Please contact us for the latest version.sales@ocaire.com, RETAINING RING, SS, ACTUATOR, NCA1 TIE-ROD CYLINDER, P1, 2.5 INCH NCA1 PART, 1 lb
height has been reduced by between 7mm and 37mm , The weight has been reduced by approximately 50% , Sliding performance has been stabilied and the service life has been improved due to the adoption of a new sliding material , As compared with the existing MY3B series *, the load weight and allowable moment have been approximately doubled, SPACER, ACTUATOR, MY3A/B RODLESS CYLINDER, P1
Please contact us for the latest version.sales@ocaire.com, SEAL BELT, ACTUATOR, MY3A/B RODLESS CYLINDER, P1, 63MM MY3A/B PART, 35.01528 lb
Please contact us for the latest version.sales@ocaire.com, HOLDER, OTHERS, CH HYDRAULIC CYLINDER, P1, 63MM CH PART
AC Servo Motor Driver (Pulse input type) Power supply voltage is 200VAC single phase Trouble OFF ON RA MC Emergency stop MC SK (Note 6) Driver Servo motor Servo amplifier (Note 7) Controller CNP1 MC NFB 1-phase 200 to 230VAC L1 CNP3 (Note 5) U L2 U Motor V L3 V [1] M W N W P1 (Note 1) P2 PE CNP2 P [2] (Note 2) C [3] D Encoder CN2 (Note 3) Encoder cable L11 L21 [1] Provide specified power supply to input terminals L1 and L2. [2]
Power supply is AC200V single phase Trouble OFF ON RA MC Emergency stop MC SK (Note 6) Driver Servo motor Servo amplifier (Note 7) Controller CNP1 MC NFB 1-phase 200 to 230VAC L1 CNP3 (Note 5) U L2 U Motor V L3 V [1] M W N W P1 (Note 1) P2 PE CNP2 P [2] (Note 2) C [3] D Encoder CN2 (Note 3) Encoder cable L11 L21 [1] Power supply input terminal: Supply specified power supply. [2] Connect the
Power supply is AC200V single phase (Note 4) Controller Forced Alarm forced stop stop ON OFF RA1 RA2 MC MC SK Driver Servo amplifier Servo motor NFB MC CNP1 L1 1-phase 200 to 230VAC CNP3 (Note 6) U 2 L2 U Motor [1] V 3 L3 V M N W 4 W 1 P1 (Note 1) P2 PE CNP2 P (Note 2) C [3] [2] D (Note 3) Encoder CN2 Encoder cable L11 L21 CN3 CN3 24VDC Forced stop EM1 DOCOM (Note 5) DOCOM DICOM (Note 5)
Power supply is 1-Phase 200 VAC Trouble OFF ON RA MC Emergency stop MC SK (Note 6) Driver Servo motor Servo amplifier (Note 7) MCCB CNP1 MC NFB 1-phase 200 to 230VAC L1 CNP3 (Note 5) U L2 U Motor V L3 V [1] M W N W P3 P1 (Note 1) P2 P4 PE CNP2 P [2] [3] (Note 2) C D Encoder CN2 (Note 3) Encoder cable L11 L21 [1] Power supply input terminal: Supply specified power supply. [2] Connect the motor
They are different from P1 and P2 of LECSS-S drivers. 5. Short P3 and P4. 1 4 1.
Primary Station (Master Station) State Transition Secondary Station (Slave Station) State Transition Phase Abbreviation Description 1 P1 Waiting for establishment of connection. 2 P2 Asynchronous communications enabled. Only asynchronous commands can be used. P3 Synchronous communications enabled.
(State at P1 and Q1) (3) If the suction port then fully opened, the suction flow will reach its maximum (Qmax), but the vacuum pressure will become almost 0 (atmospheric pressure). Vacuum pressure will not increase much if an attempt is made to adsorb a breathable workpiece or a workpiece with a large amount of leakage. Attention should be paid in such cases. Suction flow rate 35 - Doc.
0.43MPa -100 40 -100 35 -80 [L/min (AMR) ] -80 [L/min (AMR) ] 30 [kPa] [kPa] -60 25 -60 20 -40 -40 15 10 -20 -20 5 0 0 0 0 2 4 6 8 10 12 0.2 0.3 0.4 0.5 [MPa] [L/min (AMR) ] ZQ10A 0.43MPa -100 70 -100 60 -80 [L/min (AMR) ] -80 [L/min (AMR) ] [kPa] [kPa] 50 -60 -60 40 -40 30 -40 20 -20 -20 10 0 0 0 0 5 10 15 20 25 0.2 0.3 0.4 0.5 [MPa] [L/min (AMR) ] Pmax Qmax 10 Pmax 2 (P1
N.C. 24 No.ZL3-OM00801-A 11. ,, 11.1 25 No.ZL3-OM00801-A 11.2 11.3 (V),0, Pmax () (P1 Q1 ) (Qmax) 0() , 1L ZL3H ,-90kPa ,4.0 ,Pmax Qmax , 26 No.ZL3-OM00801-A 12. 12.1 12.2 0 27 No.ZL3-OM00801-A 13.
(condition P1 and Q1) 3. When the suction port is opened further and fully opened, suction flow moves to the maximum value (Qmax), but vacuum pressure is near zero (atmospheric pressure). As described above, the vacuum pressure changes when the suction flow changes.
(condition P1 and Q1) 3. When the suction port is opened further and fully opened, suction flow moves to the maximum value (Qmax), but vacuum pressure is near zero (atmospheric pressure). As described above, the vacuum pressure changes when the suction flow changes.
(condition P1 and Q1) 3. When the suction port is opened further and fully opened, suction flow moves to the maximum value (Qmax), but vacuum pressure is near zero (atmospheric pressure). As described above, the vacuum pressure changes when the suction flow changes.
(condition P1 and Q1) 3. When the suction port is opened further and fully opened, suction flow moves to the maximum value (Qmax), but vacuum pressure is near zero (atmospheric pressure). As described above, the vacuum pressure changes when the suction flow changes.
(condition P1 and Q1) 3. When the suction port is opened further and fully opened, suction flow moves to the maximum value (Qmax), but vacuum pressure is near zero (atmospheric pressure). As described above, the vacuum pressure changes when the suction flow changes.
(condition P1 and Q1) 3. When the suction port is opened further and fully opened, suction flow moves to the maximum value (Qmax), but vacuum pressure is near zero (atmospheric pressure). As described above, the vacuum pressure changes when the suction flow changes.
Domensions Plate thickness AR20M/30-MD: Max.3.5 AR40-D: Max.5 Dimensions Optional specifications Round type pressure gauge (Semi-standard:Z) Round type pressure gauge (with color zone) Standard specifications Round type pressure gauge Model P1 P2 P3 A BNote 1) C D F J K L1 H J H J H J AR20M-D 1/81/4 1/8 1/81/4 40 66.8 26.5 21 M28X1 26 2 9 37.5 62.5 37.5 63.5 37.5 63.5 AR30M-D 1/43/8 1/8 1