RSH/RS1H 1 e @2 !2 #7 #3 #1 32 w 50, 63, 80 Double acting (DL, DM) @3 !3 !5 #6 o @5 @4 i @1 @6 !0 @7 @9 !6 t u !7 !8 q #8 $1 y Single acting, Spring extend (TL, TM) Double acting with spring (BL, BM) r $0 !1 !2 #7 #4 #7 @2 e #5 #3 @8 #7 #7 #1 @8 w 10-9-6 6 Heavy Duty Stopper Cylinder Series RSH/RS1H Construction Component Parts (For single acting) No.
3 y o q u e !0 w Component Parts No. q w e r t y u Description Material Description Material No. CG5SR CG5SV Rod cover Stainless steel 304 Water resistant scraper Head cover Stainless steel 304 i Rod seal Cylinder tube Stainless steel 304 o NBR FKM Piston seal Piston rod Stainless steel 304 !0 Valve seal Bumper Urethane !1 Valve retainer gasket Rod end nut Stainless steel 304 !
3 y o q u e !0 w Component Parts No. q w e r t y u Description Material Description Material No. CG5SR CG5SV Rod cover Stainless steel 304 Water resistant scraper Head cover Stainless steel 304 i Rod seal Cylinder tube Stainless steel 304 o NBR FKM Piston seal Piston rod Stainless steel 304 !0 Valve seal Bumper Urethane !1 Valve retainer gasket Rod end nut Stainless steel 304 !
1 e @2 !2 #7 #3 #1 32 w 50, 63, 80 Double acting (DL, DM) @3 !3 !5 #6 o @5 @4 i @1 @6 !0 @7 @9 !6 t u !7 !8 q #8 $1 y Single acting, Spring extend (TL, TM) Double acting with spring (BL, BM) r $0 !1 !2 #7 #4 #7 @2 e #5 #3 @8 #7 #7 #1 @8 w 10-9-6 6 Heavy Duty Stopper Cylinder Series RSH/RS1H Construction Component Parts (For single acting) No.
Determination of load's kinetic energy (E) bore size E > Es E Es Determination of bore size Review of larger bore size E = m E 2 a ( ) 2 = (Refer to page 8-16-8.) 1000 P Ps P > Ps Determination of pressure for intermediate stop (p) (Refer to page 8-16-8.)
Body material Port size Orifice diameter e VXS2 3 A w B 5 Body material C37 Port size 1/4 e A Orifice diameter 10 Step 3 Select electrical specification.
Determination of load's kinetic energy (E) bore size E > Es E Es Determination of bore size Review of larger bore size E = m E 2 a ( ) 2 = (Refer to page 8-16-8.) 1000 P Ps P > Ps Determination of pressure for intermediate stop (p) (Refer to page 8-16-8.)
Both directions Lock direction MXW MXP Stroke Bearing Standard stroke (mm) Long stroke (mm) Bore size (mm) MG Model MGP 20 75, 100, 125, 150, 200 250, 300, 350, 400 MLGCM Slide bearing 25 350, 400, 450, 500 MGQ 75, 100, 125, 150, 32 350, 400, 450, 500, 600 MLGCL Ball bushing bearing 200, 250, 300 40 350, 400, 450, 500, 600, 700, 800 MGG * Middle strokes and short strokes other than shown
Determination of load's kinetic energy (E) E > Es E Es Determination of bore size Review of larger bore size E = m E 2 a ( ) 2 = (Refer to page 1548.) 1000 P Ps P > Ps Determination of pressure for intermediate stop (p) (Refer to page 1548.)
Ambient temp. 500 Heating capacity [W] Heating capacity [W] 400 40 40 400 32 32 300 300 25 25 5 5 200 200 100 100 0 0 10 15 20 25 30 35 40 10 15 20 25 30 35 40 Circulating fluid temperature [] Circulating fluid temperature [] 50Hz 60Hz Fig 9-11 Heating capacity (HRR010-A-20-) 9.5.4 HRR010-W-20400 400 Facility water temp.
ID Construction IDG SFD101-02 SFD102-02 IDK w q r t e q r e w AMG AFF AM AMD AMH Component Parts Component Parts No. Description Note Material Aluminum alloy No.
L L+A Fig. 1 Fig. 2 L 2 1 V E = W ( ) 2 1000 Collision speed V = 1.4 Va Find the kinetic energy E (J) of the load. 1 420 E = 1 ( ) = 0.088 2 1000 V = 1.4 x 300 = 420 Correction factor (reference value) Find the allowable kinetic energy Ea (J).
Fig. 9-4 Cooling capacity(HRS030--20-(BJMT)) 9.5 Heating capacity 9.5.1 HRS030-A-20-(BJMT) 1000 1000 Ambient Ambient temperatur temperatur 800 e e Heating capacityW 800 Heating capacityW 40 32 25 20 5 40 32 25 20 5 600 600 400 400 200 200 0 0 5 10 15 20 25 30 35 40 5 10 15 20 25 30 35 40 Circulating fluid temperature Circulating fluid temperature 50Hz 60Hz Fig. 9-5 Heating capacity(HRS030
r e w q r e w q VG VP S070 VQ VKF N.C.
t signai VDC 1 2 3 Input signalVDC 1 2 3 Hysteresis r c 0.5 z o E ! 0 E E ,o5 5 E 1 2 3 4 lnplrl signal VDC lrpul signa VDC 1 2 3 lnput slgna!
8 1 1 Cylinder tube Aluminum alloy Piston seal NBR Hard anodized e !
Standard stroke -X Bore size (mm) Standard stroke (mm) Piping port location 15, 32 100, 150, 200, 250, 300, 350 400, 450, 500, 600, 700 Operating direction: Right Operating direction: Left Operating direction: Right Operating direction: Left Operating direction: Right Operating direction: Left Operating direction: Right Operating direction: Left a b c d e f g h 20Nil Note 1) Please consult
O.D. 6 I.D. 4 1051 Specialty Lubricators NALF Series Auto Feed Lubricators NALF400, 400-06, 500, 600, 800, 900 Lubricator NALF400 Tank NALT-5 s n o i t a c i f i c e p S F L A N e b u L d e e F o t u A 0 0 4 F L A N 6 0 N 0 0 4 F L A N 0 0 5 F L A N 0 0 6 F L A N 0 0 8 F L A N 0 0 9 F L A N ) a P M ( g i s p e r u s s e r p y l p p u s . x a M ) 5 . 1 ( 0 2 2 ) a P M ( g i s p e r u s s e
Entry-Mounting 04 o4 Tube o a o 06 s6 Tube a o a o 08 08 Tube a a E E 5 List O Pad Dia.