IDX-OM-W032

C11 FM1 PRS PRS1 PRS2 ILS THR OLR 1 THP TB GFCI EDV C01 P PE P C11 FOR OPTION V V IDFA Series 6-4 6 3 IDX-OM-W032 6 6-5 IDF55E,IDF75E IDFA22E,37E IDFA55E,75E IDF75E 2 IDFA Series 6-5 6 4 IDX-OM-W032 7 C 7 C 7-1 7-2 1) 2) IDFA Series 7-1 7 1 IDX-OM-W032 8 K 8 K 8-1 ( ) 8-2 240psi (1.6MPa) AD48-8-A-X2112 10 KQ2L10-02AS IDFA22E,37E-23-K 0.151.6MPa N.O.() 8-1

ZSE40/ISE40

1 k Load OUT1 (Black) OUT2 (White) 12 to 24 VDC 12 to 24 VDC Load Load DC () (Blue) DC () (Blue) ZSE40(F) ISE40--30(L)-(M) With auto shift input ZSE40(F) ISE40--70(L)-(M) With auto shift input DC (+) (Brown) Auto shift input (Gray) OUT1 (Black) OUT2 (White) DC (+) (Brown) Auto shift input (Gray) 1.2 k 1.2 k Load 6.8 k 6.8 k Main circuit Main circuit Load OUT1 (Black) OUT2 (White) 12 to 24

VQC

(A) 4 (B) 2 (A) 4 (B) 2 C: Locking type (Manual) C Note) 5 (R1) 3 (R2) 1 (P) Function 5 (R1) 3 (R2) 1 (P) N.C N.O Standard type (1 W) High pressure type (1.0 MPa) Negative COM External pilot Low wattage type (0.5 W) Nil K N R Y Seal type 3 position closed center Note) For rubber seal type only.

3

This is the same concept representing the easy to run through as sonic conductance C.

3-Position Rotary Table

Each operational contents Figure 3 Pressure port and active speed controller Table 1 Operating Pressure port Speed controller A, C B, D C port B port D port A port Clockwise-1 C Clockwise-2 1 l o ec Co s k Counterclockwise-1 w wi is 2 k un ec eo 2 Counterclockwise-2 l C te is rc kw lo oc ck cl wi er se nt -1 u o C 294 3-Position Rotary Table MSZ Series Angle Adjustment 1) Stop positions

Air preparation filter

AMX-OMU0058-C Revision history A Service parts addition. October 2017 B Change unit of water droplet. September 2018 C Change Flow capacity.

MVGQ

MVGQM, MVGQL Common Dimensions ML2B Applicable solenoid valve B C DA G GA H J K L MM ML NN Q R S T V W X YY YL Z Bore size (mm) Standard stroke (mm) TA TB U Over 10 st 10 st C J G5-S 12 6 29 50 13 18 58 39 22 56 2 5 36 40 14 7 12 29 5 48 20 30 16 M4 x 0.7 10 M4 x 0.7 M4 x 0.7 10, 20, 30, 40, 50, 75, 100 16 CV 8 33 54 64 15 22 43 25 62 2.5 5.5 38 42 16 8 13 33 7 52 23 30 18 M5 x 0.8 13 M5

C95Series

D-A44 Conduit , _;-c' I>-F5CJ51!:1 Grommet D-F5i!

70pvvna

170 28.3 33.3 LVH Port size 32A, 40A, 50A LVD LVQ Applicable cable O.D. 6 to 8 (D, DL) LQ LVN K (Terminal with indicator light: DL) TI/ TIL Manual override (Non-locking) Pilot port L (Conduit terminal: T) PA J (DIN terminal: D) I (Conduit: C) H (Grommet: G) PAX G (Air operated) PB Main port Main port Rc Pilot port Rc A B C D E F G H I J K L M Model VNA5-32A VNA6-40A VNA7-50A 1 8 1 4 1 4 1

Floating Joint

200--X530 F R K M Center of sphere E 4 x J U U D T C 60 G P A H L B Dimensions (mm) Maximum operating tensile and compressive force (N) Center of Maximum screw-in depth P Allowable eccentricity U Applicable bore size Model M A B C D E F K L T J G H Weight (kg) Nominal size Pitch sphere R 180 JAL180-40-150-X530 40 1.5 220 116 55 96 74 48 151 90 89 22 28 70 78 49 3 55000 10.3 200 JAL200-45-

Soft Start-up Valve

Leakage voltage Particularly when using a C-R element (surge voltage suppressor) to protect the switching element, take note that leakage current will flow through the C-R element, thus increasing leakage voltage. Switching element OFF C R Leakage voltage Leakage current Valve Power supply AC coil is 8% or less of the rated voltage. DC coil is 3% or less of the rated voltage. 2.

CRQ2

gr ot ey R K Using the Body as a Flange The body's L dimensions are shown in the drawing on the right.

PSE530/200

Connecting power supply/output connection cable To connect the power supply/output connection cable to the controller, insert the cable connector with the C part facing down until it clicks. C 2 m 16-3-20 20 Series PSE Specific Product Precautions 3 Be sure to read before handling. Wiring Caution 3.

Booster Regulator Series VBA1110 to 4200 1

K J H G F E D C B A 475 432 512 472 525 482 562 522 L Booster part no. Tank model VBA2100-03 VBA2200-03 VBA4100-04 VBA4200-04 VBA2100-03 VBA2200-03 VBA4100-04 VBA4200-04 394 Rc 3/8 VBAT20 VBAT20S 305 206 674 180 200 100 400 Rc 1/2 430 Rc 1/2 444 Rc 3/8 VBAT38 VBAT38S 355 256 824 205 250 150 500 Rc 3/4 480 Rc 1/2 14-9-9

1 Blow Gun Series VMG K
M
H
D
MS 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 T
VMG Pressure loss is less than 1%. (nozz

D E G P 1 2 6 8 C J N R W Z With bracket (with set nut) Float type auto drain (N.C.)

C95

9 i@2 q r y #0$0 $2 w $3 #8 @9 A C CJ1 CJP CJ2 B CM2 Section A !2 !2 !22 $1 e $8 o $7!1@1!6 @5 u!0 $6 #7 #6 $4@8#9 @6 #4 C85 with through piston rod C76 100 80 63 50 40 32 CG1 #1 #2 Section B Section C MB MB1 80, 100 80, 100 CP95 Description Material Note Parts list Description Material Note Parts list No. q w e r t y u i o !

Series VCS

Q Approx. 300 F D Approx. 280 D Q F C G (PF) 1/2 C R R E E B A H 2-P Port size 2-P A B H 2-M Port size 2-M Thread depth N L L K K Conduit terminal: T F (Q) 34 25 U R C G (PF) 1/2 E B A H D 2-P Port size (S) 2-M L K N.C.

Series 12-CY3B ø6, ø10, ø15, ø20, ø25, ø32, ø40 ø50, ø63 Magnetically Coupled Rodless Cylinder

B Counterbore depth C T Y 0 -0.1 L Cylinder tube outer circumference: TC WP Hard chrome plated + special treatment X F GW 4 x LD GP D QW PW 2 x P (Piping port) 4 x 3.2 2 x 4 x MM Thread depth M W K Z + Stroke Q + Stroke WP G G 4 x 6.5 12-CY3R6 (mm) A 7 9 10.5 9 8.5 10.5 10 14 15 F 5.5 6.5 8 9 8.5 10.5 13 17 18 HC 18 25 31 38 43 54 66 84 96 HP 10.5 14 17 24 23.5 29 36 45 51 K 7 9 14 11 15

Series MHZ2 11- ø10, ø16, ø20, ø25 22- Air Gripper

Flat finger [3] 4 x MM thread depth L Thread for mounting attachment K J A A D G B D B K J F C S W O (mm) Weight (g) F G Open Closed 2 2.5 3 4 L MM J K D C B Model A W MHZ2-10D3 1), 2) 11221122112211220 -0.05 0 -0.05 0 -0.05 0 -0.05 +0.5 +0.3 +0.5 +0.3 +0.5 +0.3 +0.5 +0.3 +0.025 0 +0.025 0 +0.025 0 +0.030 0 +2.2 0 +2.2 0 +2.3 0 +2.5 0 60 125 250 450 5 6 8 10 M2.5 x 0.45 M3 x 0.5 M4 x 0.7

MHC2

Operating equipment: MHC2-6D A part a b c d e f = 20 (mm) = 3 (mm) = 4 (mm) = 4 (mm) = 5 (mm) = 6 (mm) b c a e B part f d z f1 x.Calculate the inertial moment of the attachment. Assuming the attachment material is aluminium alloy (relative density=2.7), r1= 16.4 (mm).