Free Mount Cylinder Single Acting, Spring Return D-M9, D-F9W D-M9V, D-F9WV D-A9, D-A9V Bore size (mm) Stroke A B W A B W A B W 6 4.5 6.5 4 4 2.5(5) 0 17.5 17.5 All stroke 13.5 16.5 21.5 20 25 24 29 26.5 31.5 27.5 32.5 16.5 21.5 20 25 24 29 26.5 31.5 27.5 32.5 5, 10 15 5, 10 15 5, 10 15 5, 10 15 5, 10 15 12.5 17.5 16 21 20 25 22.5 27.5 23.5 28.5 10 0.5 2.5 7.5 7.5 1.5(1) 3.5 16 0.5 2 8 8 2(0.5) 4 2 20 0 10 10
Extension stroke end adjuster Retraction stroke end adjuster Extension stroke end adjuster Retraction stroke end adjuster MXQ8A-m-X2192 30 40 15 23 5 10 12 8 3 13 16.6 18.2 M6 x 0.75 2.5 MXQA-CS8-X2202 MXQA-CT8 MXQA-DS8-X2202 MXQA-DT8 MXQ12A-m-X2192 35 45 17 26 6.5 10 14 10 4 16.2 18.9 20.7 M8 x 1 2.5 MXQA-CS12-X2202 MXQA-CT12 MXQA-DS12-X2202 MXQA-DT12 MXQ16A-m-X2192 40 50 18 27 8 10 15 12
W or less 20 VA or less 10 W or less 20 VA or less 10 W or less 20 VA or less 10 W or less Power consumption Between case and AC line: 1500 VAC for 1 min.
W or less 20 VA or less 10 W or less 20 VA or less 10 W or less 20 VA or less 10 W or less Power consumption Between case and AC line: 1500 VAC for 1 min.
(Example) For M5: L1 = 10 Applicable shaft types: S, W, Y Minimum machining diameter for d1 is 0.1. Applicable shaft types: S, W, Y The maximum dimension L2 is, as a rule, twice the thread size.
Altitude [m] q Upper limit of ambient temperature [C] w Cooling capacity coefficient Less than 1000 m 45 1.00 Less than 1500 m 42 0.85 Less than 2000 m 38 0.80 Less than 2500 m 35 0.75 Less than 3000 m 32 0.70 Handling Warning Thoroughly read the Operation Manual.
Applicable model HRR050-A/W-40-T1 HRR050-A/W-40-T2 Rated flow50/60Hz common*1 L/min 16 24 Maximum pump head 50/60Hz common*2 m 50 Pump Output W 400 750 Circuit protector A 10 Recommended earth leakage breaker capacity A 10 Due to an increase in heat generation of the pump. The cooling reduces about 400W from the value in the catalog.
M2 = W L1 = 10 0.05 = 0.5 [Nm] 2 = M2/M2 max = 0.5/16 = 0.031 W = 1 [kg] = 10 [N] W M Find the value M2 max when Va = 300 mm/s from Graph (3). L1 From V = 1.4 Va We = W V = 4/100 10 1.4 300 = 168 [N] Me3 = 1/3 We (L2 A) = 1/3 1680.032 = 1.8 [Nm] 3 = Me3/Me3 max = 1.8/7.2 = 0.250 cDynamic moment Examine Me3. Find the load equivalent to impact We.
My = 1 x 9.8 (10 + 30)/1000 = 0.39 A3 = 30 May = 1 x 1 x 18 = 18 Mymax = 18 K = 1 = 1 2 = 0.39/18 = 0.022 M = W x 9.8 (Ln + An)/1000 Correction value of moment center position distance An: Table (3) Find the static moment M (Nm).
of gravity (mm) a = 3000 2000 m L1 0 10 20 30 Transfer load m (kg) L2 600 L2 (mm) 400 Mer Rolling Yawing m 200 L2 Mer 0 10 20 30 Transfer load m (kg) m 4000 a = 1000 L3 (mm) L3 a = 3000 a = 2000 2000 m Mey a 0 10 20 30 Transfer load m (kg) Refer to page 183 for deflection data. 148 3 Courtesy of Steven Engineering, Inc.-230 Ryan Way, South San Francisco, CA 94080-6370-Main Office: (650)
San=a1+a2+a31 3.11-10 Air Slide Table Series MXS Allowable load: W (N) Fig.1 Overhang: Ln (mm), Correction value for moment center distance An (mm) Fig.2 Pitch moment Yaw moment Roll moment W My Mp Mr W W W Static moment Dynamic moment L1 A1 L3 A5 L2 A3 CL W Mp Mr My W W MLGC L3 A6 W L1 A2 L2 A4 CNA W Mey Mep CB L2 A4 CV/MVG A2 L3 Work mounting coefficient: K Fig.3 CXW Table mounting CXS
MI W S 100 200 50 CEP1 130 50 100 50 40 40 CE1 40 Weight of transferred object m (kg) Weight of transferred object m (kg) 32 30 40 50 CE2 20 30 32 20 ML2B 20 16 10 C J G5-S 10 12 5 4 CV 3 4 5 3 MVGQ 2 2 CC 1 1 RB 1 5 10 20 10 5 1 20 30 Transfer speed (m/min) Transfer speed (m/min) J Lateral Load and Operating Pressure DThe larger the lateral load, the higher the operating pressure required
Cooling Capacity HRSE012-A-10-(T) [50 Hz] [60 Hz] 1600 1400 1600 Ambient temperature Ambient temperature 0 200 400 600 800 1000 1200 1400 25C Cooling capacity [W] Cooling capacity [W] 25C 600 800 1000 1200 HRS HRS 090 35C 35C 0 200 400 HRS 100/150 0 10 20 30 40 0 10 20 30 40 HRSH 090 Circulating fluid temperature [C] Circulating fluid temperature [C] HRSH HRSE018-A-10-(T) [50 Hz] [60 Hz]
Suffix of how to order () U2: M-3AU-2,U4: M-3AU-4-X83 02: KJH02-M3,04: KJH04-M3-X83 Pad diameter: 10 to 16 Model Pad unit part no. Adapter part no. ZP3-Y (10/13/16)UM;-B5-@ ZP3-Y (10/13/16)B;-B5-@ ZP3-(10/13/16)UM ZP3-(10/13/16)B ZP3A-Y1-B3 ZP3A-Y3-B5 Note 1) in the table indicates the pad material. Note 2) in the table indicates the vacuum inlet.
EX260 Integrated-type (For Output) Serial Transmission System Series 10-SV RoHS How to Order Manifold 10-SS5V 10S1 D N 05 1 U W NA Enclosure IP67 Refer to Note 1) of the w SI unit specifications. w q e r y t u i q Series t P, E port location r Valve stations 1 2 3 U D B For 32-output SI unit 10-SV1000 10-SV2000 10-SV3000 U side (2 to 10 stations) D side (2 to 10 stations) Both sides (2
Bore size (mm) Contents 32 40 50 63 80 100 32 40 50 63 80 100 MBB32-PS MBB40-PS MBB50-PS MBB63-PS MBB80-PS MBB100-PS MBB32-PS-W MBB40-PS-W MBB50-PS-W MBB63-PS-W MBB80-PS-W MBB100-PS-W Set of the No. @9, #0, #1, #2 and #3. Set of the No. @9, #0, #1, #2 and #3.
High Flow/ Power Saving Type Ep. 7 Ep. 9 Ep. 11 How to Order JSX 2 1U S N 403 R 5 GS B w y e r t u o i q U High flow type q Size w Valve type e Body material i Electrical entry Symbol Size 1 10 2 20 3 30 Symbol Valve type Symbol Body material S Stainless steel C Brass Symbol Electrical entry Size CE/UKCAcompliant 10 20 30 2(OUT) 1 N.C.
HRZ x V x C x iT it m x C x (T0 Tt) it Q = = HRZD 1 x 150 x 4.186 x 103 x 10 900 = = 6977 [J/s] 7.0 [kW] m x C x (T0 Tt) it x 860 x V x 60 x C x iT it x 860 HRW Q = = Cooling capacity = Considering a safety factor of 20%, 7.0 [kW] x 1.2 = HECR 1 x 150 x 60 x 1.0 x 103 x 10 15 x 860 8.4 [kW] = HEC Q x t: Heat capacity [kJ] Thermo-chiller 6977 [W] = 7.0 [kW] Water bath HEB Cooling capacity
2 20 20 10 10 10 5 4 3 4 5 3 4 5 3 2 2 2 1 1 1 1 5 10 20 10 5 1 20 30 10 5 1 20 30 Transfer speed (m/min) Transfer speed (m/min) Transfer speed (m/min) Lever-type weight of transferred object and transfer speed graphs (graphs (2) and (3)) show the values at room temperature (20 to 25C).