Rotary Table/ plate) = m 2 r2 = m 5 2r2 = m 4 r2 = m 12 a2 + b2 !
G Za2 D2 Ea Ea Eb Eb 4-MM E1 E1 E2 E2 C2 P Q2 Section Za2 detail (Adjustable range) B2 F2 D G Section Z detail (Adjustable range) F B3 B2 B1 C1 Zb2 JJ B F Z H K2 Counter bore depth H H L Thread length A2 Section Za2 detail (Adjustable range) A A 2 x 2 x LD J C Mounting direction (1) Mounting direction (2) C2 (mm) (mm) Adjustable range Applicable cylinder MY1B25 MY1B32 MY1B40 Mounting direction
WH 32 (E1) D 21 19 17.3 41.4 6.4 7/16-20 126.4 I 40 19 16.6 17.3 41.4 6.4 7/16-20 134.4 B2 BZ MM AL A 50 22.4 19.8 18.8 52.6 7.9 1/2-20 161.6 Plug bolt (4 pcs. included) K KA 8-J 63 22.4 19.8 18.8 52.6 7.9 1/2-20 161.6 (F1) C 0.1 80 S + Stroke ZZ + Stroke H 25.4 22.9 23.9 63.5 9.7 5/8-18 193.5 NA 100 31.8 29.3 27.8 69.9 10.7 3/4-16 200.9 80 and 100mm-X165US are a future release.
Note 2) A grease pack (GR-R-010, 10 g) is included in seal kits. 10-14-12 13 Stainless Steel Cylinder Series CG5-S Dimensions R V Basic style (B): CG5BNS : With rubber bumper GA GB 2-Rc P H1 Width across flats B1 M BM (E1) D I I RE A B MM BZ B2 AL A K KA REC (F1) Plug bolt (4 pcs. included) C 0.1 8-J S + Stroke ZZ + Stroke H NA CX CY Bore size (mm) Stroke range A AL B1 B2 BM BZ C D E1 F1
95.5 24.5 115.5 44.5 115.5 MX D-M9, D-M9V (mm) Mounting pattern q Bore size Mounting patternq A1 Mounting patternw A2 Mounting patterne A3 MTS Operating range B1 A1 B1 B2 B3 (mm) 10 15 25 5.5 34 64 22 76 34 76 MY 5 35 70 23 82 35 82 5 40.5 99.5 28.5 111.5 40.5 111.5 CY Mounting pattern w B2 A2 D-F9W, D-F9WV MG (mm) Bore size Mounting patternq A1 Mounting patternw A2 Mounting patterne A3
= m1 CRBU2 12 4a22 + b2 + m2 CRB1 7.
Note 2) A grease pack (GR-R-010, 10 g) is included in seal kits. 10-14-12 13 Stainless Steel Cylinder Series CG5-S Dimensions R V Basic style (B): CG5BNS : With rubber bumper GA GB 2-Rc P H1 Width across flats B1 M BM (E1) D I I RE A B MM BZ B2 AL A K KA REC (F1) Plug bolt (4 pcs. included) C 0.1 8-J S + Stroke ZZ + Stroke H NA CX CY Bore size (mm) Stroke range A AL B1 B2 BM BZ C D E1 F1
Series CBA2 B port C port A port Atmospheric release port NCM Bore size (mm) ZZ S Q NCA B2 + Stroke S2 B1 + Stroke S1 40 230 168 53 A + Stroke (S1 + S2) 50 249 180 59 D63 268 196 61 80 320 232 73 -X Stroke B Stroke A 100 341 252 79 S + Stroke (A + B) Series MB The above diagram shows head side lock type and manual releasing nonlock type.
95.5 24.5 115.5 44.5 115.5 MX D-M9, D-M9V (mm) Mounting pattern q Bore size Mounting patternq A1 Mounting patternw A2 Mounting patterne A3 MTS Operating range B1 A1 B1 B2 B3 (mm) 10 15 25 5.5 34 64 22 76 34 76 MY 5 35 70 23 82 35 82 5 40.5 99.5 28.5 111.5 40.5 111.5 CY Mounting pattern w B2 A2 D-F9W, D-F9WV MG (mm) Courtesy of Steven Engineering, Inc.-230 Ryan Way, South San Francisco, CA
With L-bracket B1 With pivoting bracket B2 With DIN rail mounting bracket B3 Output specification Refer to page 450.
L1 L L2 d1 CD MR d2 R1 E2 UB CB 45 51 64 74 94 113 26 28 32 40 50 60 32.5 38 46.5 56.5 72 89 22 25 27 32 36 41 5 5 5 5 5 5 12 15 15 20 20 25 5.5 5.5 6.5 6.5 10 10 30 35 40 45 45 55 10 12 12 16 16 20 9.5 12 12 16 16 20 6.6 6.6 9 9 11 11 6.5 6.5 8.5 8.5 11 12 48 56 64 75 95 115 45 52 60 70 90 110 26 28 32 40 50 60 32 40 50 63 80 100 C85 C76 CG1 Rear Sngle Clevis DS MB MB1 Bore (mm) E B1 H B2
MK/MK2 RSQ/RSG RSH CE1 CE2 ML2B ML1C REA Calculation for Moment of Inertia I: Moment of Inertia (kgm2) m: Load weight (kg) REC qThin bar Position of rotary axis: Vertical to the bar and through the end rThin rectangular plate Position of rotary axis: Vertical to the plate and through the end RHC a22 3 I = m1 + m2 4a12+b2 12 4a22+b2 12 I = m1 + m2 a12 3 MTS CC wThin bar Position of rotary
A5 A5 A6 A6 A7 A7 Internal Internal A8 A8 resistance resistance 10[k ] 10[k ] 24 VDC 24 VDC A9 A9 Main circuit Main circuit power supply power supply for the input for the input A10 A10 signals signals B1 B1 B2 B2 B3 B3 B4 B4 B5 B5 Maximum output Maximum output B6 B6 current: 10 mA current: 10 mA B7 B7 Pulse input internal circuit Note2) B8 Pulse input internal circuit Note2) B8 Pulse input
SUS630()SUS304() () / -7No.PS-OMU0008CN-D * 1015 10 1 2466 LCD * -8No.PS-OMU0008CN-D ISE20C X M 2 3 ISE20C -0.100~1.000 MPa Y ZSE20C 0.0~-101.0 kPa K ZSE20CF -100.0~100.0 kPa T ISE20CH -0.100~2.000 MPa 24 X NPN2 A1 A Y PNP2 A3 C R NPN2+1 B T PNP2+1 E S NPN2+1 D + V PNP2+1 1: F + 4 2 M SI3 1 P psi2 2 3 kPaMpa (2m ) W 2 R1/4 C01 Rc1/8 N02 NPT1/4 A2 URJ1/4 L F02 G1/4 B2
TSJSwagelok(Swagelok URJ Swagelok(VCR)/GroundGround Swagelok,VCRSwagelok Company -6No.PS-OMM0002CN-F * 6 33 () () 10m DC(-)() * ( ) () CE -7No.PS-OMM0002CN-F 0~50(5) SUS630() SUS304() ( ) * 10~15 15 /1% 1941 LCD * -8No.PS-OMM0002CN-F ISE80 02 N 3 ISE80 -0.11MPa ZSE80 0-101KPa ZSE80F -100100KPa ISE80H -0.12MPa Y K + T + 2 02 R1/4 N02 NPT1/4 F02* G1/4 G01 Rc1/8 A2 URJ1/4 B2
-P10-N01 Blanking plate kit 136114A 136214A (plate, screws, and o-ring) Manifold base, 13612-*-N 13622-*-N Common IN (A1, A2) Manifold base, 13613-*-N 13623-*-N Individual IN (B1, B2) * Denotes number of stations: 2~10 available. 10 10 station NARM2000-4B2 Note1) In case of A1 and B1, a pressure gauge or a plug is mounted at the body side, while in case of A2 and B2, at the manifold side.
I = m x (a2 + b2) / 12 + m x H2 I = 0.15 x (0.062 + 0.042) / 12 + 0.15 x 0.032 = 0.0002 kgm2 Moment of inertia Kinetic energy 6 Confirm that the loads kinetic energy is within the allowable value. 1/2 x I x 2 = < Allowable energy 1 / 2 x (0.0002) x (2 x ( / 2) / 0.3)2 = = 2 / t (: Terminal angular velocity) 0.01096 J < Allowable energy OK : Rotation angle (rad) t: Rotation time (s) Allowable
A1 (mm) Note 2) Operating range Bore size Mounting patternq A1 Mounting patternw A2 Mounting patterne A3 B1 B2 B3 (mm) 10 15 25 5.5 34 64 22 76 34 76 5 35 70 23 82 35 82 Mounting pattern w B2 A2 5 40.5 99.5 28.5 111.5 40.5 111.5 Note 1) Adjust the auto switch after confirming the operating conditions in the actual setting.
I = m x (a2 + b2) / 12 + m x H2 I = 0.15 x (0.062 + 0.042) / 12 + 0.15 x 0.032 = 0.0002 kgm2 Moment of inertia Kinetic energy 6 Confirm that the loads kinetic energy is within the allowable value. 1/2 x I x 2 = < Allowable energy 1 / 2 x (0.0002) x (2 x ( / 2) / 0.3)2 = = 2 / t (: Terminal angular velocity) 0.01096 J < Allowable energy OK : Rotation angle (rad) t: Rotation time (s) Allowable
I = m x (a2 + b2) / 12 + m x H2 I = 0.15 x (0.062 + 0.042) / 12 + 0.15 x 0.032 = 0.0002 kgm2 Moment of inertia Kinetic energy 6 Confirm that the loads kinetic energy is within the allowable value. 1/2 x I x 2 = < Allowable energy 1 / 2 x (0.0002) x (2 x ( / 2) / 0.3)2 = = 2 / t (: Terminal angular velocity) 0.01096 J < Allowable energy OK : Rotation angle (rad) t: Rotation time (s) Allowable