Air Cylinder Series CS1 ø125, ø140, ø160, ø180, ø200, ø250, ø300 1 VQ1000-FPG-C4M5-D: 6 sets Double check block 757 S0700 Series Construction Body Ported Construction 2(B) (A)4 S0716 2-Position Single r u e w q 3(R2) (R1)5 1 (P) t y i 2-Position Double S0726 2(B) (A)4 r u e w q 3(R2) (R1)5 1 (P) t y i 3-Position Closed Center S0736 r u e w q 2(B) (A)4 (R1)5 1 (P) 3(R2) t y i 4-Position Dual 3-Port Valve S07A6 r u e w q 2(B) 4(A) 5(R1) 3(R2) 1(P) N.C. + N.C
1 u y t r e w q i r e IN w IN q t y u i o !0 u y t o i !0 Component Parts Component Parts No. Description Material 1 Body ADC 2 Main valve Resin 3 O-ring NBR 4 Bonnet ADC 5 Seal NBR 6 Washer Fe (Chromated) 7 Compression nut ADC 8 Hexagon bolt Stainless steel No. Description Material No.
Cable wire color Terminal 1 Brown DC+ q 2 Not used N.C. w 3 Blue DC e 4 White IN: 1 to 5 V r Power supply / Output connector (8P) Power supply / Output connector (accessory) i u y t r e w q Pin no. Pin no. Terminal 7 Green CH4_OUT1 8 Yellow N.C.
bore 1/8 R 4-R 4-R 36.8 E 36.8 E R P VEX P D D AMR + + MADE IN JAPAN ITV MADE IN JAPAN SMC SMC IC VBA Model Port size A B C D E G H I VE K L M N P Q R AV2000-02-G AV2000-02-GS AV2000-02-D AV2000-02-DZ AV2000-02-Y AV2000-02-YZ AV3000-03-G AV3000-03-GS AV3000-03-D AV3000-03-DZ AV3000-03-Y AV3000-03-YZ AV4000-04-G AV4000-04-GS AV4000-04-D AV4000-04-DZ AV4000-04-Y AV4000-04-YZ AV5000-G AV5000
Extension stroke end adjuster Retraction stroke end adjuster 52 Air Slide Table Low Thrust with High Rigidity Type 6, 8, 12, 16, 20 MXQB Series RoHS How to Order B 30 ZA MXQ 12 M9BW q w e r t y u w Body option q Bore size e Standard stroke [mm] Standard type Symmetric type B BL 6 10, 20, 30, 40, 50*, 75* Port Port Switch mounting groove Switch mounting groove 8 10, 20, 30, 40, 50, 75*, 100
6 #6 @9 r A $1 $2 $3 $4 t y w e !1 !2 !3 !4 !5 !7 !8 @8 i o !0 @3 @2 y u #5 y $5 CY1F15 Detailed view of driving cylinder CY1F25 Detailed view of driving cylinder @7 Section A-A Component Parts Note Material No. Description Note 25 26 27 28 Material No.
MXF Calculation of resistance force f MXW San 1 (L/GP)2 (provided that L>GP) MXP Calculation of theoretical output F MG L (mm) W MGP Refer to the table of theoretical output on p.3.8-3.
Refer to Best Pneumatics No. 2-1 for details. 361 CH2E/CH2F/CH2G/CH2H Series Construction @7 q y i @8 !4 #1 @6 @1 u @0 #0 o w !5 !8 !9 !6 !7 @9 !2 @2 @4 t e !0 CH2G Series !3 @3 r @5 !
p p p m m m m m m m p p p p p p p p m m m m m M m M m R p m p p p m m m M m R m p R M p m p p m p m p M m m m m M m p p M m M p p m m m m p m M M m R m m m p m m p m m p p m p m p m p m m R p m m p m p m m M M m m m m p m m p M m p m p m m m m p m M p p m m R p p p p p p p p R p p p m m p m m R p m p m p m m p M p m m m m p p m p p m p m m p R m p p p R m p p p R p p m m p m m p p p p p p
I$ODEL NO. 2 , 1 3 (s4) S P & S P A 0 1 1 3 43 y. qB siB s/B s/g 9a SP & SPA 0114 54 B B B B sP & sPA 0115 45 S s 2 MTNG HOLES I .FOOTPRINT' CLASS 1 SUB.PLATE MOUNTED 'SWAY VATVES '49 i.'8 (?
Foot: CG3LN Bore size Stroke S+ Stroke H t (Clearance)1 GB GA 2 x P Width across flats NA With rubber bumper 8 x J Rod part A MM AL I H1 C Width across flats B1 B (LT) 15 LH H2 D W Width across flats KA W 2 x LC (Knock pin position) C Y X M 4 x LD X Y LX LZ Sectional view of the rod part LS+ Stroke ZZ+ Stroke Z 1 The rod end nut should be mounted in the position t (clearance) so that it will
I$ODEL NO. 2 , 1 3 (s4) S P & S P A 0 1 1 3 43 y. qB siB s/B s/g 9a SP & SPA 0114 54 B B B B sP & sPA 0115 45 S s I 2 MTNG HOLES .FOOTPRINT' CLASS 1 SUB.PLATE MOUNTED 'SWAY VATVES '49 i.'8 (?
W-rth std. gauge. An individualSUP spacer on manifold block can form individual P oort for the valve. ffi I NWFgTOOO| NWF9+oOOtP-{)0T-1 P-ff]T-2 %% Nore) Fd prssr|e center Vpe valves, use p/n NAFBF3000.
determination F3 D 1.6 x P WB Inclined operation W + WB WV P PV W + WB WV P PV Allowable driving force table (Fn) (n=1,2,3) Determination of allowable load weight & pressure F1 = x (W + WB) x 9.8 Horizontal F2 = (W + WB) x 9.8 x (COS + SIN) Inclined (Refer to page 5 for vertical operation.)
O e b u t ) h c n i ( . n i M e l o h . a i d d a e r h T T P N . o N t r a P H ) . x e H ( D 1 D 2 L 1 L 2 A * M . t W ) f g ( 8 / 1 S 4 3 7 0 Y R K 7/ 6 1 ) 1 1 . 1 1 ( 8 6 . 0 ) 2 . 7 1 ( 9 3 . 0 ) 0 1 ( 9 8 . 0 ) 5 . 2 2 ( 3 9 . 0 ) 5 . 3 2 ( 5 6 . 1 ) 2 4 ( 5 7 . 0 ) 9 1 ( 8 1 . 0 ) 6 . 4 ( 4 1 4 / 1 S 5 3 7 0 Y R K 9/ 6 1 ) 9 2 . 4 1 ( 8 0 . 1 ) 5 . 7 2 ( 3 7 . 1 ) 4 4 ( 4 2 4 / 1