MY1 Vertical mounting: f = W = 0.3 (Slide bearing) = 0.1 (Ball bushing bearing) W 0.5 NO Confirmation of adjusting bolt capacity W WA Determine the movable mass WA which can be operated only by adjusting bolts.
CS2 Panel mount type Embedded type i e u q r w t y Component Parts No.
9 w !4 CY3B10, 15 !4 !8 !7 !6 !5 !0 i o q u y t r !2 w !1 The above drawing is 15. (3 magnets are used in 10.) CY3B20 to 40 !3 !4 !1 !8 !6 !5 !7 !0 i q o u t y r e w !2 CY3B50, 63 !4 !8 !6 !5 !0 !7 i o q u y t !3 r !2 w !1 Component Parts Replacement Parts/Seal Kit Bore size (mm) 6 10 15 20 25 32 40 50 63 Kit no.
[Vertical] [Load in direction of rod extension] [Load in direction of rod retraction] W D-X SOL.B SOL.C SOL.A W SOL.C SOL.B SOL.A Individual -X 805 Series CLS Specific Product Precautions 4 Be sure to read before handling. Refer to front matters 42 and 43 for Safety Instructions and pages 3 to 11 for Actuator and Auto Switch Precautions. Lock Monitor Manual Unlocking Warning Caution 1.
L1 A1 Mr Static moment Dynamic moment Graph (1) Load Mass: W W W MXJ4 A3 L3 L2 A2 0.10 L3 A3 Rubber stopper Mr Load mass W kg Mp 0.08 My Metal stopper W 0.06 W W 0.04 Mey Mep We 0.02 We L3 L2 A2 0.00 Collision speed V mm/s (Average speed x 1.4) 0 200 100 300 400 500 600 700 A3 MXJ6 Note) Static moment: Moment generated by gravity Dynamic moment: Moment generated by impact when colliding with
Additionally, do not mount the foot bracket with the pressure applied to the port. y 0 A port B port a 1 w y y a e k w of y e e k g n of ra n e io at g ot R n R +4 0 ra ot n io 0 at at ot 8 R io 1 R +4 0 n y ot ra a w n y 0 g at e e k of 9 io 1 n ay ra w n g ey e of k 189
Hs B A W 16, 20, 25 Approx. Hs W A A B CUJ CU 32 to 100 Approx.
Stroke Against Lateral Load D 17 24 27 29 0.7 W W W 500 82 103 116 127 0.3 Bushing (Bearing) fR U 62 79 89 97 0.5 Lateral load applied to rod end (fR) N 100 52 66 75 81 0.7 50 33 43 49 53 0.3 10 23 31 36 39 T 0.5 REC40 REC32 REC25 REC20 5 18 25 29 31 0.7 2 Rod side flange style: F Head side flange style: G 182 167 148 118 Foot style: L 0.3 1 L 140 128 114 90 0.5 0.5 W W W F REA 117 108 95
Stroke Against Lateral Load D 17 24 27 29 0.7 W W W 500 82 103 116 127 0.3 Bushing (Bearing) fR U 62 79 89 97 0.5 Lateral load applied to rod end (fR) N 100 52 66 75 81 0.7 50 33 43 49 53 0.3 10 23 31 36 39 T 0.5 REC40 REC32 REC25 REC20 5 18 25 29 31 0.7 2 Rod side flange style: F Head side flange style: G 182 167 148 118 Foot style: L 0.3 1 L 140 128 114 90 0.5 0.5 W W W F REA 117 108 95
Stroke Against Lateral Load D 17 24 27 29 0.7 W W W 500 82 103 116 127 0.3 Bushing (Bearing) fR U 62 79 89 97 0.5 Lateral load applied to rod end (fR) N 100 52 66 75 81 0.7 50 33 43 49 53 0.3 10 23 31 36 39 T 0.5 REC40 REC32 REC25 REC20 5 18 25 29 31 0.7 2 Rod side flange style: F Head side flange style: G 182 167 148 118 Foot style: L 0.3 1 L 140 128 114 90 0.5 0.5 W W W F REA 117 108 95
Work W Work W Work W Work W Bracket Cylinder goes up Cylinder goes down Lever basic position Lever locked Lock released With cancel cap With lever detection switch RSQ When the lever stands erect (when the energy is absorbed), the switch turns on a signal that determines the pallet has reached the stop position. (For details of lever detection switch, refer to page 595.)
A B W A B W A B W 4.5 (2) 12 16 19 21 17 19 12 12 4 12 4 4 6 4 12 8 8 0 4.5 (2) 16 12 4 12 4 4 6 4 12 8 8 0 Note 1) ( ): D-A96, A9V Note 2) When setting an auto switch, confirm the operation and adjust its mounting position.
22.0 30.0 W 9.5 4.0 4.0 1.5 W 7.5 2.0 2.0 0.5 W 3.5 (6) 2.0 (0.5) 2.0 (0.5) 4.5 (2) A 12.5 11.0 18.0 26.0 B 3.5 4.0 6.5 Note 1) Negative figures in the table W indicate that an auto switch is mounted inward from the edge of the cylinder body.
B W 7.5 (5) (mm) D-A9, D-A9V D-M9W, D-M9 D-M9WV, D-M9V Bore size (mm) A A W B W B A W B 6 12.5 3.5 (6) 16.5 7.5 2.5 16.5 5.5 2.5 10 11.0 2.0 (0.5) 3.5 15.0 2.0 7.5 15.0 0 7.5 16 18.0 2.0 (0.5) 4.0 22.0 2.0 8.0 22.0 0 8.0 20 26.0 4.5 (2) 6.5 30.0 0.5 10.5 30.0 2.5 10.5 Note 1) Negative figures in the table W indicate an auto switch is mounted inward from the edge of the cylinder body.
B + Stroke L K Auto switch 2 x 4 x M6 x 1.0 effective depth 10 A + Stroke M W Rod end male thread MM H1 Width across flats B1 C1 X L1 Rod End Male Thread mm Bore size (mm) MM H1 B1 C1 X L1 20 25 18.5 13 5 12 14 M8 x 1.25 22.5 17 6 15 17.5 M10 x 1.25 Basic Style mm A B C D E E1 E2 F H K L M Q W Bore size (mm) 20 25 Stroke range (mm) 15 to 50 36.5 32 7 10 36 18 21 15.5 M5 x 0.8 8 4.5 25.5 21
16 Minimum lead wire bending radius 10 Auto switch Q F 4 x N through H thread effective depth C 2 x M3 x 0.5 (Port size) I D M E Z L B + Stroke K A + Stroke M G J W Standard [mm] Bore size Stroke range Without magnet for auto switch With magnet for auto switch C D E F G H I J K L M N Q W Z A B A B 12 5 to 30 19.5 16 23 19.5 6 6 23 4 21.5 M3 x 0.5 26 1.5 5 3.5 14 3.5 7 23 8 16 5 to 30 20.5
9 t q @1 w e @0!4 @3 y !6 o u !7 @2 CK1C (Clevis width 12.5) @4 i !2 !0 !1 !3 !5 Component Parts MK No.
R R: Gripping point distance [mm] 6 MHL2 Series Construction 10 16 to 25 e r t u w y @4 @0 @1 @2 !7 !5 !8 @3 !3 e o i q @6 @7 @3 @5 !9 !0 !2 !1 !6 !4 Component Parts No. Description Material Note 1 Body Aluminum alloy Hard anodized No.