V V V V V V 25A Copper (Cu) and Zinc (Zn)-free Note 1) 32 to 100 V v v v v v v v MBlR V Water resistant V v V v V v V v 10Clean series Note 6) v v v v v v v v 32 to 125 20Copper Note 5) and Fluorine-free Note 6) Note 9) Note 9) Note 9) Note 9) Note 9) Note 9) Note 9) Note 9) XAl Change of rod end shape XB5 Oversized rod cylinder Note 6) v v v v v v v XB6 Heat resistant cylinder (10 to 150C
Symbol Symbol 4 Very low speed (7 to 50mm/s) specifications 1 Heat resistant (10 to 150C) specifications -XB13 -XB6 CY1B CY1B XB6 Bore Stroke H Magnetic holding force CY1S XB13 Bore Stroke CY1L Heat resistant specifications 1. Basic specifications Very low speed (7 to 50mm/s) specifications There is no sticking and slipping even at very low drive speeds of 7 to 50mm/s.
(Atmospheric conditions) 0.1 Note 1) This data indicates deterioration with age of the average number of particles per operation under the following test conditions. 5.0 Particulate generation [particles/cycle]
Specifications Bore size 6 to 63 (1/4" to 2-1/2") 50 to 150C (122 to 302F) Ambient and fluid temperature Max. operating pressure 72.5 PSI Piston speed 2.0 to 16 inch/s (50 to 400 mm/s) When using in less than 100C (212F) range, since it could make a difference in the maintenance cycle, depending on the operating speed, use it at 200 mm/s (7.9 inch/s) or less.
CAT.ES50-24 Stainless Steel 316 One-touch Fittings Material Fluid temperature 5 to 150C Metal parts: Stainless steel 316 Seal parts: Special FKM Can be used with steam. Grease-free Addition of applicable tubing (inch) and connection thread (NPT)!
Note 3) It can operate in temperatures between 10 to 150C if there is no risk of the moisture in the air freezing. VEX Refer to page 5-10-13 for Precautions on these products.
D-P3DWSC/P3DWSE D-P3DW D-P4DWSC/P4DWSE D-P4DWL 1317-1 Rail, Tie-rod, Direct Grommet Magnetic field resistant auto switch 1317-2 1317-3 Rail Grommet 1318 Rod Grommet D-P79WSE D-P74 1348 1349 Can be used in a high-temperature environment (Max. 150C).
CS2 -XA Change of rod end shape Heat resistant (150C) -XB6 Rod Boot Material -XC3 Special port positions -XC4 With heavy duty scraper Symbol J K Rod boot material Max. ambient temperature Heat resistant (110C) -XC5 70C Nylon tarpaulin Piston rod and rod end nut made of stainless steel 110C -XC6 Heat resistant tarpaulin Maximum ambient temperature for the rod boot itself.
-XA Change of rod end shape Heat resistant cylinder (150C) -XB6 -XB7 Cold resistant cylinder -XB9 Low speed cylinder (10 to 50 mm/s) -XB13 Low speed cylinder (5 to 50 mm/s) Auto Switch Mounting Bracket Part No.
) Single rod Single rod (spring return) Single rod Single rod (spring extend) Page 46 64 71 88 95 Symbol Specifications Applicable bore size 6 to 16 10, 16 Standard Standard 6 to 16 V V V V V V V D Built-in magnet V V V V V V V CJ2-A Air cushion 10, 16 V V 10-, 11Clean series*1 6 to 16 V V*9 v v 25ACopper (Cu) and Zinc (Zn)-free*5 10, 16 V v v v v v v XB6 Heat resistant cylinder (10 to 150C
Type Double acting Single rod Double rod Cushion Rubber Air Air Applicable bore size Specification Symbol 32 to 100 125 32 to 100 125 32 to 100 125 Standard Standard Long st Long stroke D Built-in magnet J K MBWith rod boot 32 to 125 10Clean series 20Copper and Fluorine-free R V MB Water resistant XA Change of rod end shape XB5 Oversized rod cylinder XB6 Heat-resistant cylinder (10 to 150C
MGP Series (Basic Type), Stroke Variations Stroke [mm] Bore size [mm] Bearing type Made to Order 10 20 25 30 40 50 75 100 125 150 175 200 250 300 350 400 12 -XA: Change of guide rod end shape -XB6: Heat resistant cylinder (10 to 150C) -XB10: Intermediate stroke (Using exclusive body) -XB13: Low speed cylinder (5 to 50 mm/s) -XC6: Made of stainless steel -XC8: Adjustable stroke cylinder/ Adjustable
Proof pressure D 0 to 150C Nut material PVDF Operating temperature MS 0 to 200C Nut material PFA LQ Withstand Pressure and Heat Resistance Performance Precautions MQR 4.0 T Be sure to read before handling. Refer to front matters 58 and 59 for Safety Instructions. 3.5 3.0 Piping Caution 2.5 Pressure (MPa) 1.
INFORMATION Heat Resistant 2-Color Indicator Solid State Auto Switch Direct Mounting Type RoHS Heat resistant (Max. 302F [150C]) type added to the D-M9 compact auto switch.
(Atmospheric conditions) 0.1 Note 1) This data indicates deterioration with age of the average number of particles per operation under the following test conditions. 5.0 Particulate generation [particles/cycle]
IIAston rod and rod end nut made of stainless steel Heat resistent (Max. 150C) nXB6 The cylinder seals have been changed 10 be 01 heal-resistant malenal to enable it's use under hightemperature (by 150C) circumstantial conditions of -10~-+TO"C.
Symbol Specifications -XA Change of rod end shape -XB6 Heat resistant cylinder (150C) w/o auto switch only -XB7 Cold resistant cylinder w/o auto switch only -XB9 Low speed cylinder (10 to 50 mm/s) -XB10 Intermediate stroke (Using exclusive body) -XB11 Long stroke type, Air-hydro type only -XB13 Low speed cylinder (5 to 50 mm/s) -XB14 Cylinder with heat resistant auto switch 16 to 63 only
surface Right flange surface Left flange surface Rear flange surface Right flange surface Nil Right flange surface Left flange surface A F J K M With indicator With indicator Without indicator Without indicator Flange side Flange side t Auto switch type r Temperature specifications XLA Symbol Auto switch Without auto switch (without built-in magnet) Remarks Temperature range 5 to 60C 5 to 150C
NCM -XA Change of rod end shape Minimum Stroke for Auto Switch Mounting Heat resistant cylinder (150C) -XB6 Standard Stroke NCA -XB7 Cold resistant cylinder -XB9 Low speed cylinder (10 to 50 mm/s) Maximum manufacturable stroke (mm) No. of auto switches mounted Standard stroke(1) (mm) Long stroke (mm) Bore size (mm) Model 2 D-XB13 Low speed cylinder (5 to 50 mm/s) 1 -XC4 With heavy duty scraper
(Max. 150C) Heat resistant Sensor section: Rail Amplifier section: DIN rail Grommet D-F7NJL 7-9-35 Wide range detection type Wide range detection D-G5NBL Band Grommet This auto switch can be mounted by tie-rod with using mounting bracket. For details, refer to page 7-9-46.