HRX-OM-W038 Stainless (I include heat exchanger brazing), SiC, Carbon, PP, PE, POM, FKM, EPDM, PVC (No. copper used) Circulating fluid wetted materials Servieable conductivity: 0.22S/cm or more. (Resistivity: 4.5Mcm or less.) This option doesnt include a function to maintain high resistivity/conductivity. You need ion exchange resin filter (DI filter) for the purpose.
Stainless (I include heat exchanger brazing), SiC, Carbon, PP, PE, POM, FKM, EPDM, PVC (No. copper used) Circulating fluid wetted materials Servieable conductivity: 0.22S/cm or more. (Resistivity: 4.5Mcm or less.) This option doesnt include a function to maintain high resistivity/conductivity. You need ion exchange resin filter (DI filter) for the purpose.
Stainless (I include heat exchanger brazing), SiC, Carbon, PP, PE, POM, FKM, EPDM, PVC (No. copper used) Circulating fluid wetted materials Servieable conductivity: 0.22S/cm or more. (Resistivity: 4.5Mcm or less.) This option doesnt include a function to maintain high resistivity/conductivity. You need ion exchange resin filter (DI filter) for the purpose.
to 150.0oC = FBB4h to 5DCh 0.1 oC /dig 0h Circulating fluid discharge temperature -166.0 to 302.0 oF = F984h to BCCh 0.1 oF /dig 0001h Circulating fluid flow rate 0.0 to 195.0L/min = 0h to 79Eh 0.1L/min/dig 0.00 to 3.00MPa = 0h to 12Ch 0.01MPa/dig 0002h Circulating fluid discharge pressure 0 to 435PSI = 0h to 1B3h 1PSI/dig 0003h Circulating fluid electric conductivity 2.0 to 48.0 microS/cm
Item Range 0 None 0 Decimal number : -327.6 to 327.6 Hexadecimal number : F334h to 0CCCh (0.1/dig) 1 Circurating fluid return temperature Decimal number : 3276.8 to 3276.7S/cm Hexadecimal number : 8000h to 7FFFh (0.1S/cm/dig) 2 Circulating fluid electrical conductivity Decimal number : -32.76 to 32.76MPa Hexadecimal number : F334h to 0CCCh (0.01MPa/dig) 3 Pressure of high pressure refrigerant
Vertical auto switch unit B With vertical auto switch unit (Built-in magnet) C With vertical auto switch unit and angle adjustment unit (Built-in magnet) CM With vertical auto switch unit for the D-M9 and angle adjustment unit (Built-in magnet) 1 Applicable auto swiches 2 CRB10 to 40 Rotary actuators / Unit combination illustration Part number for vertical auto switch unit Part number for
P J M N H K O L mm A B C D E F G H J K L M N O P IDFA60 R1 307 745 605 161 405 681 94 71 46 12.5 330 704 355 126 IDFA70 R1-1/2 342 890 825 176 480 905 68 365 849 390 81 20 IDFA80 R2 438 957 863 169 480 958 219 78 100 11.0 463 916 485 170 IDFA90 13 IDFA80 IDFA90 mm IDFA60 745 957 () () 704 916 () () 355 330 485 463 IDFA70 890 () 849 () 390 365 IDFA60/70/80/90 Series 7-3 IDX-OM-W094 7.4 CM
(2) Formula P 0.1013 Qc = Qc x n x Number of actuators x Reserve factor QCP = 2 x a x l x x 10-6. (3) QC = QCR + QCP. (4) Qc = Compressor discharge flow rate n = Actuator reciprocations per minute QCR = Air consumption of rotary actuator [l (ANR)] Internal cross section of tubing and steel piping QCP = Air consumption of tubing or piping [l (ANR)] V = Internal volume of rotary actuator [cm
Q: Required fluid volume for extension (l/min) Q: Required fluid volume for retraction (l/min) D: Bore size (cm) d: Piston rod diameter (cm) : Piston speed (mm/s) Q = D __ 4 6 _ 1000 Formula (1) Q = (D d) __ 4 6 _ 1000 ..
EK M : Kinetic energy (J) : Load weight (kg) + Weight of movable part (kg) : Piston speed (m/s) EK= 2 M 2 Allowable Kinetic Energy When Locking 40 1.19 {12.1} 32 0.67 {6.8} 25 0.42 {4.3} 20 0.26 {2.7} Bore size (mm) Piston speed (m/s) J {kgf cm} Stopping Accuracy (Not including tolerance of control system.)
Manifold C Connector VT 5 Base mounted Port size {2(A) port} VP Stations One-touch fitting for 3.2 One-touch fitting for 4 One-touch fitting for 6 M5 thread (Changeable type) With port plug Mixture of port sizes C3 C4 C6 M5 CP CM 02 2 stations VG Side ported 20 20 stations VP Top ported (1) (2) S070 Note 1) When CP port plug is attached on all 2(A) port.
Manifold C Connector VT 5 Base mounted Port size {2(A) port} VP Stations One-touch fitting for 3.2 One-touch fitting for 4 One-touch fitting for 6 M5 thread (Changeable type) With port plug Mixture of port sizes C3 C4 C6 M5 CP CM 02 2 stations VG Side ported 20 20 stations VP Top ported (1) (2) S070 Note 1) When CP port plug is attached on all 2(A) port.
Cylinder Speed Chart Bore size Series CM Pressure 0.5 MPa Load factor 50% Stroke 300 mm Series MB/CA1 Note) Pressure 0.5 MPa Load factor 50% Stroke 500 mm Series CS1 Pressure 0.5 MPa Load factor 50% Stroke 1000 mm 20 25 32 40 40 50 63 80 100 125 140 160 Average speed (mm/s) System 800 700 600 500 400 300 200 100 Perpendicular, upward actuation A Horizontal actuation VK VZ 0 800 700 600 500
.-230 Ryan Way, South San Francisco, CA 94080-6370-Main Office: (650) 588-9200-Outside Local Area: (800) 258-9200-www.stevenengineering.com When port plug is used on 2 (B) port, indicate CM in manifold part no. and port size, and specify the port plug location in the manifold specification sheet.
Arntient and tluid temperatureMax .120'F(Max. 50'C) Respon time 2 poitl'| slngle/doubb 20ms or less at 75 PSI (skg/cm'?) 3 pcition 40ms or less at 75 PSI (skgf/cm'?)
(2) Formula P 0.1013 Qc = Qc x n x Number of actuators x Reserve factor QCP = 2 x a x l x x 10-6. (3) QC = QCR + QCP. (4) Qc = Compressor discharge flow rate n = Actuator reciprocations per minute QCR = Air consumption of rotary actuator [l (ANR)] Internal cross section of tubing and steel piping QCP = Air consumption of tubing or piping [l (ANR)] V = Internal volume of rotary actuator [cm
Piston speed d80, d100 50-400mm/s Rubber cushion at both sides Lublication Non-lubrication Stroke tolerance Compact Guide Cylinder:Series MGQ Theoretical Table El--ort,"t f]4,","r ,^ 113 201 a 151 314 491 25 804 603 1257 1056 *1,:1.'. 1963 1649 gt17 , x ' 2803 5(n7 4536 7854 " 6 7147 1 N=0.1 02kgl 1 l\,4 Pa=l0.2kgf/cm, 1 M Pa=l45ps 1N=0.2251bs.
Required fluid volume for extension (l/min) Required fluid volume for retraction (l/min) Bore size (cm) Piston rod diameter (cm) Piston speed (mm/s) Q: Q: D: d: : Q = D __ 4 6 _ 1000 .. Formula (1) Q = (D d) __ 4 6 _ 1000 .
. : Required fluid volume for extension (l/min) : Required fluid volume for retraction (l/min) : Bore size (cm) : Piston rod diameter (cm) : Piston speed (mm/s) Q Q D d Relationship between piston speed and fluid volume In general, it is necessary to select a piping diameter that will not allow the fluid flow velocity to exceed the values shown in the chart below.