5 Port Solenoid Valve together beneath the manifold base part number. 1 to 2 stations AS-Interface 31 slave, 4 in/4 out, 2 isolated common type 1 to 4 stations AS-Interface 31 slave, 8 in/8 out, 1 common type 1 to 2 stations AS-Interface 31 slave, 4 in/4 out, 1 common type
25.5 34 25.5 31.5 28.5 25.5 38.5 27.5 36.5 27.5 71.5 27.5 81.5 27.5 29.5 26 30 26 42 33 31 38.5 31 36 33.5 31 43.5 34.5 41 34 77 87 33.5 31 34.5 31 46.5 39 36 43 36 40.5 38.5 36 48.5 39.5 46 39 83.5 93.5 39 36 40 36 51.5 44 45 52 45 49 46.5 45 55 46.5 52.5 46.5 92.5 103 47.5 45 48.5 45 58 51.5 53.5 59.5 53.5 57 54 53.5 62 55 59.5 55 103 113.5 55.5 53.5 56.5 53.5 65.5 60.5 64.5 71
29 30 NN 2 2 3 3 4 4 G 7 14 8 8 31 N 4 4 6 6 6 6 HA 19 28 27 31 58 60 Model F 25 25 26 32 46 50 GA 13 14 29 39 37 61 KA 82.5 112.5 NA 4 4 4 4 8 8 MXQ8L-10 MXQ8L-20 MXQ8L-30 MXQ8L-40 MXQ8L-50 MXQ8L-75 Note) Note) Note) Refer to the bottom view of MXQ8L-30. 104 Air Slide Table Series MXQ With shock absorber (8): MXQ8L-BS/BT/B MXH Stroke Adjustable Range !!
Size: 10 31 2 x M3 x 0.5 through 2 x 3.5 through 25 Chamfer (Rotation range is stated on page 70.) 25 31 41 B port A port 29 9h9 0 0.036 17 4g70.004 0.016 0.5 2 x 3.5 through 9 14 31 29 1 3 10.6 7 16.5 9.5 2 x M3 x 0.5 1 18.5 35 19.8 67 2 15 When D-M9m is used *1.
Refer to p.1.7-34 for details. 1-7-31 Series CG1KW Weight (kg) Mounting Bracket Part No.
Mey = 1/3 x 16.8 x 9.8 x = 3.3 (30 + 31) 1000 Find the load factor 3 of the dynamic moment. 3 = Me/Mea We = 16.8 A4 = 31 Meay = 11.1 (Same value as Meap) ' 3 = 3.3/11.1 = 0.30 3-4 Sum of Load Factors n = 1 + 2 + 3 1 Possible to use if the sum of the load factors does not exceed 1. n = 1 + 2 + '2 + 3 + '3 = 0.25 + 0.025 + 0.025 + 0.20 + 0.30 = 0.80 1 And it is possible to use. 52 Air Slide
Contents Set of nos. above REAH20-PS 32 , , 34 , 35 , 36 33 30 , 31 , 25 REAH25-PS Note) It may be difficult to replace the cushion seal . Seal kit includes a grease pack (10 g). Order with the following part number when only the grease pack is needed.
A A1 E1 L1 MM RR1 U1 NZ L 42 56 71 79 14 18 21 21 22 28 38 44 30 40 50 55 M14 x 1.5 12 16 21 24 14 20 27 31 I-G04 I-G05 I-G08 I-G10 10 14 18 22 18 22 28 32 +0.058 0 0.3 0.5 36 42 56 71 79 16 20 23 24 22 28 38 44 30 40 50 55 M14 x 1.5 12 16 21 24 14 20 27 31 41.6 Y-G04 Y-G05 Y-G08 Y-G10 10 18 22 28 32 IY-G04 IY-G05 IY-G08 IY-G10 +0.5 +0.3 +0.058 0 M18 x 1.5 +0.070 0 0.3 0.5 44 M18 x 1.5 50.6
slave modes, 2 power supply systems 1 to 4 stations (8 stations, 8 points) SDTB AS-Interface, 4 in/out, 31 slave modes, 2 power supply systems 1 to 2 stations (4 stations, 4 points) SDTC Note 2) AS-Interface, 8 in/out, 31 slave modes, 1 power supply system 1 to 4 stations (8 stations, 8 points) SDTD Note 2) AS-Interface, 4 in/out, 31 slave modes, 1 power supply system 1 to 2 stations (4
Refer to Glossary on page 31, for details on the max. operating pressure differential and the max. system pressure.
For applications where a piston with inertial force strikes a cover and stops at the stroke end, follow the cylinder model selection procedure (front matters 21 and 31), or select while taking into account the allowable kinetic energy indicated in the each model specifications. 3.
In the unlikely event that malfunction is caused by ground, please disconnect the unit from ground. 31 These safety instructions are intended to prevent hazardous situations and/or equipment damage. These instructions indicate the level of potential hazard with the labels of Caution, Warning or Danger.
29.5 30.5 26 27 30.5 31.5 24.5 25.5 27.5 28.5 Rod end 44 25 (33) 40 21 (29) 39.5 20.5 (28.5) 36 17 (25) 40.5 21.5 (29.5) 34.5 15.5 (23.5) 37.5 18.5 32 (26.5) Double end 44 35 40 31 39.5 30.5 36 27 40.5 31.5 34.5 25.5 37.5 28.5 Head end 39 41 35 37 34.5 36.5 31 33 35.5 37.5 29.5 31.5 32 34.5 Rod end 48 27 (36) 44 23 (32) 43.5 22.5 (31.5) 40 19 (28) 44.5 23.5 (32.5) 38.5 17.5 (26.5) 41 20.5
76 25 19 16 M12 x 1.75 Bore size [mm] K KA LZ M MM N P PG PH PL PW S Without rod boot With rod boot H ZZ e f h l ZZ 40 6 14 71 11 M14 x 1.5 27 1/4 42 11 20 45 153 51 215 43 11.2 59 1/4 stroke 223 50 7 18 80 11 M18 x 1.5 30 3/8 46 10 21 50 168 58 237 52 11.2 66 1/4 stroke 245 63 7 18 99 14 M18 x 1.5 31 3/8 48.5 13 23 60 182 58 254 52 11.2 66 1/4 stroke 262 80 10 22 117 17 M22 x 1.5 37 1/2
Since there are other applicable auto switches than listed, refer to page 6-5-31 for details.
Without rod boot Z 190 207 214 241 With rod boot ZZ 211 228 238 269 Bore size (mm) Z 210 229 236 261 ZZ 231 250 260 289 20 25 32 40 9-2-31 30 Series CLG1 Basic Style with Air Cushion: CLG1BA Refer to page 9-2-31 for mounting bracket, since the dimensions except GA, P , WA, WB, WH, WW, W are the same.
Yawing Examine Mey (30+31) Mey=1/3 X 16.8 X 9.8 X =3.3 1000 We=168 A4=31 Meay=11.1 (Same value as Meap) a3=3.3/11.1=0.30 Mea=K g Mmax Work mounting coeficient K: Fig 3 Allowable moment coeficient g: Graph 2 Max. allowable moment Mma: Table 4 a3=Me/Mea Calculate load rate a3 of kinetic moment. 3-4 Sum of load rate San=a1+a2+a2+a3+a3 =0.25+0.025+0.025+0.20+0.30=0.801 And it is possible to use
26.5 32 35 37.5 38 34.5 32.5 29.5 35.5 31 40 40.5 43 43.5 42 40 37 43 38.5 50 47.5 50 50.5 42 40 37 43 38.5 63 59 49.5 46.5 48 80 69.5 49.5 46.5 48 100 ( ): Denotes the dimensions for long stroke, bore size 20 to 100, double rod.
Description Material Note 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 No.
: EtherNet/IP (35) 31 (87.9) 82 (35) 31 1 (85) 82 1 For body mounting 4.5 For body mounting 4.5 152.2 152.2 170 161 170 161 18.2 18.2 4.5 For body mounting 4.5 For body mounting Trademark DeviceNet is a trademark of ODVA.