VZ100/300/500 M5 x 0.8 b Cv b Cv VV3Z1-01-1 VV4Z1-20-1 1/8 How to Order Manifold Instruct by specifying the valves and blanking plate assembly to be mounted on the manifold along with the manifold base model no.
0) 1(0) 2(0) 7 B 0(0) 0(0) 1(0) 6 B 0(0) 0(0) 0.5(0) 5.5 A 6(4) 6(4) 7(5) 12 B 5(3) 5(3) 6(4) 11 B A B 1.5(0) 1.5(0) A 7(5) 7(5) 8(6) 13 B 6(4) 6(4) 7(5) 12 A 4(2) 4(2) 5(3) 10 B 3(1) 3(1) 4(2) 9 A 0.5(0) 0.5(0) 1.5(0) 6.5 A Hs 22.5 25 28.5 32.5 Hs 25 27.5 31 35 Hs 60 62.5 66 70 Hs 69.5 72 75.5 79.5 Bore (mm) 20 25 32 40 4.5(2.5) 3.5(1.5) 2.5(0.5) 4.5(2.5) 3.5(1.5) 2.5(0.5) MGQ 5.5(3.5) 10.5
2 1 1 1 1 1 L, H -X 1 X416 20LH, HL 1 1 1 2 1 1 Data L, H, LS, SL, HS, SH L, H X417 LH, HL Note 1) For LS, SL, HS and SH, the stroke adjusting unit is mounted on one side only.
9i @2 q r y#0 $0 $2 w $3 #8 @9 A C B Section A !2 !2 #4 @6 #9 @8 $4 #2 #1 #6 #7 $6 !0 u @5 !6 @1 !1 $7 o $8 e $1 !2 Section B Section C 100 80 63 50 40 32 80, 100 80, 100 Description Material Note Parts list Description Material Note Parts list No. No.
H A B T Lead 24 16 8 30 20 10 27 42 Parameter *1,*2 Para.
Gear transmission Number of teeth = a 1.Find the moment of inertia IB for the rotation of shaft (B). 2.Next, IB is entered to find IA the moment of inertia for the rotation of shaft (A) as I = m 12 a + b b a IA = ( )IB Number of teeth = b 15 Technical Data/Moment of Inertia C Moment of Inertia Calculation Examples Rotational Axis at Random Point in Load 1 Example) When load is a rectangular
Grommet: G Conduit: C 2-M 2-M L L K Approx. 300 K Q F D Approx. 280 D Q F C R C G (PF) 1/2 R E B A H E 2-P Port size A H 2-P Port size B DIN connector: D Conduit terminal: T 2-M 2-M L L K Cable 6.8 to 10 K 27.5 F F Q (Q) 34 S 25 U R C R C G (PF) 1/2 (44) E B A H D (S) E G (PF) 1/2 B A H D 2-P Port size 2-P Port size N.C.
HRLE Series HRX-OM-Z015 Chapter 1 Read before using Contents Chapter 1 Read before using . 1-1 1.1 OPERATION MODE AND OPERATION METHOD . 1-1 1.2 CHANGE OF OPERATION MODE . 1-2 1.3 COMMUNICATION TERMINAL BLOCK . 1-3 1.4 OPERATION DISPLAY PANEL FLOW . 1-4 Chapter 2 Contact input / output communication . 2-1 2.1 PRECAUTIONS FOR COMMUNICATION . 2-1 2.1.1 Precautions wiring communication . 2-1
Memory map of input data Data (2 byte) Input area Branch connector (INPUT) MSB LSB MSB LSB 15 8 7 0 byte (b+1) byte (b) Word (a) COM A byte (b+3) byte (b+2) Word (a+1) COM B byte (b+5) byte (b+4) Word (a+2) COM C byte (b+7) byte (b+6) Word (a+3) COM D (a, b=0 to) Memory map of output data Data (2 byte) Output area Branch connector (OUTPUT) MSB LSB MSB LSB 15 8 7 0 byte (d+1) byte (b) Word
LSB -21No.EX-OMN0038-C (2)Signed binary data format and twos complement data format Input signal range: 0 to 10 V, 0 to 5 V, 0 to 20 mA Input signal range: 1 to 5 V, 4 to 20 mA AD value Input signal range (a to b) AD value Input signal range (0 to b) Voltage [V] Current [mA] Hexadecimal Voltage [V] Current [mA] Hexadecimal Decimal Decimal number number 1 to 5 V 4 to 20 mA number number 0
8 @5 @1 i @8 !4 !5 !2 @9 !3 w Component Parts Qty. 2 1 1 2 1 1 3 1 1 1 1 1 2 1 2 2 1 1 Note 8 12 to 40 Qty. 1 1 1 1 1 1 1 1 1 1 1 1 2 1 1 1 Note Clear anodized Clear anodized Hard anodized Chromated Chromated 8: Quenched Description Material Description Rod cover Head cover Cylinder tube Piston Spacer for switch type Material No. q w e r t No. Aluminum alloy !
1 Foam rubber Special bearing material Piano wire Carbon steel Only with bumper Zinc chromated Zinc chromated 10-18-10 10 Shock Absorber: Short Type Series RBQ Dimensions Bumper RE A B REC CX CY MQQ M Series RBQ Basic type Series RBQC With bumper RHC MK(2) (mm) RS Q G Model Basic type With bumper Shock absorber h Hexagon nut B G LL S F D M16 x 1.5 M20 x 1.5 M25 x 1.5 M30 x 1.5 M32 x 1.5 H
t = 25C m 2 1 2 m 2 1 2 R Operating condition Impacting object weight Collision speed Dropping height Angle speed Distance between axis of cylinder and impact point Bore size Cylinder operation pressure Thrust Torque Operation cycle Ambient temperature Friction coefficient Symbol m h r d p F T n t Unit kg m/sec m rad/sec m mm MPa N Nm cycle/min C 2 gh m RHC R m 2 1 2 m 2 1 2 1 2 T S
-Safety JIS B 8370: JIS B 8361: JIS B 9960-1: -1 JIS B 8433-1993: *2) 1. 2. 3. 1. 2. 3. 4. 5 - LEC-T1 Series/ / 3) *3) 1 1 1.5 1 () 6 - TB Ver.
1: General requirements) ISO 10218-1992: Manipulating industrial robots -Safety JIS B 8370: General rules for pneumatic equipment.
0.5 0.6 0.7 F 200 V Black COM (0 V) G Shield Data A phase output pulse Connector pin arrangement B phase output pulse G A F B H E D C 0 1 2 3 4 3 2 1 Counter value 10-12-55
(MPa) LQ 2 0.16 3.8 0.9 2.0 3 0.33 7.9 0.45 0.8 1/8 (6A) 1/4 (8A) 3.0 1/8: 0.21 1/4: 0.24 LVN 2 VCW2 4 0.51 12 0.25 0.5 TI/ TIL 5 0.65 16 0.15 0.3 3 0.35 8.4 0.8 2.0 PA 4 0.54 13 0.42 0.8 1/4 (8A) 3/8 (10A) 1/2 (15A) 1/4: 0.42 3/8: 0.40 1/2: 0.49 VCW3 3 5 0.80 19 0.23 0.5 3.0 PAX 7 1.4 33 0.13 0.2 10 2.1 50 0.1 PB 3 0.35 8.4 1.2 3.0 1/4 (8A) 3/8 (10A) 1/2 (15A) 3/4 (20A) 1/4: 0.58 3/8: 0.55
#-E#-### PNP (1 output) + Analogue (1 to 5 V) output type PF2MC7###-##-F#-### PNP (1 output) + Analogue (4 to 20 mA) output type Maximum load current: 80 mA Internal voltage drop: 1.5 V or less E: Analogue output: 1 to 5 V Output impedance: 1 k F: Analogue output: 4 to 20 mA Maximum load impedance: 600 Minimum load impedance: 50 PF2MC7###-##-A/B#-### PNP (1 output) + External input type
300.025 300.025 300.025 300.025 300.025 300.025 300.025 250.03 1500.05 300.05 250.03 1000.05 300.05 3 12.5 4.4 12.5 P Q R P Q 45 R38 M8 x 1.25 120.8 R38 1 1 12.5 R28 M8 x 1.25 8.5 1 12.5 R7 22 1 R28 8.5 22 20 R7 22 20 22 [mm] [mm] Model NAAMS code A B C D E F G H I J Model NAAMS code A B C D E F G H I J CKZ-63A031 ACA031M 125.0 110.0 95.0 80.0 65.0 CKZ-63A032 ACA032M 155.0 140.0 125.0 110.0