Series: 7 (VP700), Pressure Specification: K (High-pressure Type, 1.0 MPa), Voltage: 5 (24 VDC), Electrical Entry: DO (DIN Terminal w/o Connector), Light/Surge Voltage Suppressor: w/o Light/Surge Voltage Suppressor, Manual Override: Non-locking Push Type
Series: 7 (VP700), Pressure Specification: K (High-pressure Type, 1.0 MPa), Voltage: 5 (24 VDC), Electrical Entry: DO (DIN Terminal w/o Connector), Light/Surge Voltage Suppressor: w/o Light/Surge Voltage Suppressor, Manual Override: Non-locking Push Type, Bracket: w/o Bracket, Flow Direction: R (Right to Left)
Series: 5 (VP500), Pressure Specification: Standard (0.7 MPa), Voltage: 5 (24 VDC), Electrical Entry: DO (DIN Terminal w/o Connector), Light/Surge Voltage Suppressor: S (w/Surge Voltage Suppressor), Manual Override: Non-locking Push Type
Series: 5 (VP500), Pressure Specification: Standard (0.7 MPa), Voltage: 5 (24 VDC), Electrical Entry: DO (DIN Terminal w/o Connector), Light/Surge Voltage Suppressor: w/o Light/Surge Voltage Suppressor, Manual Override: Non-locking Push Type, Bracket: w/o Bracket, Flow Direction: R (Right to Left)
Series: 7 (VP700), Pressure Specification: Standard (0.7 MPa), Voltage: 3 [110 VAC, (115 VAC)], Electrical Entry: DO (DIN Terminal w/o Connector), Light/Surge Voltage Suppressor: w/o Light/Surge Voltage Suppressor, Manual Override: Non-locking Push Type
Series: 5 (VP500), Pressure Specification: Standard (0.7 MPa), Voltage: 5 (24 VDC), Electrical Entry: DO (DIN Terminal w/o Connector), Light/Surge Voltage Suppressor: w/o Light/Surge Voltage Suppressor, Manual Override: Non-locking Push Type
Series: 7 (VP700), Pressure Specification: Standard (0.7 MPa), Voltage: 5 (24 VDC), Electrical Entry: DO (DIN Terminal w/o Connector), Light/Surge Voltage Suppressor: S (w/Surge Voltage Suppressor), Manual Override: Non-locking Push Type
Series: 5 (VP500), Pressure Specification: K (High-pressure Type, 1.0 MPa), Voltage: 5 (24 VDC), Electrical Entry: DO (DIN Terminal w/o Connector), Light/Surge Voltage Suppressor: w/o Light/Surge Voltage Suppressor, Manual Override: Non-locking Push Type
Series: 5 (VP500), Pressure Specification: Standard (0.7 MPa), Voltage: 5 (24 VDC), Electrical Entry: DO (DIN Terminal w/o Connector), Light/Surge Voltage Suppressor: S (w/Surge Voltage Suppressor), Manual Override: Non-locking Push Type, Bracket: B (w/Bracket)
Series: 7 (VP700), Pressure Specification: Standard (0.7 MPa), Voltage: 5 (24 VDC), Electrical Entry: DO (DIN Terminal w/o Connector), Light/Surge Voltage Suppressor: S (w/Surge Voltage Suppressor), Manual Override: Non-locking Push Type, Bracket: w/o Bracket, Flow Direction: R (Right to Left)
Series: 7 (VP700), Pressure Specification: K (High-pressure Type, 1.0 MPa), Voltage: 6 (12 VDC), Electrical Entry: DO (DIN Terminal w/o Connector), Light/Surge Voltage Suppressor: w/o Light/Surge Voltage Suppressor, Manual Override: A (Non-locking Push Type, Manual)
Series: 7 (VP700), Pressure Specification: K (High-pressure Type, 1.0 MPa), Voltage: 5 (24 VDC), Electrical Entry: DO (DIN Terminal w/o Connector), Light/Surge Voltage Suppressor: w/o Light/Surge Voltage Suppressor, Manual Override: Non-locking Push Type, Bracket: B (w/Bracket)
Series: 7 (VP700), Pressure Specification: K (High-pressure Type, 1.0 MPa), Voltage: 5 (24 VDC), Electrical Entry: DO (DIN Terminal w/o Connector), Light/Surge Voltage Suppressor: w/o Light/Surge Voltage Suppressor, Manual Override: Non-locking Push Type, Bracket: B (w/Bracket), Flow Direction: R (Right to Left)
When installing piping or a fitting into a port, ensure that sealant material and cutting chips of threads do not enter piping. When using sealant tape, leave the first 2 threads exposed at the end of piping/fitting. T ightening torque Undertightening causes liquid or air leakage w hile overtightening causes breakage of threads and other parts.
When installing piping or a fitting into a port, ensure that sealant material and cutting chips of threads do not enter piping. When using sealant tape, leave the first 2 threads exposed at the end of piping /fitting. T ightening torque Undertightening causes liquid or air leakage w hile overtightening causes breakage of threads and other parts.
When installing piping or a fitting into a port, ensure that sealant material and cutting chips of threads do not enter piping. When using sealant tape, leave the first 2 threads exposed at the end of piping/fitting. T ightening torque Undertightening causes liquid or air leakage w hile overtightening causes breakage of threads and other parts.
When installing piping or a fitting into a port, ensure that sealant material and cutting chips of threads do not enter piping. When using sealant tape, leave the first 2 threads exposed at the end of piping /fitting. T ightening torque Undertightening causes liquid or air leakage w hile overtightening causes breakage of threads and other parts.
Do not use to tighten the case. * When using the filter, the supply pressure should be 0.69 MPa (100 psi) or lower. Please replace the element when the pressure drop of this product reaches 0.15MPa. For replacement of the element, confirm the pressure inside the filter is zero, and refer to mounting procedure 3) and 4). 2.
Do not disassemble the product. , as this could allow contact with any residual chemicals. 1) The product does not operate when power is applied. The product creates suction, but does not dispense. There is no suction. Countermeasures Warning 2) Pump operates, but does not dispense. Operating frequency is too high. The frequency should be set at or below the maximum operating frequency.
Do not service or attempt to remove product and machinery/equipment until safety is confirmed. 1.The inspection and maintenance of machinery/equipment should only be performed after measures to prevent falling or runaway of the driven objects have been confirmed. 2.When the product is to be removed, confirm that the safety measures as mentioned above are implemented and the power from any