VM

(mm) Model H Bracket mounting dimensions Q Weight (g) 1(P) R 2(A) 2(A) R 3(R)* L1 L2 L3 L4 L5 L6 M1 M2 Bracket assembly no.

LEC-OM02904

CHEMI-CON 13 4 13. 13.2 (1) (2) 13.3 13.4 (LE-S5-LE-S6-LE-S7-LE-S8-)3000[r/min] 13 5 13. 13.5 IP65 (1) 2) 1) 3) 1) 2) 3) 4) 1) 2) 1) 4) 2) (2) M2 0.1Nm : M2 : 0.1Nm M2 0.2Nm : M2 : 0.2Nm M2 0.2Nm : M2 : 0.2Nm (3) (O)(O) (O) 13 6 1 . 2 1.1 . 2 1.2 . 3 2 . 4 3 (WAGO) . 4 4 AC . 5 5 . 6 6 . 7 6.1 . 7 6.1.1 . 7 6.1.2 . 7 6.1.3 . 7 6.2 . 8 7 () . 8 8 EC . 9 8.1 EC

Table of Contents

x 0.4 x 13 2 2 2 2 2 2 2 4 4 M2 x 0.4 x 23 M2 x 0.4 x 48 M2 x 0.4 x 53 M2.5 x 0.45 x 41 M2.5 x 0.45 x 17 M2.5 x 0.45 x 21 M2.5 x 0.45 x 66 M2.5 x 0.45 x 70 w Common and port exhaust style for nozzle size 18, 20 Individual exhaust style for nozzle size 18, 20 For vacuum switch and adapter A For nozzle size 10, 13, 15 For nozzle size 18, 20 For nozzle size 10, 13, 15 For nozzle size 18, 20

SMC CORPORATION OF JAPAN

They are the New FB option in the Edit Menu and the AddFB option when connecting two blocks. 4.4.1 New FB To use the New FB option, proceed to the Edit Menu (Section 3.4.1) with the ESC key. Scroll to the New FB option and press OK. Scroll to the desired Function Block and press OK to create a New FB.

MGP

Dimensions (mm) Dimensions (mm) 1 in = 25.4 mm 1 in = 25.4 mm M5 x 0.8 Relief port (Vacuum port) FB B + Stroke 5 10 A + Stroke (mm) FB A B Bore size (mm) B + Stroke FB 50mm stroke or less 66 67.5 109 109 117.5 117.5 121 141 51mm stroke or more 97.5 99 114 114 129 129 148 166 A + Stroke 20 25 32 40 50 63 80 100 19 20 22 22 23 23 24 29 Other dimensions are identical to the standard type. 66

Angle Seat Valve /

In the case of liquids: DP Q = 1.9 x 106Av (9) G Q : Flow rate [L/min] Av : Flow coefficient [m2] DP : Pressure difference [MPa] G : Relative density [water = 1] In the case of saturated aqueous vapor: Q = 8.3 x 106Av DP(P2 + 0.1) (10) Q : Flow rate [kg/h] Av : Flow coefficient [m2] DP : Pressure difference [MPa] P1 : Upstream pressure [MPa]: DP = P1 P2 P2 : Downstream pressure [MPa] 11

Vacuum Saving Valve

No.0.8 L1 L3 L2 L3 (L4) No.0.8 H 2 H 2 H 2 L1 M1 M1 M1 D Pad side Pad side Pad side ZP2V-A01ZP2V-AN1ZP2V-AG1ZP2V-A5ZP2V-A8Vacuum generator side D Vacuum generator side M2 M2 L3 L2 H 1 Vacuum generator side L2 L3 3 H 1 M2 H 1 (L4) (L4) No.0.8 No.0.8 (L4) No.0.8 H 2 H 2 L1 L1 L1 H 2 M1 M1 M1 Pad side Pad side Pad side ZP2V-B01ZP2V-BN1ZP2V-BG1ZP2V-B5ZP2V-B61 The place at the vacuum generator

ZP

Body A 1 Brass Electroless nickel plated Body B 2 Brass Electroless nickel plated Valve 3 Aluminum O-ring 4 HNBR Spring 5 Stainless steel Pad side Element 6 BC ZP2V-AZP2V-BGasket 7 NBR + Stainless steel 63 Series ZP2V Vacuum Saving Valve Dimensions Vacuum generator side Vacuum generator side M2 M2 H1 H1 Vacuum generator side L2 L1 L3 L2 M2 H1 L2 L33 (L4) (L4) No.0.8 No.0.8 L1 L3 L2 L3

ZP

Body A 1 Brass Electroless nickel plated Body B 2 Brass Electroless nickel plated Valve 3 Aluminum O-ring 4 HNBR Spring 5 Stainless steel Pad side Element 6 BC ZP2V-AZP2V-BGasket 7 NBR + Stainless steel 63 Series ZP2V Vacuum Saving Valve Dimensions Vacuum generator side Vacuum generator side M2 M2 H1 H1 Vacuum generator side L2 L1 L3 L2 M2 H1 L2 L33 (L4) (L4) No.0.8 No.0.8 L1 L3 L2 L3

ZP

Body A 1 Brass Electroless nickel plated Body B 2 Brass Electroless nickel plated Valve 3 Aluminum O-ring 4 HNBR Spring 5 Stainless steel Pad side Element 6 BC ZP2V-AZP2V-BGasket 7 NBR + Stainless steel 63 Series ZP2V Vacuum Saving Valve Dimensions Vacuum generator side Vacuum generator side M2 M2 H1 H1 Vacuum generator side L2 L1 L3 L2 M2 H1 L2 L33 (L4) (L4) No.0.8 No.0.8 L1 L3 L2 L3

Direct Operated, 2 Port Solenoid Valve, For Water, Oil, Steam, Air, Series VX

In the case of liquid: P Q = 1.9 x 106Av (9) G Q : Flow rate [l/min] Av : Flow coefficient [m2] P : Pressure difference [MPa] G : Relative density [water = 1] In the case of saturated aqueous vapor: Q = 8.3 x 106Av P(P2 + 0.1) (10) Q : Flow rate [m3/s] Av : Flow coefficient [m2] P : Pressure difference [Pa] P1 : Relative density [MPa]: P = P1 P2 P2 : Relative density [MPa] Front matter 4

Model Selection 1

In the case of liquid: P Q = 1.9 x 106Av (9) G Q : Flow rate [l/min] Av : Flow coefficient [m2] P : Pressure difference [MPa] G : Relative density [water = 1] In the case of saturated aqueous vapor: Q = 8.3 x 106Av P(P2 + 0.1) (10) Q : Flow rate [m3/s] Av : Flow coefficient [m2] P : Pressure difference [Pa] P1 : Relative density [MPa]: P = P1 P2 P2 : Relative density [MPa] Front matter 4

MG

CX Dimensions Dimensions DM5 x 0.8 Relief port (Vacuum port) -X 20Data FB B + Stroke A + Stroke 5 10 FB B + Stroke A B Bore size (mm) FB A + Stroke 50 stroke or less 66 67.5 109 109 117.5 117.5 121 141 51 stroke or more 97.5 99 114 114 129 129 148 166 20 25 32 40 50 63 80 100 19 20 22 22 23 23 24 29 Other dimensions are the same as standard type. 66 67.5 71.5 78 83 88 102.5 120 A Over 30

MGP

FB 50 Stroke 66 67.5 109 109 117.5 117.5 121 141 51 Stroke or more 97.5 99 114 114 129 129 148 166 20 25 32 40 50 63 80 100 66 67.5 71.5 78 83 88 102.5 120 19 20 22 22 23 23 24 29 * Other dimensions are same as standard.

ISO Cylinder

C85 C85W C85 C85K C85K C85R C75 C75W C75 C75K C75K C75R Rod flange: Cl85Nl lG (With mounting bracket) Standard (W) FT Head flange: Cl85Nl lG (With mounting bracket) UF TF (WL + Stroke) FT UR FB [mm] Bore size FBH13 FT TF UF UR (W) (WL) 8 4.5 3.2 30 40 22 12.8 65.2 10 4.5 3.2 30 40 22 12.8 65.2 (72.2) 12 5.5 4 40 52 30 18 76 (80) 16 5.5 4 40 52 30 18 82 20 6.6 5 50 66 40 19 91 25 6.6 5 50

α PneuAlpha HARDWARE MANUAL

K05 Up ( ): scroll to higher number numbered items (keys, FB, Inputs, Outputs, etc.)

smcmaintenancepartslist

Bore size Hexagon socket set screw Hexagon width across flats Tightening torque (Nm) 0.176 0.176 0.63 1.5 1.5 0.9 0.9 1.5 2 2 M2 x 6 M2 x 6 M3 x 8 M4 x 8 M4 x 8 8 12 20 25 32 Retaining ring Retaining ring Cap O-ring set screw hole O-ring Cap Hexagon socket set screw 390 Series MIW/MIS Replacement Procedure of Finger/Seal 2 2-4.

3

Thin shaft Position of rotational axis: Perpendicular to the shaft, and attached near one end CKQ = m1 + m2 a12 3 a22 = m1 + m2 4a12 + b2 4a22 + b2 3 12 12 2. Thin shaft Position of rotational axis: Perpendicular to the shaft, and attached at the center of gravity 5.

MRHQ

Graph (3) 20 x 9.8 x (0.07 + 0.05) x 10/1000 = 0.24 20 x 9.8 x (m1 + m2) x H/1000 0.24 Nm < Effective torque OK < Effective torque (Nm) Find the moment of inertia, "IR" for the load + attachments (2 pcs.) 7 IR = K x (a2 + b2 + 12h2) x (m1 + m2)/(12 x 106) IR = 2 x (202 + 302 + 12 x 102) x (0.07 + 0.05)/(12 x 106) = 0.05 kgm2 (K = 2: Safety factor) Kinetic energy 8 Confirm that the kinetic

VM

Output 1 Output 2 A B C 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 Dimensions D3 D2 L5 M2 IN L3 L2 L4 OUT IN D1 M1 M1 Applicable tube dia. d L1 Metric Size Weight (g) Model d D1 D2 L3 L2 D3 L1 L4 L5 M1 M2 VR1211F-23 3.2 11.4 8.4 52 6.2 25.7 36.1 17.5 12.7 12.9