CJ5-S ) FKM seals (Fluoro rubber) R V NBR seals (Nitrile rubber) FKM seals (Fluoro rubber) R V Data Use of stainless steel as the piston rod material will be treated as a special order.
2 r e y @4 @8 @0 !0 i @3 o @4 @8 @7 u @2 r y RE A B REC !9 #0 w #1 #0 t q e @9 #1 @1 !9 t @5 @6 @1 #0 q !1 w#1 #0 @2 @9 #1 @1 CX CY 40 to 63 MQQ M @0 @4 @8 i u o @3 !1 #1 #2 @8@4 !2 @7 !3 #3 r !4 e !6 @6 RHC MK(2) #7 #6 !5 RS Q G RS H A !9 @5 t @6 y #0 w @1 #0 #5 !7 #4 q @9@2 !8 #1 #2 !7 #5 #4 @1 RZQ MI W S CEP1 Component Parts CE1 No. No.
The pressure in the pilot chamber e increases and operates on the upper surface of the diaphragm r. As a result, the air supply valve t linked to the diaphragm r opens, and a portion of the supply pressure becomes output pressure. This output pressure feeds back to the control circuit i via the pressure sensor u.
2 r e y @4 @8 @0 !0 i @3 o @4 @8 @7 u @2 r y RE A B REC !9 #0 w #1 #0 t q e @9 #1 @1 !9 t @5 @6 @1 #0 q !1 w#1 #0 @2 @9 #1 @1 CX CY 40 to 63 MQQ M @0 @4 @8 i u o @3 !1 #1 #2 @8@4 !2 @7 !3 #3 r !4 e !6 @6 RHC MK(2) #7 #6 !5 RS Q G RS H A !9 @5 t @6 y #0 w @1 #0 #5 !7 #4 q @9@2 !8 #1 #2 !7 #5 #4 @1 RZQ MI W S CEP1 Component Parts CE1 No. No.
2 r e y @4 @8 @0 !0 i @3 o @4 @8 @7 u @2 r y RE A B REC !9 #0 w #1 #0 t q e @9 #1 @1 !9 t @5 @6 @1 #0 q !1 w#1 #0 @2 @9 #1 @1 CX CY 40 to 63 MQQ M Courtesy of Steven Engineering, Inc.-230 Ryan Way, South San Francisco, CA 94080-6370-Main Office: (650) 588-9200-Outside Local Area: (800) 258-9200-www.stevenengineering.com @0 @4 @8 i u o @3 !1 #1 #2 @8@4 !2 @7 !3 #3 r !4 e !
2 r e y @4 @8 @0 !0 i @3 o @4 @8@7 u @2 r y CEP1 CE1 CE1 r @9 @2 CE2 !9 #0 w #1 #0 t q e @9 #1 @1 !9 t @5@6 @1 #0 q !1 w#1 #0 @2 @9 #1 @1 ML2B #8 12 40 to 63 @0 @4 @8 i u o @3 !1 #1 #2 @8@4 !2 @7 !3#3 r !4 e !6 @6 #7 #6 !5 !9 @5 t @6 y #0 w @1 #0 #5 !7 #4 q @9@2 !8 #1 #2 !7 #5 #4 @1 Component Parts Component Parts Material Note No. Description Material Note No.
4 r t y u i !5 !6 No.
/ L (LEY*D) [] 540 [%] 90 RH ) 28 42 56.4 (DC24V) A/B 800 / [V] DC2410% [W] 8) 23 40 50 [W] 9) 16 15 48 [W] 10) 43 48 104 11) [N] 20 39 78 78 157 294 108 216 421 [W] 12) 3.6 5 5 [V] DC2410% LEY 16 [ _ / R / L ] LEY 25 [ _ / R / L ] LEY 32 [ _ / R / L ] [mm] 1) 30 50 100 150 200 250 300 30 50 100 150 200 250 300 350 400 30 50 100 150 200 250 300 350 400 450 500 (kg) 0.580.62 0.73
Symbol Name Initial value Unit PC02 *ZTY Home position return type 0h PC03 *ZDIR Home position return direction 0001h PC04 ZRF Home position return speed 500 r/min PC05 CRF Creep speed 10 r/min PC06 ZST Home position shift distance 0 m PC07 *ZPS Home position return position data 0 10STMm PC12 JOG Jog speed 100 r/min PC24 *COP3 Function selection C-3 0h PC30 *DSS Remote register-based position
LEMH 25 25 LEMHT32 LEMH32 20 20 Workload m[kg] Workload m[kg] 15 15 LEMHT25 LEMH25 10 10 5 5 0 0 0 200 400 600 800 1000 1200 1400 0 200 400 600 800 1000 1200 1400 Support spacing [mm] Support spacing [mm] 6.2 Handling Caution 1.
3 VH 1 8 7 4 (B) 3 (R) 1 (P) 2 (A) 2 VH600 6 5 4 1 7 1 (P) 2 (A) 4 (B) 2 3 (R) Component Parts Material VH200/300/400 Zinc die cast Aluminium die cast VH600 Cast iron Description No.
600 140 400 500 125 400 MLGP 300 300 ML1C 200 200 [Example] 100 100 100 500 400 300 200 100 500 400 300 200 Maximum speed: V (mm/s) Maximum speed: V (mm/s) Graph 7 Graph 4 0.5 MPa P 0.5 MPa P 250 4000 3000 3000 200 2000 180 250 2000 160 140 200 1000 125 180 700 800 900 Load mass: m (kg) Load mass: m (kg) 1000 700 800 900 160 600 140 600 500 500 125 400 400 300 300 D200 200 -X Individual
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.
[kPa] 8 8 AFJ40-04-80-T 6 6 4 4 2 2 Water drop removal type Nominal filtration rating: 80 m Large flow type Nominal filtration rating: 80 m 0 0 0 100 200 300 400 500 600 800 700 900 Flow rate [L/min(ANR)] 0 100 200 300 400 500 600 800 700 900 Flow rate [L/min (ANR)] 783 AFJ20 to AFJ40 Series Construction AFJ20 AFJ30, AFJ40 OUT IN OUT IN q q r r w w (y) e (y) t e t Component Parts No.
(Refer to pages 2-5-40 to 2-5-43.) 26.4 48.7 3(R2) 5(R1) Rc 3/8 SUP port 54.5 P1 Po 1(P) 25 13.5 Po Circuit diagram Plug-in type Plug lead type SUP/EXH block plate VVQ4000-16A 11.8 When different pressures, high and low, are supplied to manifold, a SUP block plate is inserted between the stations under different pressures. 21.8 R P R R P R R P R SUP/EXH passage blocked EXH passage blocked
VBAT10A1 S Note) A safety valve port is provided only when option R or S is selected.
Because of this, VAC. and the pilot chamber e are connected, the pressure in the pilot chamber e becomes negative and acts on the top of the diaphragm r. As a result, the vacuum pressure valve t which is linked to the diaphragm r opens, VAC. and OUT. are connected, and the set pressure becomes negative.
500 280 560 Data 10 4 8 7 6 5 MXY12 3 2.0 Shock absorber Rubber stopper screw 2 4 Load weight W kg 1.5 Metal stopper screw 3 1.0 1 100 50 200 300 400 560 2 100 50 200 300 400 500 Average speed Va mm/s Collision speed V mm/s 0.5 Average speed Va mm/s 0.0 Collision speed V mm/s 0 100 200 300 400 500 280 560 Note) Use the average speed when calculating static moment.
Load Mass Allowable Moment E-MY2H/M1 E-MY2H/M3 E-MY2H/M2 E-MY2H/m3 60 60 50 60 60 50 50 50 40 40 30 30 30 30 q r w et 20 20 20 20 Load Mass (kg) Moment (NNm) Moment (NNm) Moment (NNm) 10 10 10 10 MY2H25 MY2H25 MY2H25 MY2H25 5 5 5 5 MY2H16 4 4 4 4 3 3 3 3 MY2H16 MY2H16 2 2 2 2 MY2H16 0.2 1 1 1 100 200 300 400 500 1000 1500 1 100 200 300 400 500 1000 1500 100 200 300 400 500 1000 1500 100 200