Soft Start-up Valve

Flow Rate Characteristics Series AV2000-A AV3000-A AV4000-A AV5000-A Port size 1(P), 2(A) 1/4 3/8 1/2 3/4 1 3(R) 1/4 3/8 1/2 3/4 1(P) R 2(A) C[dm3/(sbar)] 9.2 13.1 19.2 34.8 41.3 b 0.36 0.27 0.32 0.66 0.34 Cv 2.4 3.1 5.1 12.6 13.7 Flow rate characteristics 2(A) R 3(R) C[dm3/(sbar)] 8.8 9.2 10.1 23.7 b 0.46 0.48 0.55 0.67 Cv 2.5 2.6 3.2 9.2 Pressure for switching from low speed air supply

Manually Operated Integral Fitting Type/Threaded Type Series LVH

(H1) (H2) 2 x P B C SMC A B E L J B 2 x P 2 x F K Body material: PFA N G A D L K 4 x M Non-locking type Locking type 60 (H1) (H2) C A B SMC E J B 2 x P (mm) Dimensions D G E C M P N L K J H2 F H1 B A Model Body material LVH20 LVH30 LVH40 LVH20 LVH30 LVH40 LVH20 LVH30 LVH40 M5 x 0.8 10 10 54.5 Rc 1/8, 1/4, NPT 1/8, 1/4 27 22 22 76.5 75 33 30 (SUS) Stainless steel 19 13 81 Rc 1/4, 3/8,

LG1H

G X10 1 P A Frame material Aluminium alloy Stainless steel Nil W X10 Non-standard motor Frame material Guide type None B contact specification 2 pcs.

Low-Speed Rotary Actuator

Round plate (Including column) Position of rotational axis: Through the center Number of teeth = a (B) axis 1. Find the moment of inertia I for the rotation of shaft (B). r B 2. I is converted to the rotation of the shaft (A). B 2 r I = m2 2 b a I I = A B Number of teeth = b 5.

HRX-OM-Z015

Lower line(Initial value) 1 Upper line SEL OUT.2 Signal type *Refer to Table 2-8 Lower line(Initial value) ALM Upper line CON OUT.2 Contact AA contact(Normally open) BB contact(Normally close) Lower line(Initial value) B Contact output 2 type Upper line ALM OUT.2 Alarm Alarm No.

2/3 Port Valve for Various

r B " " $6y t " 5 ' % " $60C4,D 4 B u % " " B 17-3-98 Series VVXA21/22 Direct Air Operated 2 Port Valve/Manifold For Air, Gas, Vacuum and Oil The VX series will be revised shortly.

Valve for Water and Chemical Base Fluids (2/3 Port Air Operated Valve)

3 A-y A-u A-i A-y B-q B-w B-e B-r B-w B-t B-y B-t Orifice body PTFE seal O-ring Sleeve O-ring O-ring O-ring Name plate O-ring O-ring Orifice body Name plate O-ring O-ring O-ring O-ring Orifice O-ring O-ring Name plate O-ring O-ring O-ring O-ring PEEK resin Special PTFE Special FKM POM Special FKM Special FKM Special FKM Special FKM Special FKM PEEK resin Special FKM Special FKM HNBR Special

VZ1000

Same as page 3-3-9 Manifold Specifications Type 25 Type 25F Stacking type, non plug-in type Stacking type, plug-in type Common SUP and EXH 2 to 20 stations 2 to 20 stations Valve C6 (One-touch fitting for 6) Model Manifold type P(SUP), R(EXH) Valve stations 4(A), 2(B) port location 1(P), 3/5(R) port Port size 4(A), 2(B) port M5 x 0.8 Valve effective (1) 1 2: 0.48, 4 3: 0.85 VZ1120 area

Fieldbus system (DeviceNet compliant)

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

CM2

D-G39A D-K39A D-A44A D-H7lW D-H7BAL D-H7lF D-C73C D-C80C D-B5 D-B6 D-H7l D-H7C D-B59W D-G5NTL Bore 20 25 32 40 A B 5(3) 5(3) 6(4) 11 A 6(4) 6(4) 7(5) 12 B 0(0) 0(0) 0.5(0) 5.5 A 0.5(0) 0.5(0) 1.5(0) 6.5 B 3(1) 3(1) 4(2) 9 A 4(2) 4(2) 5(3) 10 Hs 69.5 72 75.5 79.5 B 6(4) 6(4) 7(5) 12 Hs 60 62.5 66 70 A 7(5) 7(5) 8(6) 13 Hs 25 27.5 31 35 B 0(0) 0(0) 1(0) 6 Hs 22.5 25 28.5 32.5 A 1(0) 1(0) 2

JXCx-OMT0028CN

LEC-CG2b) M12 4pin b) M12 4pin 2. LEC-CGD 2. LEC-CGD 4.LEC-CGR c) M12 4pin c) M12 4pin 1. LEC-CG1b) M12 4pin b) M12 4pin a) RJ45 8P 1. LEC-CG11.

Short Stroke Electric Actuator Series LX

(A contact) 3 wire/NPN 3 wire/PNP 3 wire/NPN 3 wire/PNP 3 wire/NPN 3 wire/PNP 2 wire 3 wire/NPN 3 wire/PNP 2 wire 0.5 0.5 0.5 0.5 3 3 0.5 3 3 3 None Yes (cable length 0.3m) Nil S N.O. (A contact) Number of auto/ proximity switches N.C. (B contact) N.C. (B contact) Auto/Proximity switch type 1 2 1 pc. 2 pcs. N.C. (B contact) None Nil N.C.

Rotary Table

Round plate (Including column) Position of rotational axis: Through the center (A) Number of axis teeth =a (B) 1. Find the moment of inertia I for the rotation of shaft (B). B r 2. I is converted to the rotation of the shaft (A). B 2 r I = m2 2 b a I I = A B Number of teeth =b 5.

Floating Joint

2 2 3 8 9 9 13 13 13 15 15 18 24 24 24 42 32.5 36 36 49 49 49 61.5 61.5 76.5 94 94 106 152 1 1.5 1 1.25 1.5 1.75 1.5 2 2.5 3 1.5 2 2 8 10 10 12 12 12 16 16 20 24 27 27 33 19 20.5 20.5 27 27 27 34.5 34.5 43.5 52 52 60 86 D-X Technical Data 1147 JA Series Foot Type: JAL20 to JAF160 JAL20 to 100 Center of sphere 2 x J R JAL125 to 160 4 x J Center of sphere R (mm) Maximum operating tension

Clamp Cylinder Series CK1

Note 2) Clevis width B (19.5 mm) is not available with mounting base K.

CRJ

Find the inertial moment IB for the rotation of shaft (B). 2.

Magnetically Coupled Rodless Cylinder

B Counter bore depth C T Y HT 2-P (Piping port) L 0 -0.1 22 HP 8 TC X F WP 12.5 19.5 D GW 7 GP QW PW 4-LD Plug 2 x 4-MM Thread depth M Switch rail HS W K Plug CY3RG15 CR HR G G Q + Stroke Z + Stroke CY3RG25, 32, 40 CY3RG20 (mm) Model CY3RG15 CY3RG20 CY3RG25 CY3RG32 CY3RG40 J x E M5 x 0.8 x 7 M6 x 1 x 8 M6 x 1 x 8 M8 x 1.25 x 10 M8 x 1.25 x 10 B 8 9.5 9.5 11 11 HP 11 14.5 20 25 HR 30 36 41

2-Color Display

Suction Verification High Vacuum Suction Work 1 Work 2 Work n Max. A Formula for Obtaining the Set-Value P-1 P_1 or P_2 H_1 or H_2 H-1 P_1 (P_2) = A (A-B)/4 n_1 (n_2) = B + (A-B)/4 H_1 (H_2) = (A-B)/2 n-1 Min.

3 Port Solenoid Valve

Port Port size KJH01-C1 1/8" one-touch fitting (Straight) 2(a) 2(b) When equipped with light/surge voltage suppressor, the light window turns orange when solenoid a is energized, and it turns green when solenoid b is energized.

HRX-OM-Y120

and before communication . 2-2 2.2 Communication specification . 2-2 2.3 Contact input signal . 2-5 2.3.1 Setting of contact input signal type and form . 2-5 2.3.2 Run/stopRunStopExternal switch signal . 2-7 2.3.3 External switch signal . 2-8 2.4 Contact output signal . 2-10 2.4.1 Contact output signal 1 to 3 .2-10 2.4.2 Contact output signal 4 to 6 . 2-11 2.5 Analog output signal . 2-14