Hybrid Direct Operated Directional Control Valve - Series D3DWR | Product Series

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Hybrid Direct Operated Directional Control Valve - Series D3DWR Hybrid Direct Operated Directional Control Valve - Series D3DWR Hybrid Direct Operated Directional Control Valve - Series D3DWR Hybrid Direct Operated Directional Control Valve - Series D3DWR

Hybrid Direct Operated Directional Control Valve - Series D3DWR

Puntos de venta

The regenerative and hybrid direct operated directional control valves series D3DWR in NG10 allow energy saving circuits with differential cylinders.

Especificaciones técnicas

  • Serie del producto: Directional control valve
  • Tipo de operación: Direct
  • Tipo de accionamiento: Solenoid
  • Tipo de montaje: Subplate mounting
  • Posición de montaje: Unrestricted, preferably horizontal
  • Función: 3-way
  • Conexión del puerto: NG10 / CETOP 05
  • Presión de trabajo máxima: P, A B: 350; T: 210; option 9: P, A, B, T: 350; X, Y: 210 bar
  • Índice de caudal máximo: 150 L/min
  • Temperatura máxima de funcionamiento: 60 °C
  • Temperatura mínima de funcionamiento: -25 °C
  • Voltaje de entrada: 24 VDC
  • Tipo de conexión: Connector as per EN 175301-803
  • Material de la junta: FPM, NBR
  • Para tipo de fluido: Hydraulic oil
  • Peso: 6.3 kg
  • Material del cuerpo: Cast iron

Descripción completa del producto

Representing an innovative approach to increase the efficiency of hydraulic systems, Parker's regenerative and hybrid direct operated directional control valves series D3DWR make energy savings with valve-controlled linear cylinder actuators easier than ever before. The  integrated regenerative function in the A-line enables efficient circuits with differential cylinders. The hybrid version allows additionally to switch freely at any time for maximum energy savings without restricting the operating range.

Markets:
• Industrial

Features/Benefits:
• Proven robust design that represents our long-term experience in hydraulics
• High functional limits – low forces resulting in safe operation also at high flow rates
• Low pressure drop – resulting in low energy losses in operation
• Innovative A-regeneration - provides increased energy efficiency by  reducing the oil requirement for partially-loaded differential cylinders
• Switchable hybrid version - can switch between regenerative mode (for high velocity) and standard mode (for high force)
• Short delivery time - no warehousing necessary

Applications:
• Suitable for general hydraulic applications
• General presses

Info regenerative and hybrid function:
In applications with differential cylinders it is common to feed the return flow from the rod side of the cylinder back to the piston side to achieve higher velocity or lower pump flow. Parker differentiates between regeneration to the pressure level of the pump (P-regeneration) or directly to the piston area respectively the A-port of the valve (A-regeneration). The Parker regenerative valves use the advantageous A-regeneration.

The hybrid version with an integrated solenoid valve can switch between regenerative mode and standard mode. The regenerative mode is used for maximum velocity, the standard mode for maximum force.

Note:
Series D3DWR has to be used in combination with adaptor plate. For regenerative- and hybrid function please see adaptor plates series A10 and sandwich plates series H10.

Documentos relacionados

Literature and Reference Materials
CATALOGUE - Hydraulic Valves Industrial Standard, Offline Version--MSG11-3500/UK
CATALOGUE - Hydraulic Valves Industrial Standard, Online Version--MSG11-3500/UK
CATALOGUE - Regenerative and Hybrid Pilot Operated Directional Control Valves Series D31NWR, D*1VWR, D*1VWZ
GENERAL INSTRUCTIONS - for Industrial Hydraulic Valves
Compliance, Certifications & Safety
CERTIFICATE - DIN ISO 9001:2015 Certificate ISDE
CERTIFICATE - Position Paper ISDE 2006/42/EC and EN ISO 13849
Product Demos & Tutorials
PRODUCT VIDEO - Directional Control Valves Basics
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Productos Código del carrete Posición del carrete Opción de drenaje Material de la junta Opción del solenoide
D3DWR01C9NJW R01 3 positions, spring offset in position 0, operated in position a or b X and Y for high pressure in T1 (tank) or T2 (regenerative function) NBR Without manual override
D3DWR04C9NJW R04 3 positions, spring offset in position 0, operated in position a or b X and Y for high pressure in T1 (tank) or T2 (regenerative function) NBR Without manual override
D3DWR81C9NJW R81 3 positions, spring offset in position 0, operated in position a or b X and Y for high pressure in T1 (tank) or T2 (regenerative function) NBR Without manual override
D3DWR82C9NJW R82 3 positions, spring offset in position 0, operated in position a or b X and Y for high pressure in T1 (tank) or T2 (regenerative function) NBR Without manual override
D3DWR01C9VJW R01 3 positions, spring offset in position 0, operated in position a or b X and Y for high pressure in T1 (tank) or T2 (regenerative function) FPM Without manual override
D3DWR04C9VJW R04 3 positions, spring offset in position 0, operated in position a or b X and Y for high pressure in T1 (tank) or T2 (regenerative function) FPM Without manual override
D3DWR81C9VJW R81 3 positions, spring offset in position 0, operated in position a or b X and Y for high pressure in T1 (tank) or T2 (regenerative function) FPM Without manual override
D3DWR82C9VJW R82 3 positions, spring offset in position 0, operated in position a or b X and Y for high pressure in T1 (tank) or T2 (regenerative function) FPM Without manual override
D3DWR01C9NJWT R01 3 positions, spring offset in position 0, operated in position a or b X and Y for high pressure in T1 (tank) or T2 (regenerative function) NBR With manual override
D3DWR04C9NJWT R04 3 positions, spring offset in position 0, operated in position a or b X and Y for high pressure in T1 (tank) or T2 (regenerative function) NBR With manual override
D3DWR81C9NJWT R81 3 positions, spring offset in position 0, operated in position a or b X and Y for high pressure in T1 (tank) or T2 (regenerative function) NBR With manual override
D3DWR82C9NJWT R82 3 positions, spring offset in position 0, operated in position a or b X and Y for high pressure in T1 (tank) or T2 (regenerative function) NBR With manual override
D3DWR01C9VJWT R01 3 positions, spring offset in position 0, operated in position a or b X and Y for high pressure in T1 (tank) or T2 (regenerative function) FPM With manual override
D3DWR04C9VJWT R04 3 positions, spring offset in position 0, operated in position a or b X and Y for high pressure in T1 (tank) or T2 (regenerative function) FPM With manual override
D3DWR81C9VJWT R81 3 positions, spring offset in position 0, operated in position a or b X and Y for high pressure in T1 (tank) or T2 (regenerative function) FPM With manual override
D3DWR82C9VJWT R82 3 positions, spring offset in position 0, operated in position a or b X and Y for high pressure in T1 (tank) or T2 (regenerative function) FPM With manual override
D3DWR01CNJW R01 3 positions, spring offset in position 0, operated in position a or b Standard NBR Without manual override
D3DWR04CNJW R04 3 positions, spring offset in position 0, operated in position a or b Standard NBR Without manual override
D3DWR81CNJW R81 3 positions, spring offset in position 0, operated in position a or b Standard NBR Without manual override
D3DWR82CNJW R82 3 positions, spring offset in position 0, operated in position a or b Standard NBR Without manual override
D3DWR01CVJW R01 3 positions, spring offset in position 0, operated in position a or b Standard FPM Without manual override
D3DWR04CVJW R04 3 positions, spring offset in position 0, operated in position a or b Standard FPM Without manual override
D3DWR81CVJW R81 3 positions, spring offset in position 0, operated in position a or b Standard FPM Without manual override
D3DWR82CVJW R82 3 positions, spring offset in position 0, operated in position a or b Standard FPM Without manual override
D3DWR01CNJWT R01 3 positions, spring offset in position 0, operated in position a or b Standard NBR With manual override
D3DWR04CNJWT R04 3 positions, spring offset in position 0, operated in position a or b Standard NBR With manual override
D3DWR81CNJWT R81 3 positions, spring offset in position 0, operated in position a or b Standard NBR With manual override
D3DWR82CNJWT R82 3 positions, spring offset in position 0, operated in position a or b Standard NBR With manual override
D3DWR01CVJWT R01 3 positions, spring offset in position 0, operated in position a or b Standard FPM With manual override
D3DWR04CVJWT R04 3 positions, spring offset in position 0, operated in position a or b Standard FPM With manual override
D3DWR81CVJWT R81 3 positions, spring offset in position 0, operated in position a or b Standard FPM With manual override
D3DWR82CVJWT R82 3 positions, spring offset in position 0, operated in position a or b Standard FPM With manual override
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