Clean One-touch Fittings For Driving Air Piping KPQ/KPG Series P D KG M KFG2 A L 8 4.2 MS D KKA H Connection threads KP KP Straight Union: KPQH, KPGH LQ Effective area mm2 D Model L Applicable tubing O.D. mm Note 1) 2 x Applicable tubing Weight g M MQR TPH TPS 4 KPQH04-00 KPGH04-00 10.4 35.4 17 4 4 4 D D T 6 KPQH06-00 KPGH06-00 12.8 18.5 10 10 6 37.6 M M L 8 KPQH08-00 KPGH08-00 15.2 26 18 10 42.4 20.5 IDK 10 KPQH10-00 KPGH10-00 18.5 29 15 46.6 23 41
L 60.5 3 48 2 85.5 5 73 4 110.5 7 98 6 135.5 9 123 8 160.5 11 148 10 185.5 13 173 12 210.5 15 198 14 235.5 17 223 16 19 248 18 20 260.5 VP7 285.5 21 273 No.
Water bath Q = T x V x x C h x 60 x 1000 10 x 2 x 1 x 103 x 4.2 x 103 20C V = 15 x 60 x 1000 After 15 min, = 93.3 W cool 30C down to 20C.
(17) (17) IDH4,IDHA4 Rc3/8 1.25 6.5 N.C N.O M3 (N.C:) (N.O:) 2 Rc3/8 6.5 :1.25m m :M3 24 2 (N.O) (N O 244 80 2 184 35 320 56 2 1 15 275 1 80 207 284 455 70 389 498 ( ?10) ( 10) 15 240 2 1 297 270 62 IDH Series 6.2.
(Manifold specification sheet on page 41.)
+ 35, L2 = n x 41 + 46 Front ported: L1 = n x 41 + 79, L2 = n x 41 + 90 n (stations) PB IN port direction Model Dimensions 9 348 359 384 395 404 415 448 459 8 313 324 349 360 363 374 407 418 10 383 394 419 430 445 456 489 500 6 243 254 279 290 281 292 325 336 7 278 289 314 325 322 333 366 377 4 173 184 209 220 199 210 243 254 5 208 219 244 255 240 251 284 295 2 103 114 139 150 117 128 161
(CN6) 20 34 21 21 12 10 15 16 17 18 19 13 15 10 16 17 24 11 14 9 8 6 3 9 3 3 7 5 2 2 5 2 5 4 4 4 1 1 1 1 1 1 21 21 11 9 8 6 3 9 3 3 22 23 25 26 27 28 23 7 5 2 2 5 2 5 35 36 20 12 10 15 16 17 18 19 13 15 10 16 17 4 4 4 34 24 14 2B 1B 2A 3A 1A 3B Main Board PCB2 2/2 1/2 23 22 25 26 27 22 37 38 39 40 32 20 20 21 10 12 13 15 16 15 16 18 24 24 11 14 3 9 8 6 2 7 7 2 5 (CN8) 4 4 1 1 1 5 1 21 11
Replacement part/grease pack part no. : MH-G04 (30 g) 706 MHY2 Series 180 Angular Type Air Gripper Cam Type Dimensions MHY2-10D Pin hole positioning 30 9 9 2 x M3 x 0.5 thread depth 4 4 (Thread for mounting attachment) 4 x M3 x 0.5 through (Mounting thread) 3H9+ 0.025 0 depth 3 6 0.005 0.025 4 4 x M3 x 0.5 thread depth 6 3 6 (Mounting thread) 2 x 3.4 through 2 x M3 x 0.5 depth 6 12 (Mounting
(Pre-Travel) 1 VH VHS 4 x 5.1 mounting hole 4 x M6 x 1 Thread depth 15 VHS 3 x 1/8 3.0 mm T.T. 2.0 mm O.T. 1.0 mm P.T. 23 N F.O.F. 2315 Series VM800 Series VM800 Roller lever VM830-01-01 Stainless steel sintered roller 17.4 x 7.1 Symbol (OUT) 2 10 12 3 (N.C.) 1 (N.O.) 4 x 5.1 mounting hole Hexagon socket head cap screw M5 x 12 4 x M6 x 1 depth 15 50 T.T. 30 O.T. 20 P.T. 20 N F.O.F. 3 x 1/
41 Wiring . 15 42 Parallel I/O connection check . 18 43 Timing diagram (Example) . 19 44 Monitor mode . 20 2 - LAT3 Series/Card Motor 1.
] 17.8 0.5 IDFB4E 1/2 [453] 17.8 [13] 11.1 10.8 [453] 1.2 [283] 3.1 [275] 10.8 17.9 10.6 1.7 9.1 1.3 0.6 9.4 3.1 IDFB6E [455] 0.6 [270] [31] [42] [80] [230] [32] [15] [240] [80] [275] 3/4 [15] IDFB8E 19.1 22.4 14.0 11.8 [300] IDFB11E [485] [568] [355] IDFB15E 1 11.8 23.7 22.8 1.6 2.1 16.6 3.4 10.2 1.7 0.6 10.6 4.0 15 12.4 0.6 [300] [603] [578] [41] [54] [396] [87] [258] [43] [15] [270] [101
Please refer to the Fig. 9-15, Fig. 9-16 for the Cooling capacity*1 W details.
(mm) (mm) Stroke 5 10 15 20 25 30 40 50 75 100 Y 12.5 15 15 20 20 15 17.5 17.5 25 30 Q 20 20 20 20 30 E 68 68 70.5 68 70.5 68 70.5 75.5 80.5 83 11-10-15 16 Refer to page 11-11-1 concerning further information on specifications of the auto switch single body.
H A 30 ZPNA-M22 34.6 Bolts Dimensions (mm) A 11 d M3 x 0.5 12 7 M4 x 0.7 B 5.5 L 8 8 10 15 8.5 M5 x 0.8 13-11-82
Press Menu (2) (5) (4) (1) (12) (3) (13) (7) (14) (15) (8) (9) (10) (11) (6) Status screen HRL Series 5.4 Description of the Screen 5-15 HRX-OM-Y098 Chapter 5 Display and Setting of Various Functions Table 5.4-2 Screen display of status screen No.
25 Circulating fluid temperature[] Fig. 8-5 Cooling Capacity (HRL100-A-20) 8.4.2 HRL200A20 CH1 30 25 Ambient 20 temperature 32 Cooling capacity [kW] 15 Ambient temperature 45 10 This is the cooling capacity of the 5 CH1 side when 1 kW heat load is applied to the CH2 side. 0 15 20 25 Circulating fluid temperature[] Fig. 8-6 Cooling Capacity (HRL200-A-20) HRL Series 8.4 Cooling Capacity 8-
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 60
10 15 85 29.5 299.5 71 80 16 9 60 10 100 12 30 42 76.5 + 0.058 0 + 0.3 + 0.1 0.032 0.059 D248.5 127 18 12 15 95 38 328.5 81 90 19 9 70 12 110 12 35 50 88.5 + 0.070 0 + 0.3 + 0.1 0.032 0.059 263 148 25 16 18 110 49 352 101 105 23 11.5 86 16 130 15 40 59 106 + 0.070 0 + 0.3 + 0.1 0.032 0.059 -X 31.5 297 192 20 25 140 61 403 119 130 28 13.5 102 20 160 18 48 76 112.5 + 0.084 0 + 0.3 + 0.1 0.040
B AC (83) C A B -16No.PF-OMO0004CN-E 0.450.55 Nm ,, (ZS-33-M) (ZS-33-MS) M34 (84) M3 M3 -17No.PF-OMO0004CN-E M3(2) 0.350.45 Nm (84) M3 DIN DINDIN DIN0.350.45 Nm () DIN DIN F02(G/14)DIN DIN -18No.PF-OMO0004CN-E IN8cm 2F.S.
Moment (Nm) Moment (Nm) Moment (Nm) Load mass (kg) M1 = F1 x L1 Piston speed V (mm/s) ML1C/M2, M3 M2 = F2 x L2 M3 = F3 x L3 Piston speed V (mm/s) (How to calculate the load ratio) A. Consider (1) max. load mass, (2) static moment, (3) dynamic moment (when stopper collides) when calculating the max. allowable moment and load mass.