6 60 190 98 17 5.7 29.5MS01.c.2.1.063.025 25 216 40 8 72 314 102.5 24 11.1 43MS01.c.2.1.063.032 32 229 48 9 76 314 106.5 30 12.9 89MS01.c.2.1.063.040 40 241 56 9.5 100 314 111.5 37 15.2 230MS01.c.2.1.063.050 50 292 67 10 140 400 139.5 48 18.3 265MS01.c.2.1.063.065 65 330 82 10 170 400 154 64 24.5 540MS01.c.2.1.063.080 80 356 104 14.5 188 400 169.5 75 30.6 873MS01.c.2.1.063.100 100 432 124 15 250 517 195.5 98 36.8 1390

Code DN L D T A L1 H Dmin Weight Kvmm

mm

mm

kg

kg

2 7

1216

3 9

1 8 17

10

14

134

115

6

15

18


Split body ball valve. Full bore. Flanged ends design. Ball valve body is made of carbon steel. Shutoff ball is settled on a support. Anti-static design. Teflon seats in metallic seat rings are pressed against the shutoff ball by springs. Emergency system of sealing lubricant injection. Stem is protected from extrusion and sealed by teflon rings tightened by a press-on-bush. Teflon gaskets are used to seal the body component parts. Draining plug for letting the water and condensate out of valve body. Pressure relieving valve. Ball valve control is performed manually by rotating of the actuator handwheel. State of the shutoff ball is controlled by a position indi-cator. Ball valve is intended to be installed on the pipeline in horizontal position with working medium flow applied from any direction.

Working pressure, not higher than.......63bar, 100bar, 160barWorking medium temperature................from – 29°C to +180°CWorking medium......................................water, gas, oil products and other nontoxic and non- aggressive medium, neutral for ball valve componentsPressure tests...........................................according to EN 12266-1Environment temperature.......................not less than – 29°CQuantity of work cycles..........................not less than 5000Full lifetime...............................................not less than 30 yearsPipeline connection.................................flanged endsControl means..........................................actuator handwheelFace-to-face dimension...........................according to EN 558-1Ball valve manufacturing.........................according to EN 1983Flanges connection...................................according to EN 1092-1


DESIGN



PTFE200

160

120

80

40

-29 0 100 200

Pres

sure

, bar

Temperature, °C

PN100

PN160

PN63

1 Body GP240GH 1.06192 Flange GP240GH 1.06193 Ball X12Gr NiTi18-9 1.48784 Stem X39Cr13 1.40315 Gland housing C22E 1.11516 Press-on bush C22E 1.11517 Ball seat PTFE8 Seat ring C22E 1.11519 Spring DIN 17221 60Si7 1.5027

10 Body gasket PTFE11 Stem seat PTFE12 Gasket ring Rubber13 Ring PTFE14 Bearing sleeve Bronze15 Handwheel GP240GH 1.061916 Stud 34Cr4 1.703317 Nut 5 Zn (ISO 4034)18 Washer DIN17221 60Si7 1.5027 (ISO 82008)



MS01.c.1.3.100.125 125 508 315 250 188 506 123 33 8 150.4 1707

MS01.c.1.3.100.150 150 559 355 290 218 522 150 33 12 286.1 2024

MS01.c.1.3.100.200 200 660 430 360 285 561 201 36 12 418.4 2720

MS01.c.1.3.160.100 100 457 292 235 157.2 472 98 31.8 8 85 1309

MS01.c.1.3.160.125 125 559 349 279.4 185.7 506 123 34.9 8 180.5 1707MS01.c.1.3.160.150 150 610 381 317.5 215.9 522 150 31.8 12 340 2024MS01.c.1.3.160.200 200 737 470 393.7 269.7 561 201 38.1 12 495 2720

MS01.c.1.3.063.125 125 508 295 240 188 506 123 30 8 150.4 1707

MS01.c.1.3.063.150 150 559 345 280 218 522 150 33 8 275.5 2024

MS01.c.1.3.063.200 200 660 415 345 285 561 201 36 12 395 2720

MS

01.

c.1.

3

PN 63

PN 100

PN 160

Code DN L D D1 D2 H Dmin d n Weight Kv



mm

mm

mm

kg

kg

kg

53

DIMENSIONS & WEIGHT

7

1217

3 9

1 8 16

10

18

14

134

11

5

6

15

2


Split body ball valve. Full bore. Welding ends design. Ball valve body is made of carbon steel. Shutoff ball is settled on a support. Anti-static design. Teflon seats in metallic seat rings are pressed against the shutoff ball by springs. Emergency system of sealing lubricant injection. Stem is protected from extrusion and sealed by teflon rings tightened by a press-on-bush. Teflon gaskets are used to seal the body component parts. Draining plug for letting the water and condensate out of valve body. Pressure relieving valve. Ball valve control is performed manually by rotating of the actuator handwheel. State of the shutoff ball is controlled by a position indi-cator. Ball valve is intended to be installed on the pipeline in horizontal position with working medium flow applied from any direction.

Working pressure, not higher than.......63bar, 100bar, 160barWorking medium temperature................from – 29°C to +180°CWorking medium......................................water, gas, oil products and other nontoxic and non- aggressive medium, neutral for ball valve componentsPressure tests...........................................according to EN 12266-1Environment temperature.......................not less than – 29°CQuantity of work cycles..........................not less than 5000Full lifetime...............................................not less than 30 yearsPipeline connection.................................welding endsControl means..........................................actuator handwheelEnd-to-end dimension.............................according to EN 12627Ball valve manufacturing........................according to EN 1983Welding ends...........................................according toEN 12982


DESIGN



PTFE200

160

120

80

40

-29 0 100 200

Pres

sure

, bar

Temperature, °C

PN100

PN160

PN63

1 Body GP240GH 1.06192 Ends connection GP240GH 1.06193 Ball X12Gr NiTi18-9 1.48784 Stem X39Cr13 1.40315 Gland housing C22E 1.11516 Press-on bush C22E 1.11517 Ball seat PTFE8 Seat ring C22E 1.11519 Spring DIN 17221 60Si7 1.5027

10 Body gasket PTFE11 Stem seat PTFE12 Gasket ring Rubber13 Ring PTFE14 Bearing sleeve Bronze15 Handwheel GP240GH 1.061916 Stud 34Cr4 1.703317 Nut 5 Zn (ISO 4034)18 Washer DIN17221 60Si7 1.5027 (ISO 82008)


Ball valvesFull boreMSA 01.c.2.3

MS01.c.2.3.063.125 125 508 148 17.5 332 506 123 74.7 1707

MS01.c.2.3.063.150 150 559 190 20 360 522 150 176 2024

MS01.c.2.3.063.200 200 660 240 22.5 440 561 201 344.6 2720

MS01.c.2.3.100.125 125 508 158 17.5 332 506 123 74.7 1707

MS01.c.2.3.100.150 150 559 190 20 360 522 150 176 2024

MS01.c.2.3.100.200 200 660 240 22.5 440 561 201 344.6 2720

MS01.c.2.3.160.100 100 457 135 17.5 270 472 98 65 1390

MS01.c.2.3.160.125 125 559 165 20 350 506 123 88.2 1707

MS01.c.2.3.160.150 150 610 195 22.5 380 522 150 210 2024

MS01.c.2.3.160.200 200 737 248 24 460 561 201 412 2720

PN 63

PN 100

PN 160

Code DN L D T A H Dmin Weight Kv



mm

mm

mm

MS

01.

c.2.

3

kg

kg

kg

5555

DIMENSIONS & WEIGHT

Flanged ends ball valves are designated for installation on the pipelines in water and gas supplying systems, for application in heat-power engineering and also in chemical, oil-refining, gas, food and other industries as a locking de-vice fully blocking liquid and gaseous as well as aggressive working medium flow. The manufac-turer has at his disposal a comprehensive infor-mational background on the consequences of working medium influence on different types of materials and can offer its customers a type of ball valve that would fully correspond to all the specified parameters.

Split body ball valve. Full bore. Flanged ends design. Cast ball valve body is made of stainless steel. The body is composed of two split parts. Free floating ball is sealed with teflon seats. Stem is protected from extrusion and sealed by teflon rings tightened by a press-on bush. Seats are pressed to the ball by spring washers. Teflon gaskets are used to seal the body component parts. Ball valve control is performed manually by turning a handle at an angle of 90˚ up to the full stop. Handle axis is parallel to bore axis so its position indicates ball valve “open” or “closed” state. In the “open” state handle is parallel to a pipeline axis. Ball valve is intended to be in-stalled on the pipeline in any position with work-ing medium flow applied from any direction.

Working pressure, not higher than.....16bar, 25barWorking medium temperature..............from – 29°C to +180°CWorking medium....................................water, gas, oil products and other including aggressive medium and neutral one for ball valve componentsEnvironment temperature.....................not less than – 29°C Quantity of work cycles.........................not less than 5000Full lifetime.............................................not less than 30 yearsPipeline connection............................... flanged endsControl means........................................handleFace-to-face dimension.........................according to EN 558Flanges connection...............................according to EN 1092-1Testing and inspection..........................according to ISO 5208

1 1

5

2 13 810

94

11

1416

12

14

15 7 6

3


Ball valvesFull boreMS 01.s.1.1


DESIGN



1 Body GXCrNi19-10 1.43082 Ball GXCrNi19-10 1.43083 Stem X12CrNiTi18-9 1.48784 Press-on bush X12CrNiTi18-9 1.48785 Ball seat PTFE6 Seat ring X12CrNiTi18-9 1.48787 Spring washer X39Cr13 1.40318 Body gasket PTFE9 Stem seat PTFE

10 Gasket ring Rubber11 Ring PTFE12 Handle GP240GH 1-061913 Stud A214 Nut A2 (ISO 4034)15 Retaining washer X12CrNiTi18-9 1.4878 16 Washer X12CrNiTi18-9 1.4878

MATERIALS LIST

PTFE

50

40

30

20

10

-29 0 100 200

Pres

sure

, bar

Temperature, °C

PN25

PN16

MS01.s.1.1.025.015 15 130 95 65 45 190 81 12.5 14 4 234 3.9 16.3MS01.s.1.1.025.020 20 150 105 75 58 190 84 17 14 4 238 4.7 29.5MS01.s.1.1.025.025 25 160 115 85 68 190 90 24 14 4 240 5.9 43MS01.s.1.1.025.032 32 180 140 100 78 314 103 30 18 4 372 7.7 89MS01.s.1.1.025.040 40 200 150 110 88 314 107 37 18 4 380 9 230MS01.s.1.1.025.050 50 230 165 125 102 314 115 48 18 4 404 11 265MS01.s.1.1.025.065 65 290 185 145 122 314 128 64 18 8 414 18 540MS01.s.1.1.025.080 80 310 200 160 138 384 136.5 75 18 8 459 24 873MS01.s.1.1.025.100 100 350 235 190 162 500 168 98 22 8 615 36 1390MS01.s.1.1.025.125 125 400 270 220 188 600 178 123 26 8 750 41 1707MS01.s.1.1.025.150 150 480 300 250 218 600 193 148 26 8 780 62 2024MS01.s.1.1.025.200* 200 600 360 310 278 200 502 195 26 12 630 116.5 2720

PN 25

* — Ball valve design with an actuator

57

MS01.s.1.1.016.015 15 130 95 65 45 190 81 12.5 14 234 4 3.9 16.3MS01.s.1.1.016.020 20 150 105 75 58 190 84 17 14 238 4 4.7 29.5MS01.s.1.1.016.025 25 160 115 85 68 190 90 24 14 240 4 5.9 43MS01.s.1.1.016.032 32 180 140 100 78 314 103 30 18 372 4 7.7 89MS01.s.1.1.016.040 40 200 150 110 88 314 107 37 18 380 4 8 230MS01.s.1.1.016.050 50 230 165 125 102 314 115 48 18 404 4 10 265MS01.s.1.1.016.065 65 290 185 145 122 314 128 64 18 414 8 14 540MS01.s.1.1.016.080 80 310 200 160 138 384 136.5 75 18 459 8 18 873MS01.s.1.1.016.100 100 350 220 180 158 500 168 98 18 615 8 32 1390MS01.s.1.1.016.125 125 400 250 210 188 600 178 123 18 750 8 36 1707MS01.s.1.1.016.150 150 480 285 240 212 600 193 148 22 780 8 57 2024MS01.s.1.1.016.200* 200 600 340 295 268 200 502 195 22 630 12 107 2720

DIMENSIONS & WEIGHTPN 16



mm

mm

kg

kg

MS

01.

s.1.

1

1017

14

12

79

815216 3 1

114

13

56

18


Threaded ends ball valves are designated for installation on the pipelines in water and gas supplying systems, for application in heat-power engineering and also in chemical, oil-refining, gas, food and other industries as a locking device fully blocking liquid and gaseous working medi-um flow. The manufacturer has at his disposal a comprehensive informational background on the consequences of working medium influence on different types of materials and can offer its customers a type of ball valve that would fully correspond to all the specified parameters.

Split body ball valve. Full bore. Threaded ends design. Free floating ball is sealed with teflon seats that are pressed against the shutoff ball by spring washers. Stem is protected from extrusion and sealed by teflon rings tightened by a press-on bush. Ball valve control is per-formed manually by turning a handle at an angle of 90˚ up to the full stop. Handle axis is parallel to bore axis so its position indicates ball valve “open” or “closed” state. In the “open” state handle is parallel to a pipeline axis. Ball valve is intended to be installed on the pipeline in any position with working medium flow applied from any direction.

Working pressure, not higher than.......63bar, 100bar, 160 barWorking medium temperature................from – 29°C to +180°CWorking medium......................................water, gas, oil products and other nontoxic and non- aggressive medium, neutral for ball valve componentsPressure tests...........................................according to EN 12266-1Environment temperature.......................not less than – 29°CQuantity of work cycles..........................not less than 5000Full lifetime...............................................not less than 30 yearsPipeline connection.................................threaded endsControl means..........................................handleBall valve manufactured..........................according to EN 1983Threaded ends.........................................with thread acc. to BSP. ISO 228


DESIGN



1 Body GP240GH 1.06192 Flange GP240GH 1.06193 Ball X12Gr NiTi18-9 1.4878 4 Stem X39Cr13 1.40315 Gland housing 1.1151 (C22E)6 Press-on bush 1.1181 (C35)7 Ball seat PTFE8 Seat ring 1.1151 (C22E)9 Spring washer DIN 17221 1.502 (60Si7)

10 Body gasket PTFE11 Stem seat PTFE12 Gasket ring Rubber13 Ring PTFE14 Handle 1.0619 (GP240GH)15 Stud 1.7033 (34Cr4)16 Nut 5 Zn (ISO 4034)17 Retaining washer DIN 17221 1.5022 (60Si7) (ISO 82008)18 Washer EN 10025 1.11.21 (C10E) (ISO 7089)

MATERIALS LIST

PTFE200

160

120

80

40

-29 0 100 200

Pres

sure

, bar

Temperature, °C

PN100

PN160

PN63


Note: It is possible to order ball valves with the taper pipe thread according to ISO7.1 (BSPT) or ANSI B1.20.1 (NPT).

59

PN 63

PN 100

PN 160 MS

01.

c.4.

1

59

DIMENSIONS & WEIGHT

MS01.c.4.1.063.010 10 75 32 52 3/8 180 55 217.5 11 9 1.1 6MS01.c.4.1.063.015 15 75 32 52 1/2 180 55 217.5 12 12.5 1.1 16.3MS01.c.4.1.063.020 20 85 32 60 3/4 180 62 222.5 14 17 1.4 29.5MS01.c.4.1.063.025 25 110 40 72 1 180 68 235 16 24 2.5 43MS01.c.4.1.063.032 32 120 52 76 11/4 314 82 374 20.5 30 3.7 89MS01.c.4.1.063.040 40 150 60 100 11/2 314 115 389 22 37 8.9 230MS01.c.4.1.063.050 50 200 72 122 2 400 144 500 24 48 13.5 265

MS01.c.4.1.100.010 10 75 32 52 3/8 180 55 217.5 11 9 1.1 6MS01.c.4.1.100.015 15 75 32 52 1/2 180 55 217.5 12 12.5 1.1 16.3MS01.c.4.1.100.020 20 85 32 60 3/4 180 62 222.5 14 17 1.4 29.5MS01.c.4.1.100.025 25 110 40 72 1 180 68 235 16 24 2.5 43MS01.c.4.1.100.032 32 120 52 76 11/4 314 82 374 20.5 30 3.7 89MS01.c.4.1.100.040 40 150 60 100 11/2 314 109 389 22 37 8.9 230MS01.c.4.1.100.050 50 200 72 122 2 400 144 500 24 48 13.5 265

MS01.c.4.1.160.010 10 75 32 52 3/8 180 55 217.5 11 9 1.1 6MS01.c.4.1.160.015 15 75 32 52 1/2 180 55 217.5 12 12.5 1.1 16.3MS01.c.4.1.160.020 20 85 32 60 3/4 180 62 222.5 14 17 1.4 29.5MS01.c.4.1.160.025 25 110 40 72 1 180 68 235 16 24 2.5 43MS01.c.4.1.160.032 32 120 52 76 11/4 314 82 374 20.5 30 3.7 89

Code DN L S A G L1 H B F Dmin Weight Kv



mm

mm

mm

G

A

S

kg

kg

kg

Threaded ends ball valves are designated for installation on the pipelines in water and gas supplying systems, for application in heat-power engineering and also in chemical, oil-refining, gas and other industries as a locking device fully blocking liquid and gaseous working medium flow. Ball valves made of stainless steel can be used in food industry. The manufacturer has at his disposal a comprehensive informational background on the consequences of working medium influence on different types of materials and can offer its customers a type of ball valve that would fully correspond to all the specified parameters.

Single body all-welded ball valve. Full and reduced bore. Threaded ends design. All body component parts are joined by welding. Ball valve is maintenance-free.

Design types:MS 21.c.4.1 – made of carbon steel. MS 21.s.4.1 – made of stainless steel. Free floating ball is sealed with teflon seats

that are pressed against the shutoff ball by spring washers. Stem is protected from extrusion and sealed by teflon rings tightened by a press-on bush. In the “open” state handle is parallel to pipe-line axis. Ball valve control is performed manually by turning a handle at an angle of 90˚ up to the full stop. Handle axis is parallel to bore axis so its position indicates ball valve “open” or “closed” state. . Ball valve is intended to be installed on the pipeline in any position with working medium flow applied from any direction.

Working pressure, not higher than......16bar, 25bar, 40barWorking medium temperature...............from – 29°C to +180°CWorking medium..............MS21.c.4.1 water, gas, oil products and other nontoxic and non- aggressive medium, neutral for ball valve components MS21.s..4.1 water, gas, oil products and other including aggressive medium and neutral one for ball valve componentsEnvironment temperature......................not less than – 29°CQuantity of work cycles.........................not less than 5000Full lifetime.............................................not less than 30 yearsPipeline connection................................threaded endsControl means.........................................handleTesting and inspection............................according to ISO 5208

7 6215

9

3

8

10

4

1211 13




Ball valvesFull bore&Reduced boreMS 21.c.4.1

MS 21.s.4.1


DESIGN


PRESSURE/TEMPERATURE RATING№ PART NAME MATERIAL MS21.c.4.1 MATERIAL MS21.s.4.1MATERIALS LIST

PTFE50

40

30

20

10

-29 0 100 200

Pres

sure

, bar

Temperature, °C

PN25

PN40

PN16


It is possible to order ball valves with the taper pipe thread according to ISO7.1 (BSPT) or ANSI B1.20.1 (NPT). M

S 21

.c.4

.1 M

S 21

.s.4

.1

61

DIMENSIONS & WEIGHT

MS21.c.4.1.016.010MS21.s.4.1.016.010 10 75 42.4 3/8 162.5 87 200 9 0.95 6

MS21.c.4.1.016.015/10MS21.s.4.1.016.015/10 10/15 75 42.4 1/2 162.5 87 200 9 0.91 7.5

MS21.c.4.1.016.015MS21.s.4.1.016.015 15 75 42.4 1/2 162.5 87 200 12.5 0.9 16.3

MS21.c.4.1.016.020/15MS21.s.4.1.016.020/15 20/15 80 42.4 3/4 162.5 87 202.5 12.5 0.92 10MS21.c.4.1.016.025/20MS21.s.4.1.016.025/20 25/20 90 51 1 162.5 94.5 207.5 17 1.03 21MS21.c.4.1.016.032/25MS21.s.4.1.016.032/25 32/25 110 60.3 11/4 162.5 100 217.5 24 1.5 32MS21.c.4.1.016.040/32MS21.s.4.1.016.040/32 40/32 120 73 11/2 174 118.5 234 30 2.75 60MS21.c.4.1.016.050/40 MS21.s.4.1.016.050/40 50/40 140 82.5 2 281 140 351 37 3.6 150

MS21.c.4.1.025.010MS21.c.4.1.025.010 10 75 42.4 3/8 162.5 87 200 9 0.95 6

MS21.c.4.1.025.015/10MS21.c.4.1.025.015/10 10/15 75 42.4 1/2 162.5 87 200 9 0.91 7.5

MS21.c.4.1.025.015MS21.c.4.1.025.015 15 75 42.4 1/2 162.5 87 200 12.5 0.9 16.3

MS21.c.4.1.025.020/15MS21.c.4.1.025.020/15 20/15 80 42.4 3/4 162.5 87 202.5 12.5 0.92 10MS21.c.4.1.025.025/20MS21.c.4.1.025.025/20 25/20 90 51 1 162.5 94.5 207.5 17 1.03 21MS21.c.4.1.025.032/25MS21.c.4.1.025.032/25 32/25 110 60.3 11/4 162.5 100 217.5 24 1.5 32MS21.c.4.1.025.040/32MS21.c.4.1.025.040/32 40/32 120 73 11/2 174 118.5 234 30 2.75 60MS21.c.4.1.025.050/40MS21.c.4.1.025.050/40 50/40 140 82.5 2 281 140 351 37 3.6 150

MS21.c.4.1.040.010MS21.c.4.1.040.010 10 75 42.4 3/8 162.5 87 200 9 0.95 6

MS21.c.4.1.040.015/10MS21.c.4.1.040.015/10 10/15 75 42.4 1/2 162.5 87 200 9 0.91 7.5

MS21.c.4.1.040.015MS21.c.4.1.040.015 15 75 42.4 1/2 162.5 87 200 12.5 0.9 16.3

MS21.c.4.1.040.020/15MS21.c.4.1.040.020/15 20/15 80 42.4 3/4 162.5 87 202.5 12.5 0.92 10MS21.c.4.1.040.040/20MS21.c.4.1.040.040/20 25/20 90 51 1 162.5 94.5 207.5 17 1.03 21MS21.c.4.1.040.032/25MS21.c.4.1.040.032/25 32/25 110 60.3 11/4 162.5 100 217.5 24 1.5 32MS21.c.4.1.040.040/32MS21.c.4.1.040.040/32 40/32 120 73 11/2 174 118.5 234 30 2.75 60MS21.c.4.1.040.050/40MS21.c.4.1.040.050/40 50/40 140 82.5 2 281 140 351 37 3.7 150

PN 16

PN 25

PN 40

Code DN L A G” L1 H B Dmin Weight Kv



mm

mm

mm

mm

mm

mm

kg

kg

kg

G

Flanged gauze filters are designated for pro-tection of series installations, filtration and col-lecting of dirt particles. Filters are installed on the pipelines transporting liquid and gaseous working medium in water and gas supplying sys-tems, and are used in heat-power engineering, chemical, oil-refining, gas, and other industries. The manufacturer has at his disposal a compre-hensive informational background on the conse-quences of working medium influence on differ-ent types of materials and can offer its customers a type of gauze filter that would fully correspond to all the specified parameters.

Gauze filter. Flanged ends design. Cast body and cover are sealed with teflon gaskets. Gauze filter element is made of stainless steel. Gauze filter is intended to be installed on the pipeline in horizontal position with the cover directed down-wards. In case of application in gas pipeline systems the cover should be directed sideway. Gauze filter installation in vertical position is pos-sible only with working medium flow top-down. Working medium flow direction in accordance with an arrow direction shown on the body.

Working pressure, not higher than........16 bar, 25 bar (steel body), 16 bar (cast iron body)Working medium temperature.................from – 29°C to +180°C (steel body), from – 15°C to +180°C (cast iron body)Working medium.......................................water, gas, oil products and other nontoxic and non-aggressive medium, neutral for filter componentsEnvironment temperature........................not less than – 29°CFull lifetime................................................not less than 30 yearsPipeline connection..................................flanged endsFlange connection....................................according to EN 1092 - 1Face-to-face dimension............................according to EN 558-1

2

1

65

789

4

3


Gauze filterMS 60.1


DESIGN


PRESSURE/TEMPERATURE RATING№ PART NAME MATERIAL (STEEL BODy) MATERIAL (CAST IRON BODy)

1 Body GP240GH 1.0619 EN-GJL-250

2 Cover GP240GH 1.0619 EN-GJL-250

3 Gauze element X4GrNiTi18-2 1.4303

4 Body gasket PTFE

5 Drain plug C22E 1.1151

6 Bolt 5.8 Zn (ISO 4017)

7 Nut 5 Zn (ISO 4034)

8 Retaining washer DIN 17221 1.5027 (60Si7) (ISO 82008)

9 Washer ClOE 1.1121 (ISO 7089)

MATERIALS LIST

50

40

30

20

10

-29 0 100 200

Pres

sure

, bar

Temperature, °C

PN25

PN16

63

MS60.1.0.016.015 15 130 95 65 45 14 4 137 168 2.3 5.8MS60.1.0.016.020 20 150 105 75 58 14 4 155 194 3.1 10.4MS60.1.0.016.025 25 160 115 85 68 14 4 174 217 4.1 16.4MS60.1.0.016.032 32 180 140 100 78 18 4 209.5 258 5.76 27.3MS60.1.0.016.040 40 200 150 110 88 18 4 214.5 262 8.41 42MS60.1.0.016.050 50 230 165 125 102 18 4 246 310 12.35 64.7MS60.1.0.016.065 65 290 185 145 122 18 8 292 380 18.27 86.9MS60.1.0.016.080 80 310 200 160 138 18 8 336 430 24.2 107.9MS60.1.0.016.100 100 350 220 180 158 18 8 400 530 39.7 217MS60.1.0.016.125 125 400 250 210 188 18 8 425 537 42.6 307.8MS60.1.0.016.150 150 480 285 240 212 22 8 520 690 75.8 436.7MS60.1.0.016.200 200 600 340 295 268 22 12 612.5 785.5 120.8 789.2

MS60.1.0.025.015 15 130 95 65 45 14 4 137 168 2.3 5.8MS60.1.0.025.020 20 150 105 75 58 14 4 155 194 3.1 10.4MS60.1.0.025.025 25 160 115 85 68 14 4 174 217 4.1 16.4MS60.1.0.025.032 32 180 140 100 78 18 4 209.5 258 5.76 27.3MS60.1.0.025.040 40 200 150 110 88 18 4 214.5 262 8.41 42MS60.1.0.025.050 50 230 165 125 102 18 4 246 310 12.8 64.7MS60.1.0.025.065 65 290 185 145 122 18 8 292 380 18.27 86.9MS60.1.0.025.080 80 310 200 160 138 18 8 336 430 25.8 107.9MS60.1.0.025.100 100 350 235 190 162 22 8 407.5 537.5 45 217MS60.1.0.025.125 125 400 270 220 188 26 8 435 547 52.6 307.8MS60.1.0.025.150 150 480 300 250 218 26 8 527.5 697.5 81.3 436.7MS60.1.0.025.200 200 600 360 310 278 26 12 622.5 795.5 135.6 789.2

DIMENSIONS & WEIGHTPN 16

PN 25

Code DN L D D1 D2 d n H H1 Weight Kv

Code DN L D D1 D2 d n H H1 Weight Kv

mm

mm

MS

60.

1

kg

kg

Date post:	07-Mar-2016
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