VQ5000 3000 0 0 2500 2000 1500 1000 500 3000 Flow rate l/min (ANR) Flow rate l/min (ANR) ARBQ5000-00-P (PA) ARBQ5000-00-P (PB) 0.7 0.7 0.6 0.6 Downstream pressure MPa Downstream pressure MPa 0.5 0.5 0.4 0.4 0.3 0.3 0.2 0.2 0.1 0.1 0 0 2500 2000 1500 1000 500 3000 0 0 2500 2000 1500 1000 500 3000 Flow rate l/min (ANR) Flow rate l/min (ANR) Note: 1MPa = 145psi 1l/min = 0.035SCFM Pressure Characteristics
Flow characteristics sJppy pressL,e 1.0vea Reliel flow chatacteristics suppry pressu 1 0 Mpa Pressure chalacteristics setpressure: 04 [4pa 0.9 0.8 P o.z 3 o.o 3 o.s P 0.4 0.8 G n 7 g 0.6 3 o.s E 0.4 -o 0.3 t o.z 0.1 0.0 500 1000 1500 2000 Flow te (l/min IANR)) I E E .9 .9 6 " " a o.2 0 . 1 o 0.0 500 1000 1500 2000 Flow raie (rmin (aNB)) 0.4 0.6 0.8 1.0 1.2 Supply pressure (MPa) series ITV
The kinetic energy of the load can be obtained with the following formula: Cushion rush speed u (mm/s) 200 300 400 500 Also, the graph above can be used for making a selection. Example: Obtain the maximum load weight when a lifter is used at an average speed of ua 300mm/s on a slide bearing type cylinder with a 32 bore and a 100mm stroke.
) X Piston area (mm2) CY1 Weight (Unit: g) MY1 Standard stroke (mm) Extra for options Extension shock absorber Retraction shock absorber Model Axial piping S: Stroke (mm) End lock Buffer Extension adjuster Retraction adjuster 20 30 40 50 75 100 125 150 10 MXS 6 MXS 8 MXS12 MXS16 MXS20 MXS25 100 115 155 180 80 10 5 30 13+0.15S 160 190 235 285 150 35 15 45 9 40 40 415 26+0.17S 340 340 400 500
How to Order Standard Elements 500 EM A 074 Element seal material/Operating temperature range Micromesh element symbol Symbol Element seal material Non-asbestos Fluororesin NBR FKM Operating temperature range(C) 0 to 150 0 to 120 0 to 80 0 to 120 Symbol Element composition symbol A Note) Element composition symbol Stainless steel 304 Stainless steel 316 T Note) 100 500 N V Note) Not possible
this point is approximately 0.4 MPa. 0.7 0.7 0.7 SUP = 0.7 MPa 0.6 0.6 0.6 Discharge pressure (MPa) Discharge pressure (MPa) Discharge pressure (MPa) SUP = 0.7 MPa SUP = 0.7 MPa SUP = 0.5 MPa 0.5 0.5 0.5 SUP = 0.35 MPa SUP = 0.5 MPa SUP = 0.5 MPa SUP = 0.2 MPa 0.4 0.4 0.4 SUP = 0.35 MPa SUP = 0.35 MPa 0.3 0.3 0.3 SUP = 0.2 MPa SUP = 0.2 MPa 0.2 0.2 0.2 0.1 0.1 0.1 0 0 0 50 100 150 200 250 500
Rod Couplers Part # Rod Thread DMA-312 5 16-24 DMA-375 38-24 DMA-437 7 16-20 DMA-500 12-20 The Table on the right shows the Rod Couplers that offers. The thread shown is a male / female thread as the coupler has both a male and female end.
500 1000 1500 Flow rate L/min Flow rate L/min (ANR) Flow rate L/min (ANR) SRH4100-03 SRH4110-03 SRH4100-03 0.5 0.20 0.20 0.4 Outlet pressure MPa Outlet pressure MPa Outlet pressure MPa 0.15 0.15 0.3 0.10 0.10 0.2 0.05 0.05 0.1 1000 500 10 5 0 15 20 25 500 1000 1500 0 0 Flow rate L/min (ANR) Flow rate L/min (ANR) Flow rate L/min 858 Clean Regulator SRH Series Pressure Characteristics (Representative
Rod Couplers Part # Rod Thread DMA-312 5 16-24 DMA-375 38-24 DMA-437 7 16-20 DMA-500 12-20 The Table on the right shows the Rod Couplers that offers. The thread shown is a male / female thread as the coupler has both a male and female end.
TUB-20 Series PEAPP Series PEAPP Polyurethane Tubing How to Order PEAPP 07 BU 153 Linear low density polyethykene tubing, Industrial grade Length per roll Length 100 (33m) 250 (100m) 500 (153m) 1000 (305m) Symbol 33 100 153 305 Tube O.D.
50, 100, 150, 200, 250, 300 15 1000 12-CY3B15 50, 100, 150, 200, 250, 300, 350, 400, 450, 500 12-CY3B20 20 100, 150, 200, 250, 300, 350, 400, 450, 500, 600, 700, 800 Rc1/8 NPT1/8 G1/8 25 12-CY3B25 (Both sides) Non-lube 32 12-CY3B32 1300 Rc1/4 NPT1/4 G1/4 12-CY3B40 40 100, 150, 200, 250, 300, 350, 400, 450, 500, 600, 700, 800, 900, 1000 12-CY3B50 50 12-CY3B63 63 Note 1) Stroke exceeding
25 to 85C (with no freezing and condensation)1000 VAC for 1 min. between external terminal and case50M or more (500 VDC Mega) between external terminal and case.10 to 500 Hz with a 1.5 mm amplitude or 98 m/s2 acceleration, in each X, Y, Z direction for 2 hrs, whichever is smaller. (de-energized)490 m/s2 in X, Y, Z directions 3 times each1000 Vp-p, Pulse width 1 ?s, Rise time 1 ns
25 to 85C (with no freezing and condensation)1000 VAC for 1 min. between external terminal and case50M or more (500 VDC Mega) between external terminal and case.10 to 500 Hz with a 1.5 mm amplitude or 98 m/s2 acceleration, in each X, Y, Z direction for 2 hrs, whichever is smaller. (de-energized)490 m/s2 in X, Y, Z directions 3 times each1000 Vp-p, Pulse width 1 ?s, Rise time 1 ns
25 to 85C (with no freezing and condensation)1000 VAC for 1 min. between external terminal and case50M or more (500 VDC Mega) between external terminal and case.10 to 500 Hz with a 1.5 mm amplitude or 98 m/s2 acceleration, in each X, Y, Z direction for 2 hrs, whichever is smaller. (de-energized)490 m/s2 in X, Y, Z directions 3 times each1000 Vp-p, Pulse width 1 ?s, Rise time 1 ns
25 to 85C (with no freezing and condensation)1000 VAC for 1 min. between external terminal and case50M or more (500 VDC Mega) between external terminal and case.10 to 500 Hz with a 1.5 mm amplitude or 98 m/s2 acceleration, in each X, Y, Z direction for 2 hrs, whichever is smaller. (de-energized)490 m/s2 in X, Y, Z directions 3 times each1000 Vp-p, Pulse width 1 ?s, Rise time 1 ns
25 to 85C (with no freezing and condensation)1000 VAC for 1 min. between external terminal and case50M or more (500 VDC Mega) between external terminal and case.10 to 500 Hz with a 1.5 mm amplitude or 98 m/s2 acceleration, in each X, Y, Z direction for 2 hrs, whichever is smaller. (de-energized)490 m/s2 in X, Y, Z directions 3 times each1000 Vp-p, Pulse width 1 ?s, Rise time 1 ns
25 to 85C (with no freezing and condensation)1000 VAC for 1 min. between external terminal and case50M or more (500 VDC Mega) between external terminal and case.10 to 500 Hz with a 1.5 mm amplitude or 98 m/s2 acceleration, in each X, Y, Z direction for 2 hrs, whichever is smaller. (de-energized)490 m/s2 in X, Y, Z directions 3 times each1000 Vp-p, Pulse width 1 ?s, Rise time 1 ns
25 to 85C (with no freezing and condensation)1000 VAC for 1 min. between external terminal and case50M or more (500 VDC Mega) between external terminal and case.10 to 500 Hz with a 1.5 mm amplitude or 98 m/s2 acceleration, in each X, Y, Z direction for 2 hrs, whichever is smaller. (de-energized)490 m/s2 in X, Y, Z directions 3 times each1000 Vp-p, Pulse width 1 ?s, Rise time 1 ns
25 to 85C (with no freezing and condensation)1000 VAC for 1 min. between external terminal and case50M or more (500 VDC Mega) between external terminal and case.10 to 500 Hz with a 1.5 mm amplitude or 98 m/s2 acceleration, in each X, Y, Z direction for 2 hrs, whichever is smaller. (de-energized)490 m/s2 in X, Y, Z directions 3 times each1000 Vp-p, Pulse width 1 ?s, Rise time 1 ns
25 to 85C (with no freezing and condensation)1000 VAC for 1 min. between external terminal and case50M or more (500 VDC Mega) between external terminal and case.10 to 500 Hz with a 1.5 mm amplitude or 98 m/s2 acceleration, in each X, Y, Z direction for 2 hrs, whichever is smaller. (de-energized)490 m/s2 in X, Y, Z directions 3 times each1000 Vp-p, Pulse width 1 ?s, Rise time 1 ns