0.01 End plate L EXH port End plate R 3 0 3 0 3 0 P P P T T T U U U E E E L L L S S S L L L 20.5 81 6 9 6 9 6 9 0.3 0.2 0.1 0.3 0.2 0.1 0.3 0.2 0.1 0 MPa 0.4 0 MPa 0.4 0 MPa 0.4 18 12 Pressure gauge SUP port Rc, NPT, G 1/8 DIN rail mounting bracket 5.3 DIN rail center L3 11.2 L4 24 L5 OUT 3 OUT 2 OUT 4 n Left Right OUT 1 OUT 5 Stations 1 Stations L1 L2 L3 L4 L5 1 106 120 135.5 2 144 38 162.5
VD0.05 PA0.02 PC0.05 GC +0.1 K 0 PB0.02 GA GB VF LA0.1 VA0.02 C VE L 2 x 2 x P H7 depth D 2 x V H7 depth I 4 x NN depth S N 2 x NPT 1/4 G 2 x 2 x MM depth J Hexagon socket head plug 2 x NPT 1/4 G E B RB (mm) Bore size (mm) 50 63 80 C D E GA GB GC I J K L LA LB MM N NA NB NC NN P B 95 48 12 13.7 134.3 138.5 93 10 12 55 376.4 149.5 78.4 M10 x 1.5 19 13 36.5 10.3 M8 x 1.25 10 112 54 12 16.6
L/min 1 L/min 2 L/min (50 ms) 1 L/pulse 070 () L/minL 3F.S. 3F.S. 2F.S. 2 5%F.S.(25 ) 3 3 9 L 4 1L NPN PNP 80 mA DC28 V NPN1 V (80 mA ) PNP1.5 V (80 mA ) 25 0.5 s/1 s/2 s 6 0.5 s/1 s/2 s 15 V 1 k 420 mA DC12 V 300 DC24 V 600 0.4 V ()30 ms 2 4 7 /6 11 ) 5 / 12 DC1224 V10 50 mA -68No.PF-OMM0004-D PF3W711 PF3W721 0.4 V ()30 ms 2 4 7 /6 11 ) 5 / 12 DC1224
Cylinder : MXP10-10 Mounting : Lateral wall mounting Average speed : Va=300[mm/s] L2=20mm L3=30mm Model used Mounting position Average speed Va(mm/s) Allowable load W(N) : Fig.1 Over hung Ln(mm) : Fig.2 W L3+A3 L2 1 N = 0.2248 lbf 1 mm/s = 0.0394 in/s Kinetic energy 2 1 2 420 2 E= =0.018 2 9.8 1000 V=1.4300=420 1 W V 2 E= 2 9.8 1000 Collision speed=1.4Va Corrected coefficient ( ) (
ZR1 W 20 S 1 Ejector exhaust Nozzle diameter 2 Individual exhaust 1 Built-in silencer 10 13 1.0 mm 1.3 mm Port size: RC 1/8 (Nozzle dia. 1.0 to 1.5 mm) RC 1/4 (Nozzle dia. 1.8, 2.0 mm) 15 1.5 mm 18 1.8 mm 20 2.0 mm Maximum vacuum pressure S L 84 kPa 53 kPa 13-3-9 9 Series ZR Ejector Unit/Standard Type (S): Max.
to. : 5.5,5 1 10 '0 '2 '5 ,7 I 5 8 I M4 XO.7 M'2XlO 8 1 6.5 6 J 7 20 7 '0 I 8.5 6 I 7 I 24 9 110 30.5 35.5 40.5 45.5 55.5 I 15 '2 14 20 _' 9 i 6 -8 I MS X: O.8 M14xtO -Flange Mount : CO JPF z H s p A' F GA 2-M3 GB ~-IJ~J I A ~ u: > !
S Couplers Series KK/KK13 Series KK Series KK13 Series KK/KK13 S Couplers Series KK Series KK Male thread type Connection thread size R 3/8 Series Body size 1/8 1/4 1/2 3/4 KK3 KK4 KK6 1/8 1/4 1/2 Female thread type Connection thread size Rc Series Body size 3/8 1/2 1/8 1/4 KK3 KK4 KK6 1/8 1/4 1/2 Nut fitting type Applicable hose I.D.
ASV How to Order AK 01 06 S AS 1 1F G 2 2 ASS Body size 1 2 3 4 Options M5 S None Sealant 1 8, 1 4 8 3 Applicable tube O.D.
REAR CLEVIS DIMENSIONS PART # sDdg L 2 m od NUMBEF BORE BORE n,z -0.002 v -' -0 0037 2 1 9 1.87 o 1 2 CDP.34 50 40, 50,63 (55 5) (47 s) (4) (3) CDP.44 63 0,63 2 8 0 240 0 2 0 0 1 6 ( ro .1339) (71) (61) (5) (4) CDP-5A 80 0 7'l 3 0 1 0 2 0 0 1 6 r a -u.usu I '" -D 093 ' (76 5) (66 s) (5) (4) CDP.6A 80 100 o 7s -9 99?
Stations Stations Scale: 37% [With external pilot] 2n2-One-touch fitting (A, B ports) Applicable tube O.D.: 4 6 13.3 (Pitch) P= 10.5 13.3 24 24 16.2 17.8 16.2 17 36.7 34 B 2 B 2 B 2 B 2 B 2 R 3 B 2 B 2 B 2 B 2 R 3 B 2 PE X A 4 A 4 A 4 A 4 A 4 P 1 A 4 A 4 A 4 A 4 P 1 A 4 2-One-touch fitting 2-One-touch fitting (P, R ports) Applicable tube O.D.: 8 (X, PE ports) Applicable tube O.D.: 6 2n1-M5
Configuration One thermo-chiller for one master. 2 2 R D R D 3 3 S D S D 5 5 S G S G Master This product Fig. 3-13 Connection of RS-232C HRS Series 3.3 Installation 3-25 HRX-OM-W032 Chapter 3 Transport and Setting Up 3.4 Piping Piping port size Connect piping firmly. Incorrect piping might cause leakage of supplied or drained fluid and wet surrounding area and facility.
Note 2) Intermediate strokes are available as a special order. L R S Piping port position Nil Operating direction Left Right L R S a b h g d c f e Note) Plugs are installed in ports other than those indicated for the model.
Selection conditions 2. Selection conditions Mounting: Horizontal Maximum speed: 600 mm/s Stroke: 125 mm Overhang: 80 mm Load weight: 0.7 kg Mounting: Vertical Maximum speed: 800 mm/s Overhang: 50 mm Load weight: 2 kg Refer to graph (7) based on vertical mounting and the maximum speed of 800 mm/s.
With air cushion 2 x M5 x 0.8 Relief port RA GA WA RA GA WA Cushion valve (Width across flats WH) Cushion valve (Width across flats WH) 10 10 20 20 ZZ + 2 Stroke S + Stroke (mm) A AL Bore size Stroke range Standard Long B1 C D E F GA H H1 I J K KA MM NA P RA S 1 2 ZZ 20 20 20 13 14 14 20 20 2 2 2 2 2 2 3 3 12 14 18 25 30 32 40 50 8 10 12 16 20 20 25 30 14 16.5 20 26 32 38 50 60 13 17 17 19
The kinetic energy of a load can be found using the following formula. 20 10 5 M 100 300 1000 2000 500 M 2 2 Ek = Maximum drive speed (mm/s) Ek: Kinetic energy (J) M: Weight of load (kg) : Piston speed (m/s) Example) Find the rod end load limit when a 63 air cylinder is operated at a maximum drive speed of 500mm/s.
[660] (164) 0.6 0.7 Critical pressure 0.65 [658] (158) 0.5 0.6 0.55 Sonic [656] (151) 0.5 0.4 0.45 [654] (143) 0.4 0.3 0.35 0.3 [650] (133) 0.2 0.25 0.2 [646] (120) 0.15 0.1 0.1 0.05 2 2 2 2 3 2 3 2 3 2 03 04 VX211 VX22 VX23 VX2 4 VX2 50 VX2 60-02 VX2 602 10 15 5 3 5 10 15 20 25 30 4.5 10 15 20 30 40 50 60 3 2 6 30 60 8 25 35 10 20 40 10 35 Flow rate Q kg/h Figures inside [ ] indicate
(at 80 mA load current) Response time *5 *7 0.25 s/0.5 s/1 s/2 s/5 s Outputprotection Short circuit protection Output Mode Select from Hysteresis mode, Window comparator mode, Accumulated output mode or Accumulated pulse output mode Response time*6*7 0.25 s/0.5 s/1 s/2 s/5 s Analogue output Voltage output Output voltage: 1 to 5V (Output impedance approx. 1k) Current output Output current
Setting range: 0.1/0.2/0.5/1/2/5/10/30/60 s (Initial value 1 s) The analogue input update time is set for every wireless slave unit. Analogue input update time Define the address assignment direction of the EX600 I/O units connected to the wireless master unit. The address assignment direction is changed by mode 1/mode 2. Be careful about the I/O map.
D-A9 30 Note 1) 15 5 (n = 2, 3, 4, 5) (n = 2, 4, 6) Note 3) (n 2) 2 35 + 35 (n 2) 20 + 35 D-M9V 35 20 5 (n = 2, 3, 4, 5) (n = 2, 4, 6) Note 3) (n 2) 2 25 + 35 (n 2) 15 + 35 D-A9V 25 15 5 (n = 2, 3, 4, 5) (n = 2, 4, 6) Note 3) (n 2) 2 D-M9WV D-M9AV 35 + 35 (n 2) 20 + 35 35 20 10 (n = 2, 3, 4, 5) (n = 2, 4, 6) Note 3) (n 2) 2 D-C7 D-C80 60 + 45 (n 2) 20 + 45 60 20 5 (n = 2, 3, 4, 5