17 With adjustment bolt With low/high load shock absorber + adjustment bolt (L/H unit) Standard piping type A unit L unit H unit Operating direction Side Front L R R R L L L R L Back Improved shock-less characteristics when a work piece is stopped.
Magnet: Built-in Magnet, Mounting: Through-hole, Standard, Type: Pneumatic, Bore Size: 50mm, Port Thread: NPT; 32 to 100 Bore, Stroke 1: 50mm, +: +, Stroke 2: 75mm, Body Option: Standard, Rod End Female Thread, Auto Switch Groove: ø12 to ø25, 2 Surfaces; ø32 to ø100, 4 Surfaces, Auto Switch: No Switch, Lead Wire or Prewired Connector: 0.5m (Or None in the Case of No Switch), Number: 2 pcs
Magnet: D (Built-in), Mounting: B [Through Hole (Standard)], Type: Standard, Bore Size: 50mm, Port Thread Type: TN (NPT 32-100 Bore), Stroke: 75mm, Body Option: Standard (Rod End Female Thread, Without thread on 4mm bore), Auto Switch Groove: Z (Auto Switch Mounting Grooves), Mounting Bolt: None, Rod End Bracket: E (Simple Joint B Type + Joint), Auto Switch: M9B--Solid State , Gen. Purpose
Magnet: Built-in, Mounting: B [Through Hole (Standard)], Type: Standard, Bore Size: 50mm, Port Thread Type: NPT 32-100 Bore, Stroke: 75mm, Body Option: Standard (Rod End Female Thread), Auto Switch Groove: Auto Switch Mounting Grooves, Mounting Bolt: None, Rod End Bracket: Simple Joint B Type + Joint, Auto Switch: M9B--Solid State , Gen. Purpose, 2 Wire, Horizontal, Lead Wire or Prewired
Knuckle Pin (Common with double clevis pin) Rod End Nut d d Dd9 C m l L t m t H B Material: Carbon steel Material: Carbon steel Part no. Applicable bore size (mm) 20 25 32, 40 50, 63 80 100 Applicable bore size (mm) Snap ring l D d H B C Part no.
(15) D-M9, D-M9V 0 15 27 (39) 5 (17) d d 8 Data D-F8 0 15 47 25 L L D-F9W, D-F9WV 0 15 27 (39) 5 (17) Dimensions by Mounting Style ( ): Denotes the values of D-A9V, D-M9V and D-F9WV. (1) (2) (3) (4) Bore size (mm) Auto switch model L d L d L d L d D-A9, D-A9V 0 (15) 0 0 28 28 (43) 18 18 (33) 0 (15) 12 D-M9, D-M9V 10 (17) 0 0 28 33 (45) 18 28 (35) 5 (17) D-F9W, D-F9WV 10 (17) 0 0 28 33 (45
(mm) Overhang L (mm) Overhang L (mm) Graph 2 Load Eccentricity 200 mm Graph .
Knuckle Pin (common with double clevis pin) Rod End Nut d d Dd9 C m l L t m t H B Material: Carbon steel mm Material: Rolled steel mm Part no. Applicable bore size (mm) 20 25 32, 40 50 Applicable bore size (mm) Snap ring l Part no.
.-230 Ryan Way, South San Francisco, CA 94080-6370-Main Office: (650) 588-9200-Outside Local Area: (800) 258-9200-www.stevenengineering.com 0.5 0.5 32 32 25 25 20 20 0.1 0.1 10 100 Eccentric distance + Stroke L (mm) 10 100 Eccentric distance + Stroke L (mm) m l S l : Eccentric distance (mm) S: Stroke (mm) Allowable Kinetic Energy L Extension Locking, Without Cushion Retraction Locking, Without
L (Example) A80CL None ...
Refer to How to Order on page1 for the mounting side and a port position relationship. 10 (The effective length of D section) 0 -0.05 SR SR 72 66 330.05 330.05 D 0 -0.05 D 0 -0.05 T 330.05 330.05 66 (Only for models with a guide pin greater than 17.5) Diamond shape Round shape Guide pin shapes (L) (H) 10 (when the shims are attached) (A clamp stroke) (Clamp stroke) 10 0 -0.5 65 40 A (L) (
200 (12) 200 (6) Load eccentricity (l mm) (3) Selection graph L: Overhang (the distance from the cylinder shaft center to the load center of gravity) The direction of L can also be a diagonal direction.
L L 6 6 6 L = 80mm L = 80mm L = 80mm MXP 6-5 MXPJ6-5 MXP 6-10 MXPJ6-10 MXP 6-5 MXPJ6-5 MXP 6-10 MXPJ6-10 MXP 6-5 MXPJ6-5 MXP 6-10 MXPJ6-10 0.05 0.05 0.06 0.04 Table displacement mm Table displacement mm Table displacement mm 0.04 0.03 0.04 0.03 0.02 0.03 0.02 0.02 0.01 0.01 0.01 0 10 20 30 40 Load N 0 10 20 30 50 Load N 0 10 20 30 40 Load N 40 10 10 10 L = 100mm L = 100mm L = 100mm MXP10-
Applicable bore size A1 E1 D1 L1 MM R1 U1 ND NX NZ L Split pin size Flat washer size Shaft diameter: NDH10 Split pin Hole diameter: NDd9 L L MM Flat washer: Polished round D1 D1 MM Y-04D 40 22 24 10 55 M14 x 1.5 13 25 12 16 +0.3 +0.1 38 55.5 3 x 18 L Polished round 12 E1 NX NZ L A1 L1 U1 A1 L1 U1 Y-05D 50, 63 27 28 14 60 M18 x 1.5 15 27 12 16 +0.3 +0.1 38 55.5 3 x 18 L Polished round 12 E1
Rc1/4 2 pcs. per switch 2 pcs. per switch Hexagon socket head cap screw 27 Steel wire M4 x 0.7 x 8 L MK2T Low carbon steel wire rod Rolled steel Rolled steel Resin Urethane NBR NBR Hexagon socket head cap screw 28 Steel wire M3 x 0.5 x 14 L CK1 CK1 Zinc chromated 29 30 31 Switch mounting spacer Cushion ring Spacer 2 1 2 Aluminum alloy Aluminum alloy Bearing alloy Anodized CKG1C only CLK2
YES Calculation of resistance force f n 1 (L/GP) 2 (Provided that L > GP) Calculation of theoretical output F L W Refer to Theoretical Output 1 on page 8-27-3.
Vertical Horizontal l: Load eccentricity m Mounting position m L L to 100 to 300 Maximum speed mm/s to 500 to 100 to 300 to 500 Load eccentricity lmm 100 50 200 100 50 200 100 50 200 1 2 3 4 5 6 7 8 9 10 11 12 Selection graph L: Overhang (the distance from the cylinder shaft center to the load center of gravity) The direction of L can also be a diagonal direction .
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