CRJ Fs(a) Fs(b) Allowable thrust load (N) Allowable radial load Fr (N) Size Fs(a) Fs(b) 05 1 25 20 20 30 25 25 Features 4 Series CRJ Inertial Moment Formulas I: Inertial moment kgm, m: Load mass kg 1. Thin shaft 6.
Reed switch Auto switch A90 Solid state M9B, M9N, F8B, F8N Size: 10, 20, 30, 50 11 Vacuum suction type Clean series 10 Size 20 30 50 11 MSQ B 10 A M9B 22 MSQ B 10 A M9B Number of auto switches A High precision type B Basic type Nil S n 2 pcs. 1 pc. n pcs.
AR60K-B Construction AR10-A AR20(K)-B/AR25(K)-B AC AF+AR+AL AW+AL AF+AR AF+AFM+AR AW+AFM AF Attachment AFM / AFD AR AL AW t e q IN OUT t e q r IN OUT w r w AR30(K)-B/AR40(K)-B q t AR50(K)-B/AR60(K)-B e IN OUT q t r w e IN OUT r w Component Parts No.
For details, refer to the IDK series in the Best Pneumatics No.6. 705 MHY2 Series Construction Closed condition 10 16 20, 25 r o !8 e w !7 t !5 r o !8 e !6 w @0 !7 t !5 r o !8 e !6 w @0 !7 t !5 !0 u !2 i q !1 !4 y !9 !0 u !2 i q !1 !4 y !9 !0 u !3 !2 i q !1 !4 y !9 Open condition Component Parts Note No.
Fs(a) Fs(b) Allowable thrust load (N) Allowable radial load Fr (N) Size Fs(a) Fs(b) 05 1 25 20 20 30 25 25 Features 4 Series CRJ Inertial Moment Formulas I: Inertial moment kgm, m: Load mass kg 1. Thin shaft 6.
W B D-A9, D-A9V D-M9, D-F9W D-M9V, D-F9WV Bore size (mm) B A W A B W A 10 16 20 25 32 0.5 7.5 2.5 7.5 16.5 3 12.5 16.5 1.5 (1) 0 8 1.5 8 20 4 16 20 2 (0.5) 2 10 0 10 24 6 20 24 4 (1.5) 3.5 11.5 1.5 11.5 26.5 7 22.5 26.5 5.5 (3) 4.5 12.5 2.5 12.5 27.5 8 23.5 27.5 6.5 (4) Note 1) Figures in the table above are used as a reference when mounting the auto switches for stroke end detection.
R P Q Port size Weight (kg) d K W Y AE (mm) (75) (50) W J W (mm) 1/2B (04) 3/4B (06) 1B (08) 1 1/4B (10) 1 1/2B (12) 2B (16) 2 1/2B (20) 3B (24) 22.2 27.7 34.5 43.9 49.1 61.1 77.1 90.0 47 47 47 50 50 50 50 50 70 70 70 85 85 85 105 105 9 9 9 9 9 9 9 9 62 62 62 65 65 65 65 65 3.5 3.5 3.5 6.2 6.2 6.1 11.9 11.9 Port size Weight (kg) E J P Q Port size Weight (kg) E 69 69 74 80 80 85 R 70 70 70
Pressure range 0 1 2 3 4 5 Needle rotations 14-3-6 7 Soft Start-up Valve Series AV2000/3000/4000/5000 Working Principle w F.R.L. e AV r B ON OFF q t AU B-B AF 1(P) 2(A) AR 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 u IR y VEX AMR 3(R) B ITV IC Working description
Dimensions SFD100 different diameters SFD200 different diameters One-touch fitting dimensions(A, B) One-touch fitting dimensions(A, B) Port size q Port size w Port size q Port size w 4 8 4.5 5.5 SMC 6 10 Basic dimension 114.5 Basic dimension 72 5.5 4.5 Fitting dimension A Fitting dimension B Fitting dimension A Fitting dimension B 8 12 5.5 5 Total length 81 (A + 72 + B) 76.5 (72 + A) 81.5
TB W Counter bore depth TC Inner cover holding screw Note) (mm) E 4 6 J M6 x 1 M10 x 1.5 LD 5.6 9.2 L 67 90 K 21 20 JK 10 12 HP 44 73.5 HL 37.6 63.3 HI 23 39 HA 23 39 H 45 75 G 10 9 F 12.5 25 EK 4 6 ED 9.5 13 C 6.4 10.2 B 10.5 16 A 8 12 Model CYV15 CYV32 +0.030 H9 0 +0.030 H9 0 Z 132 165 Y 2.5 3.5 W 69 115 TC 0.5 0.5 TB 15 22 TA 20 22.5 T 30 34 R 45 79.5 QW 48 83 Q 112 147 PC 10 12 PB 60
Bushing Connecting bracket B Restrictor assembly Connecting bracket A Flow direction arrow Connecting bracket B r Mount the connecting bracket A, and tighten the hexagon socket head cap screw with the following torque.
Dynamic moment Me3 L2 We W = 1/3 14.7 (50 + 27) 103 Review Me3. = 0.38 [Nm] 3 = Me3/Me3 max = 0.38/3 = 0.13 Guide central axis A Me1 W We Me1 = 1/3 We (L1 + B) 103 = 1/3 14.7 (50 + 48) 103 L1 B = 0.48 [Nm] 4 = Me1 /Me1 max = 0.48/3 = 0.16 Review Me1.
C.O. 1 2 1 4.1 4.2 Normally closed Normally open Double acting VNB0 VNB02 VNB03 VN 1 4 7.7 7.8 40 12 (P1) 12 (P1) 10 (P2) LVC 6.3 6.4 2 Air operated LVA 2 (B) 1 (A) 2 (B) 1 (A) 2 (B) 1 (A) 11.4 11.5 50 10 (P2) Note) The flange should be JIS B 2210 10K (ordinary style) or its equivalent.
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).
10 0 10 20 30 0 20 40 60 Work load (W) kg Work load (W) kg Work load (W) kg 600 600 600 L2 M2 400 400 400 L2 mm L2 mm L2 mm Rolling Yawing W 200 200 200 L2 M2 0 10 20 30 0 20 40 60 0 2 4 6 8 10 Work load (W) kg Work load (W) kg Work load (W) kg W 3000 2000 2000 a=1000 a=1000 a=1000 2000 L3 mm L3 mm L3 mm L3 1000 1000 1000 a=2000 a=2000 W a=2000 a=3000 a=3000 a=3000 M3 a 0 20 40 60 0 2 4
Auto Switch Proper Mounting Position (Detection at Stroke End) D-A9 D-M9 22 (24.5) A 2.8 0.5 W B ( ): Dimensions for D-A93 Bore size (mm) D-A9 A B W 6 10 16 36 11.5 9.5 (7) D-M9 A B W 29.5 5.5 3.5 (1) 29.5 9.5 7.5 (5) 33.5 9.5 0.5 33.5 13.5 3.5 40 15.5 5.5 20 41 15 13 (10.5) 45 19 9 25 40.5 16.5 14.5 (12) 45.5 20.5 10.5 Note) The above mentioned values are indicated as a guide for auto switch
Double piston construction achieves compact design with strong gripping force. q r Mounting is possible from 4 directions. e w Model Bore size Gripping force (N) q w MHF2-8D MHZ2-10D 8 10 19 11 MHF2-12D MHZ2-20D 12 20 48 42 w e r MHF2-16D MHZ2-25D 16 25 90 65 MHF2-20D MHZ2-32D 20 32 141 158 12-3-3 4 Series MHF2 Model Selection Model Selection Selection Procedure Confirm gripping force Confirm
Double piston construction achieves compact design with strong gripping force. q r Mounting is possible from 4 directions. e w Model Bore size Gripping force (N) q w MHF2-8D MHZ2-10D 8 10 19 11 MHF2-12D MHZ2-20D 12 20 48 42 w e r MHF2-16D MHZ2-25D 16 25 90 65 MHF2-20D MHZ2-32D 20 32 141 158 12-3-3 4 Series MHF2 Model Selection Model Selection Selection Procedure Confirm gripping force Confirm
8 @8 #2 w Actuators Modular F.R.L. Pressure Control Equipment Component Parts Part Name Qty Remarks Item Part Name Qty Remarks Item q w e r t y u i o !0 !1 !2 !3 !4 !5 !6 !7 !8 !
8 @8 #2 w Actuators Modular F.R.L. Pressure Control Equipment Component Parts Part Name Qty Remarks Item Part Name Qty Remarks Item q w e r t y u i o !0 !1 !2 !3 !4 !5 !6 !7 !8 !