Rexroth solenoid valve 4WE6J6X/BG24NXDZ2/B10V in stock.

Brand

REXROTH/Germany Rexroth

Flow Direction

Other

3C Valve Category

Industry

Application Areas

Chemical, Petroleum, Mining, Road/Rail/Shipbuilding, Comprehensive

A Rexroth solenoid ball valve has a sealed chamber with through-holes at different positions, each connecting to a different oil pipe. Inside the chamber is a piston, flanked by two electromagnets. When the coil of one electromagnet is energized, the valve body is attracted to that side. Controlling the movement of the valve body opens or closes different drain holes. The inlet hole is always open, allowing hydraulic oil to enter different drain pipes. The oil pressure then pushes the piston in the cylinder, which in turn moves the piston rod, which in turn drives the mechanical device. Thus, controlling the current to the electromagnets controls the mechanical movement.

Rexroth Solenoid Ball Valve Selection Criteria

The selection of a Rexroth solenoid ball valve should first follow four principles in order: safety, reliability, applicability, and economy. Secondly, it should be based on six aspects of the on-site operating conditions (i.e., pipeline parameters, fluid parameters, pressure parameters, electrical parameters, operating method, and special requirements). Rexroth Solenoid Ball Valve Selection Criteria:

1. Selecting the solenoid valve based on pipeline parameters: Nominal diameter (DN), connection type

1) Determine the nominal diameter (DN) based on the inner diameter of the pipeline or flow requirements.

2) For connection type, generally, flange connections should be selected for DN > 50, while for DN ≤ 50, the choice can be made freely according to user needs.

2. Selecting the solenoid valve based on fluid parameters: Material, temperature group

1) Corrosive fluids: Corrosion-resistant solenoid valves and all-stainless steel are recommended; Ultra-clean edible fluids: Food-grade stainless steel solenoid valves are recommended.

2) High-temperature fluids: Solenoid valves made with high-temperature resistant electrical and sealing materials should be selected, and piston-type valves should be chosen.

3) Fluid state: Fluids can be gaseous, liquid, or mixed, especially for diameters greater than DN 25, which must be clearly distinguished.

4) Fluid viscosity: Generally, any choice is acceptable below 50 cSt; if it exceeds this value, a high-viscosity solenoid valve should be selected. 3. Selecting Solenoid Valves Based on Pressure Parameters: Principle and Structure

1) Nominal Pressure: This parameter has the same meaning as other general-purpose valves, determined by the nominal pressure of the pipeline.

2) Working Pressure: If the working pressure is low, a direct-acting or step-direct-acting principle must be selected. For a minimum working pressure difference of 0.04 MPa, direct-acting, step-direct-acting, and pilot-operated valves can all be selected.

4. Electrical Selection: AC220V and DC24V voltage specifications should be prioritized for convenience.

5. Selecting Based on Continuous Working Time: Normally Closed, Normally Open, or Continuously Energized

1) When the solenoid valve needs to be open for a long time, and the continuous time is longer than the closing time, a normally open type should be selected.

2) If the opening time is short or the opening and closing times are infrequent, a normally closed type should be selected.

3) However, for some safety protection applications, such as furnace and kiln flame monitoring, normally open valves cannot be selected; a continuously energized type should be chosen. 6. Select auxiliary functions according to environmental requirements: explosion-proof, check valve, manual operation, waterproof mist, water spray, and submersible.

Rexroth Solenoid Ball Valve Selection Principles

Safety:

1. Corrosive media: Plastic-coated solenoid valves and all-stainless steel valves are recommended; for highly corrosive media, diaphragm type valves must be selected. For neutral media, solenoid valves with copper alloy valve bodies are also recommended; otherwise, rust particles will often fall from the valve body, especially in infrequent operation. Copper materials cannot be used for ammonia valves.

2. Explosive environments: Products with the corresponding explosion-proof rating must be selected. For outdoor installations or dusty environments, waterproof and dustproof models should be selected.

3. The nominal pressure of the Rexroth solenoid ball valve should exceed the maximum working pressure in the pipeline.

Applicability:

1. Media Characteristics

1) Different types of solenoid valves should be selected for gaseous, liquid, or mixed states.

2) Different specifications of products should be used for different media temperatures; otherwise, the coil will burn out, the seals will age, and the lifespan will be severely affected.

3) Media viscosity is generally below 50 cSt. If it exceeds this value, a multi-functional solenoid valve should be used when the nominal diameter is greater than 15 mm; a high-viscosity solenoid valve should be used when the nominal diameter is less than 15 mm.

4) When the media cleanliness is not high, a backflush filter valve should be installed before the solenoid valve. For low pressure, a direct-acting diaphragm solenoid valve can be selected.

5) If the media flows in a directional manner and backflow is not allowed, a bidirectional flow valve is required.

6) The media temperature should be selected within the allowable range of the solenoid valve. 2. Piping Parameters

1) Select the valve port and model according to the medium flow direction requirements and pipeline connection method;

2) Select the nominal diameter according to the flow rate and valve Kv value, or select the same as the pipeline inner diameter;

3) Working pressure difference: For a minimum working pressure difference above 0.04 MPa, an indirect pilot-operated valve can be selected; for a minimum working pressure difference close to or less than zero, a direct-acting or step-by-step direct-acting valve must be selected.

3. Environmental Conditions

1) The maximum and minimum ambient temperatures should be within the allowable range;

2) In environments with high relative humidity or water droplets/rain, a waterproof solenoid valve should be selected;

3) In environments with frequent vibration, bumps, and impacts, a special type should be selected, such as a marine solenoid valve;

4) In corrosive or explosive environments, corrosion-resistant types should be selected based on safety requirements;

5) If space is limited, a multi-functional solenoid valve should be selected, as it eliminates the need for a bypass and three manual valves and facilitates online maintenance. 4. Power Supply Requirements

1) Select AC or DC solenoid valves according to the type of power supply. Generally, AC power is more readily available.

2) Prioritize AC220V or DC24V voltage specifications.

3) Power supply voltage fluctuations are typically +10% to -15% for AC and ±10% for DC. If these fluctuations exceed the tolerance, voltage stabilization measures must be taken.

4) Select the rated current and power consumption according to the power supply capacity. Note that AC has a higher VA value during startup; if the capacity is insufficient, indirect-acting solenoid valves should be preferred.

5. Control Accuracy

1) Ordinary solenoid valves only have open and closed positions. For high control accuracy and stable parameters, multi-position solenoid valves should be selected.

2) Activation Time: The time from the electrical signal being connected or disconnected to the main valve completing its action.

3) Leakage: The leakage values ​​given in the sample are for commonly used economic levels. R910974769? A4VSO250DR/30R-PPB13N00

R910976965? A4VSO250DRG/30R-PPB13N00

R902405522 AEA4VSO355DR/30R-PPB13N00

R902408078 A4VSO355DRG/30R-PPB13N00

R902420976 A4VSO500DR/30R-PPH25N00

A4VSO500DRG/30R-PPB13N00

R910990406 A10VSO10DR/52R-PPA14N00

R910942503 A10VSO18DR/31R-PPA12N00 R910910590 A10VSO18DFR1/31R-PPA12N00

R910903163 A10VSO28DR/31R-PPA12N00

R910910590 A10VSO28DFR1/31R-PPA12N00

R910907403 A10VSO45DR/31R-PPA12N00

R910911960 AEA10VSO45DR/31R-PPA12N00

R910908725 A10VSO45DFR1/31R-PPA12N00

R910905403 A10VSO45DFR1/31R-PPA12N00-SO32

R902452707 A10VSO45DFR1/32R-VPB12N00-S2655

R902428405 A10VSO45DFR1/31R-PPA12N00-S1648

R902427886 A10VSO45DFR1/31R-PPA12N00-S1439

R910967365 A10VSO45DFR1/31R-VPA12N00

R910939183 A10VSO45DFR/31R-PPA12N00

R910945133 A10VSO71DR/31R-PPA12N00

R910944440 A10VSO71DFR1/31R-PPA12N00 A10VSO71DFR/31R-PPA12N00

R910948790 A10VSO71DFLR/31R-PPA12N00

A10VSO100DR/31R-PPA12N00

R910922744 A10VSO100DFR1/31R-PPA12N00

A10VSO100DFLR/31R-PPA12N00

A10VSO140DR/31R-PPB12N00

R910921546 A10VSO140DFR1/31R-PPB12N00

A10VSO140DFLR/31R-PPB12N00

A10VSO45DFR1/32R-PPB12N00 A10VSO71DFR1/31R-VPA12N00

R901036125 4WE6J6X/BG24NXDZ2/B10V

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