Environment Lx = 400 mm, Ly = 250 mm, Lz = 1500 mm 4.
Note) Since the electrical entry is LO, select a connector assembly part no. from those stated on page 90.
LEY A (Table traveling distance) Note 2) 86 (165) (86) 90 13 88 [(90)] (3.1) Stroke (90) [88] 61 LES [Origin] Note 4) Origin Note 3) 4 [2] 2 [4] 65 48.5 20 LEPY LEPS (68) 8 20 31 Motor cable (2 x 5) LER 68 53.8 12.9 8 Vacuum port Rc1/8 M4 x 0.7 thread depth 8 (F.G. terminal) LEH Motor option: With lock LEY -X5 Cable length 250 (214) 65 15 11LEFS 11LEFS 20 20 11LEJS Lock cable (3.3) 20 Motor
50.00 40 40 20.00 50mm 40mm 60 40% 60% 40 No. mm/s mm % % mm 0 ABS 250 40.00 60 40 20.00
106 122 138 154 170 186 202 218 234 250 266 282 298 314 330 Stations n L1 L2 Type 42 manifold ...
Fig. (2) Fig. (3) 3-3-90 90 Series VZ1000 Exploded View/DIN Rail Manifold Type 25F manifold e y t VK VZ (b) Block pin U side VF r q VFR w VP4 Courtesy of Steven Engineering, Inc.-230 Ryan Way, South San Francisco, CA 94080-6370-Main Office: (650) 588-9200-Outside Local Area: (800) 258-9200-www.stevenengineering.com VZS Location of addition VFS (a) Bolt (Both sides) VS4 VQ7 Replacement Parts
Selection ZL112 ZL212 Exhaust Characteristics Exhaust Characteristics ZX 100 90 100 90 Vacuum pressure Vacuum pressure 300 150 Suction flow rate (/min (ANR)) Air consumption (/min (ANR)) Suction flow rate (/min (ANR)) Air consumption (/min (ANR)) 250 125 Vacuum pressure (kPa) Vacuum pressure (kPa) ZR 80 80 Suction flow rate Suction flow rate 70 70 200 100 60 60 ZM Air consumption Air consumption
115 140 165 36 18.2 32 72 85 97 110 135 160 185 12.5 25 37.5 50 75 100 125 52 65 77 90 115 140 165 36 18.2 40 77 90 102 115 140 165 190 12.5 25 37.5 50 75 100 125 54 67 79 92 117 142 167 46 20.2 Built-in One-touch fitting With rod boot With air cushion (mm) Symbol Bore ZZ Bore WA G N1 WB P Q Stroke 1 to 50 17.5 13 8 8.5 6 23 20 20 Bore 51 to 100 101 to 150 151 to 200 201 to 300 301 to 400
Locking type manual release While pushing the M/O knob, turn it 90 counterclockwise. The lock is released (and remains in a released state) by aligning the mark on the cap with the OFF mark on the M/O knob. When locking is desired, turn the M/O knob 90 clockwise while pushing completely down, and align the mark on the cap with the ON mark on the M/O knob.
(mm) Z Y P X Y W R V U T S R Q 20 20 20 100 st or more 250 to 400 157 80 Rc 1/8 Rc 1/8 Rc 1/8 Rc 1/8 Rc 1/4 30 88 40 14 48 82 12 26 12 21 25 25 25 125 st or more 350 to 500 175 80 37 88 46 14 57 100 13 31 12 21 32 32 32 150 st or more 350 to 600 201 82 37 90 52 14 65 114 16 38 12 21 40 40 40 200 st or more 350 to 800 238 92 44 101 62 15 84 138 20 47 12 25 50 50 50 250 st or more 350 to 1000
KNL6-06-200 KNL6-08-200 KNL6-08-250 KNL6-10-250 KNL6-10-300 O.D.
to 1000 35 50 0.042 0 250 to 1000 11 72 75 7 11 80 16 23 58 20 60 80 35 32 63 55 0.074 0 250 to 1000 13 89 78 10 13 90 20 23 61 25 75 95 40 37 80 65 0.074 0 250 to 1000 16 110 80 10 13 95 20 25 63 30 90 116 40 37 100 80 0.074 Bore size (mm) ZZ Y 6.8 to 11.3 WH 335 X 10 P 30 S 1/2 NF 215 NE 24 ND 25 MM 27.7 M M18 x 1.5 LZ 7.5 LX 73 LY 53 LT 88.5 LS 10 LH 275 52 50 342 10 37 1/2 215 24 24.5
[mm/s] 801900 24 to 610 16 to 410 8 to 200 9011000 24 to 500 16 to 340 8 to 170 500 10 to 500 5 to 250 20 to 1000 12 to 500 6 to 250 24 to 1200 16 to 500 8 to 250 Actuator specification 501600 20 to 900 12 to 500 6 to 250 24 to 1200 16 to 500 8 to 250 Driver type LECPA Note2) 601700 20 to 630 12 to 420 6 to 230 24 to 930 16 to 500 8 to 250 Stroke Speed range 701800 20 to 550 12 to 330 6
) 204.5(218.5) 98 80 219.5 + l 226.5 210.5 C76 239 + l 217(231) + l 82 76(90) 208(222) 98 100 223 + l 230 214 ( ): Denotes the dimensions for long stroke.
The intermediate strokes that do not use a spacer are made to order "XB10" shown on p.5.4-1. 125, 150, 175, 200, 250 MGP 10, 20, 30, 40, 50, 75, 100 12 16 M L MXS 20 25 MGP 20, 30, 40, 50, 75,100, 125, 150, 175, 200 M L 250, 300, 350, 400 MXQ 32 40 50 63 80 100 MXF MGP 25, 50, 75, 100, 125, 150, 175, 200 M L 250, 300, 350, 400 MXW OUT IN MXP Theoretical Force (N) MG Rod diameter (mm) Operating
0/.000 P[r2050(n(s] 12.06 751 +.010/.000 .t 51 +.010/.000 t.250 + . 0 0 0 / . 0 1 0 l_50 .630 +.020/.0002.88 1.50 t.50 t_40 t.06 N/A .90 8.2 P 2 | 00(ttt5l 16.06 .t 5l +.010,/.000 t.250 +.000/.010 1.50 .630 +.020/.0002.88 1.50 1.50 1.40 t.06 .90 t.3 PM2t 50qil(S) 21.13 t51 +.010/..000 .7 5l + 010/000 i.250 +.0001-.010 t.50 .630 +.020/..000 2.88 t.50 t_50 t.40 1.06 r.r/A .90 11.1 8.3?
to 250 X 50 EPR 20 to 150 X X X The above table covers only general characteristics of subject rubber materials.
95 A B 77 115 142 176 176 250 268 E 47 47 H 22 23 26 25 35 35 C 26 36 38 40 38 41 45 J 5.4 6.5 8.5 8.5 11 11 K 8.4 8 10.5 10.5 13 13 L 40 53 70 70 90 90 M 2.3 2.3 2.3 2.3 3.2 3.2 AL10 AL20 AL30 AL40 AL40-06 AL50 AL60 M5 x 0.8 1/8, 1/4 1/4, 3/8 1/4, 3/8, 1/2 3/4 3/4, 1 1 25 40 53 70 75 90 95 Optional specifications Metal bowl B 82 121 142 176 176 250 268 Model Metal bowl with level gauge
D 3B (90) ORIENTATION N N OUT IN 250 DRAIN Rc3/8 Standard Models (mm) Maximum operating pressure Element length (L) Internal volume (L) IN/OUT Flange standard Weight (kg) N (Port size) A B C D Model 15 (1/2B) 185 380 447 467 15 20 (3/4B) 250 2 185 380 450 470 15 25 (1B) 185 385 467 487 15 JIS 10KFF 1 MPa FGC1 15 (1/2B) 185 645 712 732 19 20 (3/4B) 500 3 185 645 715 735 19 25 (1B) 185 650
EMC (2) EMC EMC MCCB MC 1 4 L1 (1) 2 5 (1) L2 3 6 L3 E L11 L21 ( (RSPD-250-U4) () (2) (2) (RSPD-250-U4) (OKAYA) 1 2 3 1. AC200V240VL1L3L2 2. 11 29 11.