High Power ylinder Series RH ø, ø, ø, ø, ø, ø3, ø, ø RE RE RE Y X RH D- -X -X
High power cylinder: Smooth cushioning for high speed operation (3 low/medium speed operation with heavy loads The capacity to absorb to times more energy than general purpose cylinders. Supply/Exhaust port The diameter of the port orifice has been enlarged to support high speed operation. Relief valve adjusting screw Relief valve body The relief valve body rotates 3, enabling relief adjustment from any direction. (ø, ø, ø, ø) Mounting and ushion djustment Piping/mounting man-hours are the same as that of the general purpose cylinders. ushion adjustment (relief adjustment) man-hours are the same as the adjustment (cushion needle adjustment) for general purpose cylinders. Quality of ushioning (RHF-, Load mass kg, Supply pressure. MPa, Horizontal operation) Stroke [mm] 3 3 mm/s mm/s mm/s mm/s ( mm/s) ushion apacity uffer capacity [J] 1 High power cylinder General purpose cylinder mm/s 1. Time [s] 2. 3 ylinder size [mm]
Series RH mm/s) with light loads and ushion ring The long cushion ring can absorb larger energy (in terms of speed and mass). ushion seal Strong seals are used for improved high speed durability and cushioning performance. Relief valve The relief valve is used as a cushion valve and it provides better cushioning performance than a needle throttle of a general purpose cylinder. pplication Examples Opening/closing doors ( mm/s, several tens kg) Transfer equipment kg, mm/s (For ø) High speed Z-axis (Up to 3 mm/s, several kg) Relief valve body 2. Start cushioning 3. Working relief Supply/Exhaust port 4. Finish cushioning. Return Working Principle 1. efore cushioning ir passes via the clearance Supply/Exhaust port ushion seal ushion ring between the cushion seal and the piston rod to the supply/exhaust port. ushion port Relief valve Relief valve body Supply/Exhaust port ushion port Relief valve Piston ushion chamber ushion seal ushion chamber ushion chamber Relief valve ushion seal Piston The cushion seal establishes the cushion chamber. ir flows to the cushion port provided in the rod cover. ir passes through the relief valve provided in the relief valve body, through the inside of the rod cover, to the supply/exhaust port. Transferring to the opposite stroke, air passes through the cushion seal that functions as a check valve, and starts to push the piston. The cushion ring travels past the cushion seal, and the stroke becomes the opposite of step 1, and the movements shown in steps 1 through 4 above are carried out on the head cover side. RE RE RE Y X RH D- -X -X
Series RH Model Selection Model Selection Example of High Power ylinder Selection Example 1. Horizontal Drive Graph (1)-1 Horizontal Drive Supply Pressure. MPa Operating conditions RH3 4J Horizontal drive Graph (1)-1 Load mass M = kg Stroke St = mm Time for stroke required To =. s RH 1J RH 1J RH 4J RH 33J Estimate of the maximum speed verage stroke speed Vm = St/To = mm/s Maximum speed Vmax = 1. Vm = 1 mm/s Model selection by graph Load mass M = kg Max. speed Vmax = 1 mm/s Graph (1)-1 RH Load mass M (kg) 1 RH J RH J RH J. 3 Maximum speed Vmax (mm/s) Selection Example 2. Vertical Drive Graph (1)-2 Vertical Drive Supply Pressure. MPa Operating conditions Vertical drive Graph (1)-2 Load mass M = kg Stroke St = mm Time for stroke required To =. s Estimate of the maximum speed verage stroke speed Vm = St/To = mm/s Maximum speed Vmax = 1. Vm = 2 mm/s Model selection by graph Load mass M = kg Max. speed Vmax = 2 mm/s Graph (1)-2 RH Load mass M (kg) 1 RH 1J RH 1J RH3 4J RH 4J RH 33J RH J RH J RH J. 3 Maximum speed Vmax (mm/s) Maximum Energy bsorption ore size Maximum energy absorption (J) 33 4 3 4 1 1
ø omposed effective area So (mm 2 ) ø omposed effective area So (mm 2 ) ø omposed effective area So (mm 2 ) ø omposed effective area So (mm 2 ) 3 3 High Power ylinder Series RH System Selection pply η (cylinder load ratio) and Vmax (max. speed) and determine effective sectional area So. Refer to System Selection table, and the appropriate solenoid valve, speed control valve and bore size may be selected. 1, 2, 3, Maximum speed Vmax (mm/s) Maximum speed Vmax (mm/s) Maximum speed Vmax (mm/s) η=. Maximum speed Vmax (mm/s) η: ylinder load ratio Vmax: Maximum speed (Refer to page.)..3.1 η=...3.1 1, 2, 3, η=...3.1 1, 2, 3, η=...3.1 1, 2, 3, System Selection ore size Maximum speed (mm/s) 1 3 1 omposed effective area (mm 2 ). 3 1 1 3 1 3 1. 3 4.. 2.. 4 24 24 3 3 3. to.3 VQ (3.) VQ (.4) SY3 (.4) SX3 (.4) SYJ (4.) VQZ (3.) VQZ (.3) Solenoid valve ( ): Effective area [mm2] : Metal: Metal seal. to.4 VQ (.4) SY (.) SX (.) SYJ (.) VQZ (.) VQZ (.) VFS (.).2 to. VQ (.2) SY (.) SX (.) VQZ3 (.2) VQZ3 (.) VFR (.2) VFS (.) D 3 to 4 VQ (3.) VQ (3.) VFR3 (41.4) VFS3 (3.) E 4. to VFR (.) VFS (4.) 1-1- 2-1- 1-2- 2-1- 1-2- w e q r Speed controller 1-1- 2- q Solenoid valve ( to G) w Speed control valve (1- to ) e Piping 3 m r Silencer (Supply pressure. MPa) Elbow type Universal type In-line type Metal elbow type In-line type S1F (3.) S1F (3.) S1F (4.) S2 (2.) S (3.) S31F (.) S3,S3 (.3) S1F () S3,S3 (.3) S1F () S3,S3 (.3) S1F () S3, S3 (.3) S1F () S3, S3 (.3) S1F (4.) S3, S3 (.3) S31F () S3, S3 (.3) S1F () S3, S3 (.3) S1F () S (.) S (.) S (.) S1F( ) S331F () S1F () S3 () S3, S3 (.3) S1F () S3 () S3,S3 (.3) S (.) S (4) S (4) S (4) S1F () S331F () S1F () S3 () S3, S3 (.3) S (.) S (4) S (4) S (4) S4 (4) Note) Refer to page for maximum absorbed energy since cushioning ability may in some cases exceed the allowable cushioning ability if the cylinder is used under high speeds and large loads. 1 With One-touch fittings 2 Standard type Tubing O.D. Steel piping size ø 1/, 1/4 ø 1/4, 3/ ø 1/4, 3/ ø 1/4, 3/ ø 1/4, 3/ ø 1/4, 3/ ø 1/4, 3/ ø 1/4, 3/ ø 1/4, 3/ ø 1/4 1/4 1/4 ø ø 1/4, 3/ ø 1/4, 3/ 1/4, 3/ 3/ 3/ 3/ ø ø 1/4, 3/ 3/, ø 3/, ø 3/, ø 3/, ø 3/, ø RE RE RE Y X RH D- -X -X
Series RH ø omposed effective area So (mm 2 ) ø3 omposed effective area So (mm 2 ) ø omposed effective area So (mm 2 ) pply η (cylinder load ratio) and Vmax (max. speed) and determine effective sectional area So. Refer to System Selection table, and the appropriate solenoid valve, speed control valve and bore size may be selected. 1 ø 1, 2, 3, Maximum speed Vmax (mm/s) Maximum speed Vmax (mm/s) Maximum speed Vmax (mm/s) η=...3.1 η=...3.1 1, 2, 3, η=...3.1 1, 2, 3, System Selection ore size 3 Maximum speed (mm/s) 1 3 1 3 omposed effective area (mm 2 ). 1 2. 3 4. 1 3 4. 1 24. 4. 2.. 1. 3 3. 1 3 1. 3..2 to. VQ (.2) SY (.) SX (.) VQZ3 (.2) VQZ3 (.) VFR (.2) VFS (.) Solenoid valve ( ): Effective area [mm2] : Metal seal D 3 to 4 VQ (3.) VQ (3.) VFR3 (41.4) VFS3 (3.) E 4. to VFR (.) VFS (4.) F 2. to 1 VFR (2.) VFS (. ) VP (1 ) G 1 to 3 VFR (11) VFS (1) VP (3) 1-2- 1-2- 1-2- 2- Speed controller S4F (24) S431F (24) S1F () S (2) S4 (2) S4F (2) S431F (24) S (2) S4 (2) S4 (2) S4 (2) S4 (2) S4 (2) S4F (24) S431F (24) S1F () S (2) S4 (2) S4 (2) S4 (2) S4 (2) S () S (3) S (2) S4 (2) S (3) S () S () S () S () S4 (2) S () S () S () S () S (3) Note) Refer to page for the maximum absorbed energy since cushioning ability may in some cases exceed the allowable cushioning ability if the cylinder is used under high speeds and large loads. 1 With One-touch fittings 2 Standard type 1-1- 2- Elbow type Universal type In-line type Metal elbow type In-line type Tubing I.D. Steel piping size ø, ø 1/4 ø, ø 1/4, 3/ 3/, ø 3/, ø 3/, ø 1/2, ø ø, ø, ø 1/4, 3/ 3/, ø 1/2, ø 1/2, ø, ø, ø ø 3/, 1/2 3/, ø 1/2, ø 3/ 1/2, ø omposed effective area So (mm 2 ) 1 1, 2, 3, Maximum speed Vmax (mm/s) η: ylinder load ratio Vmax: Maximum speed (Refer to page.) η=...3.1 1
High Power ylinder Series RH ø, ø, ø, ø, ø, ø3, ø, ø How to Order High Power ylinder RH MW Type L F G Mounting style asic style xial foot style Rod side flange style Head side flange style Special function High power cylinder Electrical entry Grommet onnector Grommet Grommet onnector Terminal conduit DIN terminal Diagnostic indication (2-color indication) Grommet ore size mm mm mm mm mm 3 3mm mm mm Wiring (Output) 3-wire (NPN) 3-wire (PNP) 2-wire 3-wire (NPN) 3-wire (PNP) 2-wire 4-wire (NPN) 3-wire (NPN equivalent) 2-wire 24V 24V Port type Nil Rc TN NPT pplicable uto Switch/Refer to pages 11 to for further information on auto switches. Reed switch Solid state switch Diagnostic indication (2-color indication) Water resistant (2-color indication) With diagnostic output (2-color indication) Indicator light Yes No Yes No Yes No Yes Yes Lead wire length symbols:. m Nil (Example) MNW 1 m M (Example) MNWM 3 m L (Example) MNWL m Z (Example) MNWZ None N (Example) HN Load voltage Made to Order Refer to page for details. Number of auto switches Nil 2 pcs. S 1 pc. n n pcs. uto switch Nil Without auto switch (uilt-in magnet) For the applicable auto switch model, refer to the table below. ylinder stroke Refer to page for standard strokes. Since there are other applicable auto switches than listed, refer to page for details. For details about auto switches with pre-wired connector, refer to pages and 1. D-/M/MW auto switches are shipped together (not assembled). (Only auto switch mounting brackets are assembled before shipped.) D V, V V V, V V V, V V V V V or less V, V V or less 24 V or less V, V uto switch model pplicable bore size ø to ø3 MN MP M H MNW MPW MW H HNF ø, ø G GP K GW GPW KW G GF 3 4 4 3 33 34 44 W Lead wire length (m). (Nil) 1 (M) 3 (L) (Z) None (N) Pre-wired connector pplicable load I circuit I circuit I circuit I circuit I circuit I circuit Solid state auto switches marked with are produced upon receipt of order. D-V/MV/MWV/D-M(V)L types cannot be mounted. Do not indicate suffix N for no lead wire on D-4/G3/K3 models. Relay, PL Relay, PL PL Relay, PL RE RE RE Y X RH D- -X -X
Series RH Specifications JIS Symbol REF ore size Fluid Proof pressure Maximum operating pressure Minimum operating pressure mbient and fluid temperature Piston speed ushion Maximum energy absorption (J) Effective cushioning stroke Lubrication Stroke length tolerance Mounting 3 ir 1. MPa 1. MPa. MPa to (No freezing) to 3 mm/s ir cushion 33 Not required (Non-lube) +1.4 Up to st:, 1 to 1 st: +1. 4 4 1 1 asic style, xial foot style, Rod/Head side flange style Symbol X Made to Order (Refer to page 2 for details.) Specification Made of stainless steel Stroke ore size 3 Minimum stroke (Recommended) (1) Standard stroke (2) up to up to up to up to up to 1 up to 1 up to 1 up to 1 Max. stroke 1 1 1 1 1 1 1 1 Note 1) Strokes shorter than the recommended minimum stroke (1 to 24 st) can be manufactured, but cushion capability may not be satisfied since the effective cushion stroke for this cylinder is long. Note 2) Stroke exceeding the standard stroke length is not subject to the guarantee. Mounting racket Part No. Mounting bracket xial foot Flange Qty. 2 Note) 1 Note) Order 2 foot brackets for a cylinder. ore size 3 RH-L RH-L RH-L RH-L RH-L RH-L3 RH-L RH-L RH-F RH-F RH-F RH-F RH-F RH-F3 RH-F RH-F Description ø to ø : Foot x 2, Mounting nut x 1 ø to ø: Foot x 2, racket mounting bolt x, Spring washer x ø to ø : Flange x 1 ø to ø: Flange x 1, racket mounting bolt x 4, Spring washer x 4
High Power ylinder Series RH Theoretical Output OUT IN (N) ore size Rod size Operating Piston area Operating pressure (MPa) direction (mm 2 ).2.3.4..... 1. OUT 3 3 4 1 2 1 3 IN 4 1 4 2 2 OUT 41 1 24 2 344 33 442 41 IN 3 3 11 2 32 3 3 OUT 4 1 241 2 2 42 3 43 24 4 IN 1 34 41 44 3 1 OUT 2 3 4 3 2 3 IN 2 3 424 3 3 42 4 4 OUT 1 32 4 1 1 1 IN 33 4 1 3 OUT 31 24 3 1 1 2 31 IN 2 1 1 2 OUT 3 1 3 3 43 3 IN 4 31 33 4 3 OUT 1 31 33 4 2 IN 1 3 2 3 42 4 1 Note) Theoretical output (N) = Pressure (MPa) x Piston area (mm 2 ) Mass (In the case of stroke) asic mass ore size asic style xial foot style Flange style dditional mass per each mm of stroke alculation: (Example) RHL- asic mass ( st) 2.44 (kg) (Foot style ø) dditional mass. (kg/ st) ylinder stroke (st) 2.44 +. x ( )/ = 2.2 kg opper and Fluorine-free ir ylinder RH opper and fluorine-free Specifications ction ore size Max. operating pressure Min. operating pressure ushion Piping Piston speed Mounting Mounting style ore size Stroke Suffix The type which prevents copper based ions from generating by changing the copper based materials with electroless nickel plated treatment or non-copper materials in order to eliminate the effects by copper based ions or fluororesins over the color cathode ray tube. Double acting, Single rod ø, ø, ø, ø, ø, ø3, ø, ø 1 MPa. MPa ir cushion Screw-in type to 3 mm/s asic style, xial foot style, Rod side flange style, Head side flange style (kg) 3 1. 1.2 2.4 3. 4...3. 1.44 1. 2.44 3.2...4. 1.2 1. 2. 3.4... 1.2....1...3.1 RE RE RE Y X RH D- -X -X
Series RH onstruction: ø to ø u q!2 @ i e! @1! o w!! @3!1 @4 @2! t r! @ y!3!4 omponent Parts No. 1 2 3 4 Description Material Rod cover luminum alloy Head cover luminum alloy ylinder tube luminum alloy Piston luminum alloy ushion ring arbon steel ushion ring arbon steel Piston rod arbon steel ushion spacer Stainless steel umper Urethane Magnet ushing opper oil-impregnated sintered alloy Relief valve assembly (Rod side) Relief valve assembly (Head side) Relief valve body holder luminum alloy Note lear anodized lear anodized Hard anodized hromated Hard chrome plated Hard chrome plated Hard chrome plated lear anodized Enlarged view of 1 Hexagon socket head cap screw arbon steel ø: M x. x ø, ø: M x 1 x ø: M x 1. x Nickel plated 1 1 24 Hexagon socket head set screw Plate ushion seal Piston seal Wear ring Piston gasket ylinder tube gasket Rod seal O-ring O-ring arbon steel Special resin NR Resin NR NR NR NR NR ø, ø: M x. x ø, ø: M x 1 x Nickel plated Replacement Parts/Seal Kit ore size Kit no. RH-PS RH-PS RH-PS RH-PS ontents Set of nos. left!,!, @, @2, @3, @4, @ Seal kit includes a grease pack ( g). Order with the following part number when only the grease pack is needed. Grease pack part no.: GR-S- ( g) Stainless steel for ø and ø aution When disassembling cylinders with bore sizes of ø through ø, grip the double flat part of either the rod cover or the head cover with a vise and loosen the other side with a wrench or an adjustable angle wrench, and then remove the cover. When retightening, tighten approximately 2 degrees more than the original position.
High Power ylinder Series RH onstruction: ø to ø r! i q o!!2 e!1 t y u!3!4! w omponent Parts Enlarged view of No. 1 2 3 4 1 Description Rod cover Head cover ylinder tube Piston rod Piston umper Magnet ushing Relief valve assembly L Relief valve assembly R Plate ushion seal Piston seal Wear ring ylinder tube gasket Rod seal Material luminum alloy luminum alloy luminum alloy arbon steel luminum alloy Urethan Urethan NR Resin NR NR Note lear anodized lear anodized Hard anodized Hard chromate plated Hard anodized aution ylinders with ø or larger bore sizes are tightened with a large tightening torque and cannot be disassembled. ontact SM when disassembly is required. RE RE RE Y X RH D- -X -X 1
Series RH Dimensions: asic Style ø to ø 2 x Rc P NN H2 G G NN MM H1 NE ød NF N Width across flats K WH L K H F 1. E N J S + Stroke ZZ + Stroke JD N E 1. F ore size L D E F FL G G H H1 H2 ore size J 43 3 3 JD 3.. 2. K... K MM M x 1. M x 1. M x 1. M x 1. N NE N NF NI NN P S WH ZZ x J NE G E E G WH MM H1 øe ød øe 2 x ønif Effective thread length 2 x FL 24 1. 1. 1. 3 44 3. 4. 1. 1... 1.... 3.. 4. 4. 1. 1. 44 4 1 4. 3 33. 3 43. 2. 2 3 41 1 1..3..3. 31.4. 34.4 M x 1. M24 x 1. M3 x 1. M33 x 2. 1/4 1/4 3/ 3/ 1 1.. to.. to.3 2 2 ø to ø 2 x Rc P NF Width across flats K L H K F J J F S + Stroke ZZ + Stroke ore size 3 3 3 L 3 3 D E E F F G H 1 3 3.2.4.4.4 2 1 3 ore size 3 H1 J J K K MM NE NF P S WH ZZ M x 1. thread depth M x 1. 1/2. to.3 3 M x 1. thread depth M x 1. 24. 1/2 3 M x 1. thread depth M x 1. 3.. to. M x 1. thread depth 2 M2 x 1. 34 41 341
High Power ylinder Series RH Dimensions: xial Foot Style ø to ø NN WH L H K F H2 G 2 x Rc P G F MM H1 NE LY ød 4 x øld LH NF N LX LZ Width across flats K Y X E N J S + Stroke LS + Stroke JD N E X Y LT ZZ + Stroke ore size 24 L 1. 1. 1. D E F FL G G H H1 H2 J JD K K LD LH.. 3. 4. 44 43 3... 4. 4 3.. 2 1. 1. 1 3 2.. 3.. 1. 4.. 3 ore size LS 2 3 241 1. LT LX LY LZ MM N N NE NF NN P S WH X Y ZZ. 41 M x 1. 2 33. M x 1. 1/4 2. 4. M x 1. 3 1 M24 x 1. 1/4. to. 4 3 M x 1. 3 43. 1 M3 x 1. 3/ 1 2 M x 1. 3 41 2. M33 x 2. 3/ 1.. to.3 ø to ø NE WH MM L H1 H K F G E 2 x Rc P E G M RE LH ±.2 LY øe ød 4 x øld RE RE NF LX LZ Width across flats K LT Y X J S + Stroke LS + Stroke ZZ + Stroke J X Y Y X ore size 3 L D E E F G H H1 J K K LD 3 3 3 3 1 3 3.2.4.4.4 2 1 3 2 RH D- ore size 3 LH LS LT LY LX LZ M MM NE NF P S WH X Y 2 2 3 33. 3 3.. M x 1. M x 1. M x 1. M2 x 1. 24. 3. 34 41 1/2 1/2. to.3. to. 3 3 4 ZZ 33 342 31 31 -X -X 1
Series RH Dimensions: Rod Side Flange Style ø to ø 4 x øfd MM H1 H2 G 2 x Rc P G NN FW FY N NE NF N FX FZ Width across flats K WH L K H FT F 1. E N J JD E N FL S + Stroke F ZZ + Stroke ore size ore size L D E F FL FD FT FX FY FW FZ G G H1 H2 H J JD K K MM N N N NE NF NI NN P S WH ZZ. 44 43 3. M x 1. 2. 33..3 M x 1. 1/4 2. 4 3.. M x 1.. 3 1.3 M24 x 1. 1/4. to.. 1 3 2.. M x 1. 3 4. 43. 1 31.4 M3 x 1. 3/ 1 2. 4.. M x 1. 3 41 4. 2. M33 x 2. 3/ 1.. to.3 NE 4 x øfd NF 2 x Rc P G E E G WH MM H1 FW FY øe ød øe ønif 24 1. 1. 1. 3 44 3.. 1.... 1 3 33 3 3 44 2 4 34.4 3.. 4. 4. 1. 1. ø to ø FX FZ Width across flats K L H K FT F J S + Stroke ZZ + Stroke J F ore size 3 3 3 L 3 3 D E E F F FD FT FW FX 1 3 3.2.4.4.4 2 1 3 1 1 4 1 4 ore size 3 FY FZ G H H1 J K K MM NE NF P S WH ZZ 3 1 4 1 2 M x 1. M x 1. M x 1. M2 x 1. 24. 3. 34 41 1/2 1/2. to.3. to. 3 3 341
High Power ylinder Series RH Dimensions: Head Side Flange Style ø to ø NN Width across flats NF H1 MM G 2 x Rc P G 4 x øfd FZ FX ønif ND ød NE FW FY Width across flats K L 1. FL E K F N J JD E N FT H2 N WH N H S + Stroke F ZZ + Stroke ore size ore size L D E F FL FD FT FX FY FW FZ G G H1 H2 1. 1. 1. 24 H J JD K K MM N N N N NE NF NI NN P S WH ZZ 44 4 1 4. 3 44 3. 4. 1. 1. 43 3 3 3.. 2...... 1.... M x 1. M x 1. M x 1. M x 1. 3 2 3 41 1 3 33 3 3 3. 43. 4.3.. 4. 4. 33. 3 43. 2. 3 44 2 4 3.. 4. 4. 1. 1. 1 1..3..3. 31.4. 34.4 M x 1. M24 x 1. M3 x 1. M33 x 2. 1/4 1/4 3/ 3/ 1 1. 2. to. 2. to.3 ø to ø Width across flats NF MM øe ød H1 2 x Rc P G E E G FW FY WH NE 4 x øfd RE RE Width across flats K L H K F J S + Stroke ZZ + Stroke J FT FX FZ RE Y X ore size 3 3 3 L 3 3 D E E F FD FT FW FX FY 1 3 3.2.4.4.4 2 1 3 1 1 4 1 4 3 RH D- ore size 3 FZ G H H1 J K K MM NE NF 1 4 1 2 M x 1. M x 1. M x 1. M2 x 1. 24. 3. 34 41 P 1/2 1/2 S WH. to.3. to. ZZ 3 3 33 31 -X -X 1
Series RH ccessory Mounting Nut Rod End Nut 3 d Material: arbon steel 3 d Material: arbon steel D D H H Part no. pplicable bore size D d H Part no. pplicable bore size SOR- SOR- SOR- SOR- 2 3 41 3 3. 43. 4.3 2 3 41 M x 1. M24 x 1. M3 x 1. M33 x 2. NT-2 NT-3 NT-4 NT- NT- NT- / /3 D d H 1 41 1 1..4 31 3 4.3... 2 31 3 M x 1. M x 1. M x 1. M x 1. M x 1. M2 x 1.
High Power ylinder Series RH Minimum Stroke for uto Switch Mounting uto switch model D- D-M D-MW D- D- 1 Note) Note) 1 4 1 (n - 2) 1 + 4 2 (n = 2, 4,... ) (n - 2) 1 + 4 2 (n = 2, 4,... ) n: No. of auto switches No. of auto switches mounted 2 n Different surfaces Same surface Different surfaces Same surface 4 + 4 (n - 2) + 4 (n - 2) D-H D-HW D-HL D-HNF 1 (n - 2) 1 + 4 2 (n = 2, 4,... ) + 4 (n - 2) D-3 D- D-H 1 (n - 2) 1 + 2 (n = 2, 4,... ) + (n - 2) D-/4 D-G/K D-GW/KW D-GL D-GNTL 1 (n - 2) 1 + 2 (n = 2, 4,... ) + (n - 2) D-W 1 (n - 2) + 2 (n = 2, 4,... ) + (n - 2) D-3 D-44 D-G3 D-K3 3 3 + 3 (n - 2) + (n - 2) Note) When 2 D-3/M/MW auto switches are used. 2 auto switches Different surfaces Same surface - 1 uto switch model RE RE D-3 D-M D-MW uto switch D-M D-MW - The proper auto switch mounting position is mm inward from the switch holder edge. Less than strokes The auto switch is mounted by slightly displacing it in a direction (cylinder tube circumferential exterior) so that the auto switch and lead wire do not interfere with each other. Less than strokes Less than strokes RE Y X RH D- -X -X
SM SM SM SM SM SM SM SM Series RH uto Switch Proper Mounting Position (Detection at Stroke End) and Its Mounting Height Reed auto switch Solid state auto switch D- ø to ( ): For D-3 type D-M D-MW ø to.... (24.) uto switch uto switch ø to 3 ø to 3... (24.) uto switch. uto switch D-, ø to ( ): For D-3 type D-H, HW, HNF, HL ø to ø to 3. uto switch ø to 3. uto switch 2 uto switch 2 uto switch D-, 4, W ø to D-G, K, GW, KW, GNTL, GL ø to ø to 3 uto switch ø to 3 24. 33 uto switch 24. 33 D-3, ø to uto switch D-H ø to uto switch ø to 3 ø to 3.. 3. uto switch 3.2 uto switch D-3, G3, K3 3 uto switch D-44 3 uto switch 4 G 1/2 (pplicable cable O.D. ø. to ø.) 4. G 1/2 (pplicable cable O.D. ø. to ø.)
High Power ylinder Series RH uto Switch Proper Mounting Position (Detection at Stroke End) and Its Mounting Height uto Switch Proper Mounting Position uto switch model ore size 3... 1. 1. 1. D-.. D-M D-MW...... 24 24 2 31 31. 31. D- D- D-3 D- 1 1 1.... 2 2 D- D-4. 1...... 2. D-H D-H D-HNF D-HW D-HL 1 1 1 1. 1.. 2. D-G D-GW D-GNTL D-GL D-K D-KW... 1..... 1 2 1 31 D-W 1. 1. 1. 1 24. 1 1. 3... D-33 D-44 D-G3 D-K3...... 1.. 2 Note) djust the auto switch after confirming the operating conditions in the actual setting. uto Switch Mounting Height uto switch model ore size 3 D- D-M D-MW Hs 24 2. 3 34. 4 D- D- D-H D-HW D-HNF D-HL Hs 24. 3. 3. 4. D-/4 D-W D-G/K D-GW D-KW D-GNTL D-GL D-H Hs. 3 33. 3 43... D-3 D- Hs 2. 33 3. 43. D-3 D-G3 D-K3 Hs 2 4. 2. 3. 4 D-44 Hs 2 4. 2. 3. 4 RE RE RE Y X RH D- -X -X
Series RH Operating Range uto switch model D- D-M D-MW D-/ D-3/ D-/4 D-W D-H/HNF/HW/HL D-H D-4 D-G3/K3 D-G/K/GW D-KW/GL/GNTL D-GNL Mounting racket Part No. 3. 4 4 3. 4. 4 ore size 3 4 4. 4. 4.. 1...... 3 4 4 4 4 Since this is a guideline including hysteresis, not meant to be guaranteed. (ssuming approximately ±3% dispersion.) There may be the case it will vary substantially depending on an ambient environment. uto switch model D- D-M D-MW D-/ D-3 D- D-H D-HW D-HL D-HNF D-/4 D-W D-G/K D-GW/KW D-GL/GF D-GNTL D-GNL D-4 D-G3/K3 ø Note 1) qm2- wj3-1 M2- ø Note 1) qm2- wj3-1 M2- [Mounting screw set made of stainless steel] ø Note 1) qm2- wj3-1 M2- -1-2 - ore size ø ø Note 1) qm2- wj3-1 M2- The following set of mounting screws made of stainless steel is available. Use it in accordance with the operating environment. (Please order the auto switch mounting bracket separately, since it is not included.) 3: For D-//G/K e 4: For D-//H D-HL/GL auto switches are set on the cylinder with the stainless steel screws above when shipped. When an auto switch is shipped independently, 3 or 4 is attached. Note 2) Refer to pages and for the details of 3 and 4. -4 Note 1) qm2- wj3-1 M2- - ø3 Note 1) qm2-3 wj3-1 M2-3 - ø D1-1M D1-2M D1-2 D1-4M D1-M D1-M D1-M D1-M Note 1) Two kinds of auto switch mounting brackets are used as a set. Other than the applicable auto switches listed in How to Order, the following auto switches can be mounted. For detailed specifications, refer to pages 11 to. Electrical entry Type Model Features (Fetching direction) Reed switch Solid state switch D-3, D- D-3 D-H1, H2, H D-HNW, HPW, HW D-GNTL Grommet (In-line) ø to ø3 Without indicator light ø to ø Diagnostic indication ø to ø3 (2-color indication) With timer pplicable bore size ø to ø For solid state auto switches, auto switches with a pre-wired connector are also available. Refer to pages and 1 for details. Normally closed (N = b contact) solid state auto switches (D-FG/FH types) are also available. Refer to page for details. Wide range detection type, solid state auto switches (D-GNL type) are also available. Refer to page 1 for details. d Switch holder (Resin) c Switch bracket (Stainless steel) - b uto switch mounting screw ylinder tube ø - Switch spacer (Stainless steel) uto Switch Set screw (not used) qm2-: set of a and b in the figures. wj3-1: set of c, d and e in the figures. a uto switch mounting band
Series RH Specific Product Precautions e sure to read before handling. Refer to front matters 42 and 43 for Safety Instructions and pages 3 to for ctuator and uto Switch Precautions. How to Rotate the Relief Valve ody (ø, ø, ø, ø) aution The relief adjusting screw can be placed in any direction by rotating the relief valve body by following the steps given below. Procedure 1. Verify that there is no residual pressure in the cylinder. Then, loosen the mounting bracket (such as foot, flange, etc.). 2. Loosen the set screw that is provided in the relief valve body retainer and rotate the relief valve body. 3. While keeping the relief valve body retainer pressed against the relief valve body, secure it with the set screw. fter having secured the relief valve body retainer, make sure that the relief valve body cannot be rotated. In the event that it does rotate, loosen the set screw again and repeat the operation described in step 3. Set screw Relief valve body retainer Relief valve adjusting screw Relief valve body Move slightly Handling aution 1. onfirm that the relief valve body does not rotate when the cylinder is mounted. If there is play in the axial direction of the relief valve body, the cushion may become ineffective. When attaching brackets (foot, flange), do so after loosening the relief valve body set screw. Retighten the relief valve body set screw after the brackets have been attached. (ø,,, ) 2. The cylinder stroke end cushion adjusting screw is adjusted six turns ( turns for ø3, ø and ø) starting from the position where it is rotated fully clockwise to counterclockwise (fully closed). It should never be rotated more than six turns (more than turns for ø3, ø and ø) from the position where it is rotated fully counterclockwise (fully open). This may damage the spring inside the relief valve. Lateral load Relief valve adjusting screw 3. The cylinder ports are designed so that a maximum speed 3 mm/s can be obtained. However, it may not be possible to attain the desired speed in the case of short cylinder strokes. It may also be impossible to attain the desired speed due to restriction by component equipment (valves, speed control valves, piping, fitting, etc.). Make every effort to ensure sufficient effective area in the component equipment. 4. void applications in which lateral loads are applied to the cylinder piston rod. Especially in the case of long strokes, implement measures such as providing a guide for the load. Relief valve adjusting screw RE RE RE Y X RH turns at most (ø,,,, ) turns at most (ø3,, ) turns at most (ø,,,, ) turns at most (ø3,, ) D- -X -X 1