SYJ3000/5000/7000 (For manifold type 20, 21) SYJ7 2 5 M 01 1 0 Body ported 2 5 0 M SYJ7 4 Base mounted Thread type Body option Nil F N T Rc G NPT NPTF Coil specifications 0: Pilot valve individual exhaust for the pilot valve Manual override Nil Standard With power saving circuit <24 V, 12 VDC only> Nil: Non-locking push type T Power saving circuit is not available in the case of D, DO or W type.
I O N S A U T O S W I T C H E S R E E D T Y P E O P T I O N S M O U N T I N G B R A C K E T S F O R S W I T C H E S O P T I O N S A U T O S W I T C H E S S O L I D S T A T E T Y P E MODEL OPERATING MAX CURRENT OR INDICATOR MODEL OPERATING MAX CURRENT OR INDICATOR NUMBER VOLTAGE OPERATING CURRENT LIGHT / WIRE NUMBER VOLTAGE OPERATING CURRENT LIGHT / WIRE MODEL BORE SIZE RANGE (MA) OUTPUT RANGE
I O N S A U T O S W I T C H E S R E E D T Y P E O P T I O N S M O U N T I N G B R A C K E T S F O R S W I T C H E S O P T I O N S A U T O S W I T C H E S S O L I D S T A T E T Y P E MODEL OPERATING MAX CURRENT OR INDICATOR MODEL OPERATING MAX CURRENT OR INDICATOR NUMBER VOLTAGE OPERATING CURRENT LIGHT / WIRE NUMBER VOLTAGE OPERATING CURRENT LIGHT / WIRE MODEL BORE SIZE RANGE (MA) OUTPUT RANGE
Speed controller Silencer Tube x Length Speed controller Silencer SX3140-01 SX3120-C6 AS3001F-06 AN110-01 AS2051F-06 AN120-M5 T0604 x 1 m T0806 x 1 m AS3001F-08 T0604 x 1 m T0806 x 1 m AS3001F-08 SX5140-02 SX5120-01 AS3001F-06 AS3001F-06 AN101-01 AN101-01 AS4001F-10 T0604 x 1 m T1075 x 1 m T1209 x 1 m AS3001F-06 T0604 x 1 m AS3001F-06 T1075 x 1 m AS4001F-10 SX7140-03 SX7120-02 SV AS200-02
Applicable model HRL-BB002 HRLE050-m-m HRL-BB001 HRLE090-m-m y u t Parts List r i No. Description Material Applicable model Size Qty.
e, r, t, y q, w, t, y t Hexagon socket head plug r Plate mounting bolt MB Specifications and external dimensions other than above are the same as standard type.
5 w !6 !3 i !0 t !8 u Parts list Description Material Description Material Note Note No. No.
type LEC-CMJ-T Standard cable Robotic cable LE-CP-m-S LE-CP-m Note) The terminating resistor (110 , 1/2 W) should be provided by the customer.
S T S T S T S T S T C(D)UK6C(D)UK10C(D)UK16C(D)UK20C(D)UK25C(D)UK32For the auto switch weight, refer to page 68 to 72.
N 9 T L A N 1 * S 1 9 T 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 r p g n i t a r e p o . x a M ) 0 . 1 ( 0 5 1 e g n a r . p m e t g n i t a r e p O ) C 0 6 ~ 5 ( F 0 4 1 ~ 3 2 t n a c i r b u l d e d n e m m o c e R ) 2 3 G V O S I ( 1 # l i O e n i b r u T y d o B C D A e r u s s e r p e n i l d n a k n a t n e e w t e
PB H thread depth C Vent hole Note 3) J PC EV Z T M U D K Note 2) L R 4 x O1 thread depth R W A + Stroke B + Stroke S EH M 6 x MO thread depth MR XA H9 depth XA MH Section XX details MA ML + Stroke MC MD Section XX XB XA H9 XA [mm] Incremental encoder Absolute encoder B C D EH EV Without lock With lock Without lock With lock A W Z A W Z A W Z A W Z Size Stroke range [mm] 25 15 to 100 238
Mass m X-axis Y-axis Z-axis Z 20 W 20mm 30mm 50mm 2kg 50 Y 30 3 Calculation of load factor for static load m: Mass m m max (from 1 of graph MY1B/m = 27 (kg) Load factor = m/m max = 2/27 = 0.07 X M: Moment m M max (from 2 of graph MY1B/M) = 13 (Nm) M = m x g x X = 2 x 9.8 x 20 x 10= 0.39 (Nm) M Load factor = M/M max = 0.39/13 = 0.03 M: Moment Y M max (from 3 of graph MY1B/M) = 1.6 (Nm
-A22 ZPT125 50-(B/N/T)01-A22 ZPT125 75-(B/N/T)01-A22 ZPT125 100-(B/N/T)01-A22 ZPB-T1 25-(B/N/T)01 ZPB-T1 50-(B/N/T)01 ZPB-T1 75-(B/N/T)01 ZPB-T1 25-(B/N/T)01 ZPB-T1 50-(B/N/T)01 ZPB-T1 75-(B/N/T)01 ZPB-T2 25-(B/N/T)01 ZPB-T2 50-(B/N/T)01 ZPB-T2 75-(B/N/T)01 ZPB-T2 25-(B/N/T)01 ZPB-T2 50-(B/N/T)01 ZPB-T2 75-(B/N/T)01 ZPB-T3 25-(B/N/T)01 ZPB-T3 50-(B/N/T)01 ZPB-T3 75-(B/N/T)01 ZPB-T3 100-(B
): SQ1241 Double (latching): SQ1240 t e q w t e q w SQ1241 SQ1240 (A)(B) (A)(B) 4 2 4 2 5 1 3 5 1 3 (R1) (P)(R2) (R1)(P)(R2) Double (double solenoid): SQ1241D Double (double solenoid): SQ1240D y e e q w y e q w e SQ1240D SQ1241D (A)(B) (A)(B) 4 2 4 2 5 1 3 u 5 1 3 u (R1)(P)(R2) (R1)(P)(R2) 3 position: SQ1 41 3 4 5 3 position: SQ1 40 3 4 5 y e e q y w e e q w u u SQ1540 SQ1440 SQ1340 SQ1541
YA-03 Joint YU-03 RS W M V T2 Joint Part No. 2-D through 2-O counterbore T1 B E J Applicable mounting bracket Bore size (mm) Weight (g) Joint part no.
9 w y !8 e i u !6 !9 !5 o t !7 Long stroke t 20 to 32 With air cushion o r t !9 q !2 !4 w e !8 !3 !6 !9 !5 !1 @0 !7 i !0 Long stroke Component Parts Replacement Parts: Seal Kit Bore size (mm) Kit no. Contents 20 CG1KN20Z-PS Set of the nos. !7, !8, !9 No.
Description Material Surface treatment ZR t NBR, Silicone rubber, Urethane rubber, Fluoro rubber, EPR u o Pad q ZM r e w Adapter plate Aluminum w ZH w Hard chrome plated Piston rod Carbon steel e w Spring Stainless steel r ZU Buffer body Aluminum t Electroless nickel plated Buffer adaptor Brass y q q q ZL Electroless nickel plated Adaptor A Brass u Electroless nickel plated X type adaptor
physical property values by circulating uid. m x C x (Tt T0) x V x C x T Q = = t t 1 x 150 x 4.186 x 103 x 10 900 = = 6977 [J/s] 7.0 [kW] m x C x (Tt T0) t x 860 x V x 60 x C x T t x 860 Q = = Cooling capacity = Considering a safety factor of 20%, 7.0 [kW] x 1.2 = 1 x 150 x 60 x 1.0 x 103 x 10 15 x 860 8.4 [kW] = Q x t: Heat capacity [kJ] Thermo-chiller 6977 [W] = 7.0 [kW] Water bath
--20-T, HRS024--20-T 0.8 80 0.7 70 Circulating fluid pressure [MPa] Available area Outlet60Hz 0.6 60 Pump head [m] 0.5 50 0.4 40 0.3 30 Outlet50Hz 0.2 20 Return port Available area 0.1 10 0 0.0 5 0 5 10 15 20 25 Circulating fluid flow [L/min] Fig 9.6-4 Pump capacity(HRS012--20-T, HRS018--20-T, HRS024--20-T) HRS Series 9.6 Pump capacity 9-13 HRX-OM-M090 Chapter 9 Documents 9.6.5 HRS012--20