Precision Regulator 350 Flow rate (L/min (ANR)) Supply pressure P1 (MPa) Relief flow rate (L/min (ANR)) IR1020-01 IR1020-01 IR1020-01 Back pressure: 1.0 MPa Supply pressure: 1.0 MPa 1.0 0.8 0.204 0.9 0.7 Set pressure (MPa) Set pressure (MPa) 0.8 0.202 0.6 0.7 Set point 0.5 0.6 0.200 0.5 0.4 0.4 0.3 0.198 0.3 0.2 0.2 0.1 0.196 0.1 0 100 200 300 400 500 0 0.2 0.1 0.3 0.4 0.6 0.5 0.8 0.7 0.9 300 0 100 200 1.0
How to judge: The area within the curb line of graph 1 shows the relationship between the specified length stroke cylinder and allowable lateral load, which applies to piston rod end. 5 - Ex.) 25A-CS2F125-300 According to the graph 1, nodal point of cylinder stroke 300mm and 125 is 115N. Lateral load to rod end needs to be smaller than this.
A B A B A B A B 60 80 100 115 235.5 265 300 319.5 60 77 96 113 46 60 76 85 34 40 50 60 24 36 41 50 135 164.5 200 219 50 60 79 90 77 95.5 111 119 1 2 3-Rc 3 4 3-Rc1 Rc1 4 Rc1 4 Rc1 8 1 2 2-Rc 3 4 2-Rc1 Model J K L M N O P Q R S T U V VNH1 -10A A B VNH2 -15A A B VNH3 -20A A B VNH4 -25A A B M5 x 0.8 depth 5.5 M6 x 1 depth 6 M8 x 1.25 depth 6 M8 x 1.25 depth 6 202.5 232 267 286.5 29 36 48 51
SI : G : 1[L/min]=0.2642[gal/min] 1[gal/min]=3.785[L/min] 1=9/5+32 L/min 100L/min250L/min Rc N NPT F G IS0228 1 N M8(3m) 04 20 40 11 21 03 3/8 04 1/2 06 3/4 10 1/1 12 11/4 14 11/2 / OUT1 OUT2 1 1~5 V 2 4~20 mA 1T 1~5 V 1~5 V (PF3W3)1~5V (-1-1T) 4~20mA(47) -11No.PF-OMN0009CN-F PVC PF3W5 U 48 () 3 A : 11 21 10~100 L/min 30~250 L/min U PVC 2 11 21 R (PVC) 11 21 40 11 21 25 25A
For LEFSH25RH-300, enter "LEFS25RH-300" and select LEFS25RH-300. For clean type (11-) or secondary battery (25A-) type actuator Search without entering 11or 25A-, and select the actuator for which the part number after 11or 25Amatches. e.g.) For 11-LEFSH16A-100BR, enter "LEFS16A-100" and select LEFS16A-100.
For LEFSH25RH-300, enter "LEFS25RH-300" and select LEFS25RH-300. For clean type (11-) or secondary battery (25A-) type actuator Search without entering 11or 25A-, and select the actuator for which the part number after 11or 25Amatches. e.g.) For 11-LEFSH16A-100BR, enter "LEFS16A-100" and select LEFS16A-100.
Applicable model D7 L26 L28 AS-10A AS1002FS 9.2 4 18.7 AS-20A AS2002FS 9.4 8.8 20.4 AS-25A AS2052FS 11.4 6.3 27 AS-30A AS3002FS 11.8 5.9 32.1 Part no. Applicable model D7 L27 L28 AS-10A1 AS1002FS 9.2 4.5 18.7 AS-20A1 AS2002FS 9.4 9.3 20.4 AS-25A1 AS2052FS 11.4 7.1 27 AS-30A1 AS3002FS 11.8 6.4 32.1 2 x D7 2 x D7 L26 L27 L28 L28 The AS4002FS can be mounted without the adapter.
Bore Size: 63mm, Port Thread: M Thread: 6 to 15 Bore; Rc: 20 to 63 Bore, Stroke: 300mm
Bore Size: 63mm, Port Thread: M Thread: 6 to 15 Bore; Rc: 20 to 63 Bore, Stroke: 300mm
Step Motor (Servo/24 VDC) Servo Motor (24 VDC) Electric Actuator/Slider Type Ball Screw Drive Secondary Battery Compatible 25A-LEFS Series LEFS16, 25, 32, 40 Refer to page 38 for model selection. How to Order 25A-LEFS 25 H R B 200 S 1 6N 1 q r w e t u y i o !0 !1 !
VVQ4000-25A-1 Intermediate stop Air leakage from the pipe between the valve and cylinder or from the fittings will prevent the cylinder from stopping in the middle for a long time. Check for leakage using a neutral household detergent, such as dish washing soap. Also, check the cylinder sealing and piston seal for leakage.
Result area (LER ) ) LEY16RA-100BMLLEY16RA-100 LERH30K-3LLERH30K-3 0 ) LEY16RA-75LEY16RALEY16RA-100 LEFSH LEFS ) LEFSH25RH-300LEFS25RH-300LEFS25RH-300 11-)(25A-) 11-25A-11-25A) 11-LEFSH16A-100BRLEFS16A-100LEFS16A-100 29 No.SFOD-OMT0011CN-A c) Execute Execute b) c) (Apply) d), d) download e) 30 No.SFOD-OMT0011CN-A (2) a View(V) 4.1 (1-1-2) View (V) b c) download e) 31 No.SFOD-OMT0011CN-A
Note) Standard lead wire length: 300 mm.
LEFB16 LEFB25 LEFB32 Speed [mm/s] Acceleration Speed [mm/s] Acceleration Speed [mm/s] Acceleration [mm/s2] [mm/s2] [mm/s2] 0 48 200 48 200 48 200 1 60 300 60 300 60 300 2 70 400 70 400 70 400 3 80 500 80 500 80 500 4 100 600 100 600 100 600 5 150 700 200 700 200 700 6 200 800 300 800 300 800 7 300 900 400 900 400 900 8 400 1000 500 1000 500 1000 9 500 1200 600 1200 600 1200 10 600 1400 700
LEFS32B LEFS40H LEFS40A LEFS40B 2] 2] 2] 2] 2] 2] [mm/s] [mm/s [mm/s] [mm/s [mm/s] [mm/s [mm/s] [mm/s [mm/s] [mm/s [mm/s] [mm/s 0 24 200 16 200 8 200 30 200 20 200 10 200 1 30 300 20 300 10 300 40 300 30 300 12 300 2 40 400 30 400 15 400 50 400 40 400 15 400 3 50 500 40 500 20 500 60 500 50 500 20 500 4 60 600 50 600 25 600 80 600 60 600 25 600 5 80 700 60 700 30 700 100 700 80 700 30 700
X505 [IP65 compatible] [IP65 compatible] [IP65 compatible] Manual override Nil: Non-locking push type D: Push-turn locking slotted type E: Push-turn locking lever type G: Lead wire length 300 mm H: Lead wire length 600 mm L: With lead wire (length 300 mm) M: With lead wire (length 300 mm) D: With connector Y: With connector T: Conduit terminal LN: Without lead wire MN: Without lead wire Light
st Over 300 st Over 25 st to 100 st 25 st Over 100 st to 200 st Over 200 st to 300 st Over 300 st Over 25 st to 100 st Over 100 st to 200 st 25 st Over 300 st Over 25 st to 100 st Over 100 st to 200 st Over 200 st to 300 st 25 st or less Over 300 st Over 30 st to 100 st Over 100 st to 200 st Over 200 st to 300 st 30 st or less Over 300 st Over 25 st to 100 st Over 100 st to 200 st Over 200
T4 = 0.05 [s] T1 = V/a1 = 300/5000 = 0.06 [s], T3 = V/a2 = 300/5000 = 0.06 [s] T2 = = = 0.94 [s] L 0.5 V (T1 + T3) V 300 0.5 300 (0.06 + 0.06) 300 T4 = 0.05 [s] Therefore, the cycle time can be obtained as follows.
L Speed: V [mm/s] a1 a2 T1 = V/a1 = 300/3000 = 0.1 [s], T3 = V/a2 = 300/3000 = 0.1 [s] Time [s] T = T1 + T2 + T3 + T4 [s] L 0.5 V (T1 + T3) V T1: Acceleration time and T3: Deceleration time can be obtained by the following equation.
Program end 500[r/min] 200[ms] 300[ms] 600[10STMm] 300[10STMm] 700[r/min] 700[10STMm] 300[10STMm] a) b) c) d) e) f) a) Incremental move command (600 10STM m) 900 10STM m (a) MOVI (600) +e) TRIPI (300)) b) 300 10STM m d) Incremental continuous move command (700 10STM m) Forward rotation 0r/min Servo motor speed ON Program output 1 (OUT1) OFF c) f) 13 38 13.