Series MLGP Construction 202532 Series MLGPM Series MLGPL 20, 25: 50 stroke or less Over 100 stroke Type F (Extension locking) Type B (Retraction locking) Section B-B Section B-B Section A-A. . Section A-A *Above figure show the unlocked state. No. Description Note No. Description Note No.
MY-S25 MY-S32 MY-S40 Applicable cylinder A 105 130 145 B 119 148 167 C 35 45 55 D 50 64 80 E 8 11.7 14.8 F 5 6 8.5 G 9.5 11 14 H 5.5 6.6 9 J M6 x 1 M8 x 1.25 M10 x 1.5 A B A B A B MY1H25 MY1H32 MY1H40 MY1 HT Side supports consist of a set of right and left supports.
1.25 12 55 45 5H9 5.5 33 5H9 5.5 297 MSZ Series Proper Auto Switch Mounting Position B A Magnet Operating range proper mounting position (Lm/2) Most sensitive position Operating range of single auto switch (Lm) Reed auto switch Solid state auto switch D-M9 (V), D-M9W (V) D-A9, D-A9V Rotation Size Operating angle m Hysterisis angle Operating angle m Hysterisis angle A B A B 10 20 30 50 190
Hs B A B A 13 Series CM3 Auto Switch Proper Mounting Position (Detection at stroke end) and Its Mounting Height Auto Switch Proper Mounting Position (mm) Auto switch model D-A3lA D-A44A D-G39A Note 2) D-K39A Note 2) D-M9l D-M9lW D-A9l D-B59W D-H7C D-H7BAL D-H7NF D-G5NTL D-B54 D-B64 D-C73C D-C80C A A B A B B B A B A B A B A B Bore size A 20 25 32 40 10 9 6 5 0.5 0 5.5 3.5 2.5 0 0 5.5 4.5
+ Stroke L W G M K J 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 P Q W Z A B A B 50 10 to 50 37 29 42.5 34.5 15 18 57 9 M10 x 1.5 74 6.5 16 8 46 5.5 1/8 13 63.5 15 63 10 to 50 41.5 33.5 46.5 38.5 15 18 70 10 M10 x 1.5 88 6.5 16 8 56 5.5 1/8 14 76.5 15 80 10 to 50 49 40 55 46 21 22 89 12 M14 x 2.0 113 9 19 9 70
Cylinder Pad (ZP02 to 50) Pad (ZPT02 to 50-B4 to 10) Cylinder Rod dia. (mm) Model Thread dia. Rod dia.
B 23.5 A 7.0 B A 10.5 (13.0) B Bore size 50 63 80 23.5 19.5 25.5 12.5 25.5 14.5 25.5 10.5 21.5 14.0 (16.5) 39.5 19.5 39.5 21.5 39.5 17.5 35.5 21.0 (23.5) The values inside ( ) are for the D-A96/A96V.
(The tightening torque should be about 2 to 3 Nm.) (5) Modification of the detecting position should be made in the condition of 3. 16 Table 3 Table 4 17 Table 5 Auto switch model D-Y59 D-Z7 D-Z80 D-Y69 D-Y7P D-Y7H D-Y7W D-A3 D-A44 D-G39 D-K39 D-M9 D-M9V D-M9A D-F5 D-J5 D-J51 D-Y7BA D-P4DW D-A5 D-A6 D-A9 D-A9V Bore size A B A B A B A B A B A B A B A B A B 32 10 6.5 14 10.5 7.5 4 7.5 4 7 3.5
Side support B MY-SB 2 x J MY1B MY1B MY1H E A B MY1B C D MY1M (mm) MY1C A 61 70 87 B C D E F G H J Part no.
7 19 14 M22 x 1.5 26 1/4 83 159 100 Up to 500 40 37 110 41 87 26 50 10 14 66 16 M10 x 1.25 12 23 14 M26 x 1.5 28 3/8 88 168 Rod end nut (Standard) 30 d D C H B [mm] Part no.
If air pressure is applied from the B port side, the shaft rotates counterclockwise.
Round plate (Including column) Position of rotational axis: Through the center axis (B) Number of teetha 1. Find the moment of inertia I for the rotation of shaft (B). B r 2. I is converted to the rotation of the shaft (A). B 2 r I = m2 2 b a I I = A B Number of teethb 5.
2 For 40 to 100 12 BUSHING 1 32 TIE ROD 4 13 HEXAGON SOCKET CAP BOLT 4 33 TIE ROD NUT 8 14 HEXAGON SOCKET CAP BOLT 2 34 WEAR RING B 1 15 WEAR RING A 2 35 ROD END NUT 1 16 PISTON SEAL A 1 36 MAGNET (1) For MDWB 17 ROD SEAL A 1 37 ROD SEAL B 1 18 GASKET 1 38 PISTON SEAL B 1 19 ELEMENT 1 39 CUSHION SEAL 2 20 RELEASE BOLT 1 40 CUSHION VALVE SEAL 2 41 CYLINDER TUBE GASKET 2 43 - Revision history
MXH MXH Vertical Horizontal MXS L1: Load eccentricity MXQ m Mounting orientation m MXQ L H MXF L H MXW Maximum speed (mm/s) Up to 100 Up to 300 x Up to 500 Up to 100 100 b 50 v 200 n 50 m Up to 300 100 , 200 .
9 16.5 19 15 23 6 Width across flats 10 39 19 (4 locations) K (58) 25 19 8 Closed E 9 9 25 Open F 13 13 43 G 4 x M5 x 0.8 through (Thread for mounting attachment) Model A B C D E F G H J MHL2-16DZ 40 45 60 28 68 98 128 26 98 MHL2-16D1Z 70 75 90 58 110 170 200 50 152 MHL2-16D2Z 90 95 110 78 130 210 240 70 192 J dimension is at fully closed.
1 34 FLAT WASHER (8) In case of 80,100 13 HEXAGON SOCKET CAP BOLT 4 35 BUMPER A 1 14 HEXAGON SOCKET CAP BOLT 2 36 BUMPER B 1 15 WEAR RING A 2 37 WEAR RING B 1 16 PISTON SEAL A 1 38 ROD END NUT 1 17 ROD SEAL A 1 39 MAGNET (1) In case of CP96ND* 18 GASKET 1 40 ROD SEAL B 1 19 ELEMENT 1 41 PISTON SEAL B 1 20 RELEASE BOLT 1 42 CUSHION SEAL A 1 21 SEAL WASHER 1 43 CUSHION SEAL B 1 22 HEXAGON
1 34 FLAT WASHER (8) In case of 80,100 13 HEXAGON SOCKET CAP BOLT 4 35 BUMPER A 1 14 HEXAGON SOCKET CAP BOLT 2 36 BUMPER B 1 15 WEAR RING A 2 37 WEAR RING B 1 16 PISTON SEAL A 1 38 ROD END NUT 1 17 ROD SEAL A 1 39 MAGNET (1) In case of C96ND* 18 GASKET 1 40 ROD SEAL B 1 19 ELEMENT 1 41 PISTON SEAL B 1 20 RELEASE BOLT 1 42 CUSHION SEAL A 1 21 SEAL WASHER 1 43 CUSHION SEAL B 1 22 HEXAGON SOCKET
0.1 0.1 15,20 5,10 0.05 0.05 0 0 0 0.2 0.35 0.5 0.65 0.8 0.2 0 0.4 0.6 0.8 1.0 Yaw moment My (Nm) Pitch moment Mp (Nm) MXH16 MXH16 0.16 0.3 60 50 40 0.14 60 50 40 0.25 Displacement (mm) 0.12 0.2 0.1 25,30 Stroke 25,30 15,20 5,10 0.15 0.08 15,20 5,10 0.06 0.1 0.04 0.05 0.02 0 0 0 0.6 0.9 1.2 1.5 0.5 1.0 1.5 2.0 0 Yaw moment My (Nm) Pitch moment Mp (Nm) MXH20 MXH20 0.25 0.35 60 50 40 60 50
Calculate the moment of inertia for A and B separately as shown in the figures on the right. A part B part Procedure Calculation Calculation example 1. Check the operating conditions, dimensions of attachment, etc. Operating model: MHY2-16D Opening time: 0.15 s a = 40 (mm) b = 7 (mm) c = 8 (mm) d = 5 (mm) e = 10 (mm) f = 12 (mm) A part a b c B part e f d 2.
When pressure is applied from A, the piston moves to B, causing the shaft to rotate clockwise. At this time, magnet B goes out of the movement range of auto switch B, causing auto switch B to turn OFF. Furthermore, the piston moves to the right, causing magnet A to enter the movement range of auto switch A.