|
| Brand Name: | Rexroth |
| Model Number: | Z4WE6E63-3X/EG24N9K4QMAG24 (R900933643) |
| MOQ: | 1 |
| Price: | $418 |
| Payment Terms: | T/T, T/T |
The Bosch Rexroth Z4WE6E63-3X/EG24N9K4QMAG24 (R900933643) is a high-performance, direct-controlled directional slide valve with solenoid actuation designed for efficient control in hydraulic systems. This sandwich plate valve can be utilized as a stop valve or a straight-through short-circuit valve, offering versatility in its application. It features a porting pattern that adheres to DIN form A standards without a locating hole, as well as an ISO pattern with a locating hole, ensuring compatibility with various system designs. Constructed for durability and reliability, the Z4WE6E63-3X/EG24N9K4QMAG24 boasts wet-pin AC or DC solenoids that ensure smooth operation under different power supply scenarios. The option for manual override adds an extra layer of operational security and convenience, allowing users to control the valve manually in cases where automated control is not feasible. This model is part of the component series X from Bosch Rexroth and is capable of handling maximum operating pressures up to bar levels and allows for maximum flow rates measured in liters per minute. The precision engineering and robust design of this valve make it suitable for demanding applications where precise fluid control is essential. Its compact size also ensures that it integrates well into space-constrained environments without sacrificing performance. With its advanced capabilities and adaptable features, the Bosch Rexroth Z4WE6E63-3X/EG24N9K4QMAG24 (R900933643) stands out as a sophisticated solution for directional control in hydraulic circuits.
Direct-controlled directional slide valve with solenoid actuation Sandwich plate valve As stop straight-through valve or stop straight-through short circuit valve Porting pattern according to DIN 24340 form A (without locating hole), (standard) Porting pattern according to ISO 4401-03-02-0-05 (with locating hole) Wet-pin AC or DC solenoids Manual override, optional
| Size | 6 | ||
| Weight | Valve with one solenoid | kg | 1.2 |
| Valve with two solenoids | kg | 1.6 | |
| Installation position | any | ||
| Ambient temperature ranges (NBR seals) | °C | -30 … +50 | |
| Ambient temperature ranges (FKM seals) | °C | -20 … +70 | |
| MTTFD values according to EN ISO 13849 1) | Years | 150 | |
| Admissible shock and vibration loads | see data sheet 08012 | ||
| 1) | For further details, see data sheet 08012 |
| Size | 6 | |||
| Maximum operating pressure | Port P | bar | 315 | |
| Anschluss A | bar | 315 | ||
| Port B | bar | 315 | ||
| Port T | with DC solenoid | bar | 210 | |
| with AC solenoid | bar | 160 | ||
| Maximum flow | l/min | 50 | ||
| Hydraulic fluid | see table | |||
| Hydraulic fluid temperature range (NBR seals) | °C | -30 … +80 | ||
| Hydraulic fluid temperature range (FKM seals) | °C | -20 … +80 | ||
| Viscosity range | mm²/s | 2.8 … 500 | ||
| Maximum admissible degree of contamination of the hydraulic fluid 1) | Class 20/18/15 according to ISO 4406 (c) | |||
| 1) | The cleanliness classes specified for the components must be adhered to in hydraulic systems. Effective filtration prevents faults and simultaneously increases the life cycle of the components. For the selection of the filters, see www.boschrexroth.com/filter. |
| Voltage type | Direct voltage | AC voltage 50/60 Hz | ||
| Available voltages 1) | V | 12 / 24 / 96 / 205 | 110 / 230 | |
| Voltage tolerance | Nominal voltage | % | ± 10 | ± 10 |
| Power consumption | W | 30 | - | |
| Holding power | VA | - | 50 | |
| Switch-on power | VA | - | 220 | |
| Duty cycle | % | 100 | 100 | |
| Switching time according to ISO 6403 2) | On | ms | 20 … 45 | 10 … 20 |
| Off | ms | 10 … 25 | 15 … 40 | |
| Maximum switching frequency | 1/h | 15000 | 7200 | |
| Maximum coil temperature 3) | °C | 150 | 180 | |
| Protection class according to DIN EN 60529 | IP65 (with mating connector mounted and locked) | |||
| 1) | Special voltages available upon request |
| 2) | The switching times were determined at a hydraulic fluid temperature of 40 °C and a viscosity of 46 mm2/s. Deviating hydraulic fluid temperatures can result in different switching times. Switching times change dependent on operating time and application conditions. |
| 3) | Due to the surface temperatures of the solenoid coils, the standards ISO 13732-1 and EN 982 need to be adhered to!The specified surface temperature in AC solenoids is valid for fault-free operation. In the error case (e. g. blocking of the control spool), the surface temperature may increase above 180 °C [356 °F]. Thus, the system must be checked for possible dangers considering the flash point (see table Hydraulic fluids).As fuse protection, circuit breakers (see table Circuit breakers) must be used, unless the creation of an ignitable atmosphere can be excluded in a different way. Thus, the surface temperature can – in the error case – be limited to maximally 220 °C [428 °F].Within a time interval of 0.6 s, the tripping current must be 8 to 10 times the nominal power supply (tripping characteristics “K”).The required non-tripping current of the fuse must not fall below the value I1 (see table Circuit breakers with tripping characteristics “K”). The maximum tripping current of the fuse must not exceed the value I2 (see table Circuit breakers with tripping characteristics “K”).The temperature dependence of the tripping behavior of the circuit breakers has to be observed according to the manufacturer's specifications. |
| Valve nominal voltage | Nominal power supply | Recommended fuse rated current | |
| 50 Hz | 60 Hz | ||
| 24 | 2 | 1,5 | 3 |
|
42
|
1,26 | 0,98 | 2 |
| 48 | 1 | 0,95 | 1,6 |
| 100 | 0,56 | 0,5 | 1 |
| 110 | 0,52 | 0,45 | 0,75 |
|
115
|
0,45 | 0,37 | 0,75 |
| 127 | 0,42 | 0,32 | 0,75 |
| 200 | 0,29 | 0,26 | 0,5 |
| 220 |
0,27
|
0,23 | 0,5 |
| 230 | 0,23 | 0,17 | 0,5 |
| 240 | 0,23 | 0,19 | 0,5 |
When establishing the electrical connection, the protective earthing conductor (PE ⊥) must be connected correctly.
The electric connection is realized via a 4-pole mating connector (separate order) with connection thread M12 x 1.
| Connection voltage (DC voltage) | V | 24 | ||
| Voltage tolerance (connection voltage) | +30 %/-15 % | |||
| Admissible residual ripple | % | ≤ 10 | ||
| Max. load capacity | mA | 400 | ||
|
Switching outputs |
PNP transistor outputs, load between switching outputs and GND | |||
|
Pinout  |
1 | V | 24 | |
| 2, 4 | Switching output | mA | 400 | |
| 3 | Earthing (GND) | V | 0 | |
For applications outside these parameters, please consult us!
| Ordering code | Mains |
| W110 | 110 V, 50 Hz |
| 110 V, 60 Hz | |
| 120 V, 60 Hz | |
| W 230 | 230 V, 50 Hz |
| 230 V, 60 Hz |
| Hydraulic fluid | Classification | Suitable sealing materials | Standards | |
| Mineral oils and related hydrocarbons | HL, HLP, HLPD, HVLP, HVLPD | NBR, FKM | DIN 51524 | |
| Environmentally compatible | Insoluble in water | HETG | NBR, FKM | ISO 15380 |
| HEES | FKM | |||
| Soluble in water | HEPG | FKM | ISO 15380 | |
| Containing water | HFC | NBR | ISO 12922 | |
Video
|
|
| Brand Name: | Rexroth |
| Model Number: | Z4WE6E63-3X/EG24N9K4QMAG24 (R900933643) |
| MOQ: | 1 |
| Price: | $418 |
| Payment Terms: | T/T, T/T |
The Bosch Rexroth Z4WE6E63-3X/EG24N9K4QMAG24 (R900933643) is a high-performance, direct-controlled directional slide valve with solenoid actuation designed for efficient control in hydraulic systems. This sandwich plate valve can be utilized as a stop valve or a straight-through short-circuit valve, offering versatility in its application. It features a porting pattern that adheres to DIN form A standards without a locating hole, as well as an ISO pattern with a locating hole, ensuring compatibility with various system designs. Constructed for durability and reliability, the Z4WE6E63-3X/EG24N9K4QMAG24 boasts wet-pin AC or DC solenoids that ensure smooth operation under different power supply scenarios. The option for manual override adds an extra layer of operational security and convenience, allowing users to control the valve manually in cases where automated control is not feasible. This model is part of the component series X from Bosch Rexroth and is capable of handling maximum operating pressures up to bar levels and allows for maximum flow rates measured in liters per minute. The precision engineering and robust design of this valve make it suitable for demanding applications where precise fluid control is essential. Its compact size also ensures that it integrates well into space-constrained environments without sacrificing performance. With its advanced capabilities and adaptable features, the Bosch Rexroth Z4WE6E63-3X/EG24N9K4QMAG24 (R900933643) stands out as a sophisticated solution for directional control in hydraulic circuits.
Direct-controlled directional slide valve with solenoid actuation Sandwich plate valve As stop straight-through valve or stop straight-through short circuit valve Porting pattern according to DIN 24340 form A (without locating hole), (standard) Porting pattern according to ISO 4401-03-02-0-05 (with locating hole) Wet-pin AC or DC solenoids Manual override, optional
| Size | 6 | ||
| Weight | Valve with one solenoid | kg | 1.2 |
| Valve with two solenoids | kg | 1.6 | |
| Installation position | any | ||
| Ambient temperature ranges (NBR seals) | °C | -30 … +50 | |
| Ambient temperature ranges (FKM seals) | °C | -20 … +70 | |
| MTTFD values according to EN ISO 13849 1) | Years | 150 | |
| Admissible shock and vibration loads | see data sheet 08012 | ||
| 1) | For further details, see data sheet 08012 |
| Size | 6 | |||
| Maximum operating pressure | Port P | bar | 315 | |
| Anschluss A | bar | 315 | ||
| Port B | bar | 315 | ||
| Port T | with DC solenoid | bar | 210 | |
| with AC solenoid | bar | 160 | ||
| Maximum flow | l/min | 50 | ||
| Hydraulic fluid | see table | |||
| Hydraulic fluid temperature range (NBR seals) | °C | -30 … +80 | ||
| Hydraulic fluid temperature range (FKM seals) | °C | -20 … +80 | ||
| Viscosity range | mm²/s | 2.8 … 500 | ||
| Maximum admissible degree of contamination of the hydraulic fluid 1) | Class 20/18/15 according to ISO 4406 (c) | |||
| 1) | The cleanliness classes specified for the components must be adhered to in hydraulic systems. Effective filtration prevents faults and simultaneously increases the life cycle of the components. For the selection of the filters, see www.boschrexroth.com/filter. |
| Voltage type | Direct voltage | AC voltage 50/60 Hz | ||
| Available voltages 1) | V | 12 / 24 / 96 / 205 | 110 / 230 | |
| Voltage tolerance | Nominal voltage | % | ± 10 | ± 10 |
| Power consumption | W | 30 | - | |
| Holding power | VA | - | 50 | |
| Switch-on power | VA | - | 220 | |
| Duty cycle | % | 100 | 100 | |
| Switching time according to ISO 6403 2) | On | ms | 20 … 45 | 10 … 20 |
| Off | ms | 10 … 25 | 15 … 40 | |
| Maximum switching frequency | 1/h | 15000 | 7200 | |
| Maximum coil temperature 3) | °C | 150 | 180 | |
| Protection class according to DIN EN 60529 | IP65 (with mating connector mounted and locked) | |||
| 1) | Special voltages available upon request |
| 2) | The switching times were determined at a hydraulic fluid temperature of 40 °C and a viscosity of 46 mm2/s. Deviating hydraulic fluid temperatures can result in different switching times. Switching times change dependent on operating time and application conditions. |
| 3) | Due to the surface temperatures of the solenoid coils, the standards ISO 13732-1 and EN 982 need to be adhered to!The specified surface temperature in AC solenoids is valid for fault-free operation. In the error case (e. g. blocking of the control spool), the surface temperature may increase above 180 °C [356 °F]. Thus, the system must be checked for possible dangers considering the flash point (see table Hydraulic fluids).As fuse protection, circuit breakers (see table Circuit breakers) must be used, unless the creation of an ignitable atmosphere can be excluded in a different way. Thus, the surface temperature can – in the error case – be limited to maximally 220 °C [428 °F].Within a time interval of 0.6 s, the tripping current must be 8 to 10 times the nominal power supply (tripping characteristics “K”).The required non-tripping current of the fuse must not fall below the value I1 (see table Circuit breakers with tripping characteristics “K”). The maximum tripping current of the fuse must not exceed the value I2 (see table Circuit breakers with tripping characteristics “K”).The temperature dependence of the tripping behavior of the circuit breakers has to be observed according to the manufacturer's specifications. |
| Valve nominal voltage | Nominal power supply | Recommended fuse rated current | |
| 50 Hz | 60 Hz | ||
| 24 | 2 | 1,5 | 3 |
|
42
|
1,26 | 0,98 | 2 |
| 48 | 1 | 0,95 | 1,6 |
| 100 | 0,56 | 0,5 | 1 |
| 110 | 0,52 | 0,45 | 0,75 |
|
115
|
0,45 | 0,37 | 0,75 |
| 127 | 0,42 | 0,32 | 0,75 |
| 200 | 0,29 | 0,26 | 0,5 |
| 220 |
0,27
|
0,23 | 0,5 |
| 230 | 0,23 | 0,17 | 0,5 |
| 240 | 0,23 | 0,19 | 0,5 |
When establishing the electrical connection, the protective earthing conductor (PE ⊥) must be connected correctly.
The electric connection is realized via a 4-pole mating connector (separate order) with connection thread M12 x 1.
| Connection voltage (DC voltage) | V | 24 | ||
| Voltage tolerance (connection voltage) | +30 %/-15 % | |||
| Admissible residual ripple | % | ≤ 10 | ||
| Max. load capacity | mA | 400 | ||
|
Switching outputs |
PNP transistor outputs, load between switching outputs and GND | |||
|
Pinout |
1 | V | 24 | |
| 2, 4 | Switching output | mA | 400 | |
| 3 | Earthing (GND) | V | 0 | |
For applications outside these parameters, please consult us!
| Ordering code | Mains |
| W110 | 110 V, 50 Hz |
| 110 V, 60 Hz | |
| 120 V, 60 Hz | |
| W 230 | 230 V, 50 Hz |
| 230 V, 60 Hz |
| Hydraulic fluid | Classification | Suitable sealing materials | Standards | |
| Mineral oils and related hydrocarbons | HL, HLP, HLPD, HVLP, HVLPD | NBR, FKM | DIN 51524 | |
| Environmentally compatible | Insoluble in water | HETG | NBR, FKM | ISO 15380 |
| HEES | FKM | |||
| Soluble in water | HEPG | FKM | ISO 15380 | |
| Containing water | HFC | NBR | ISO 12922 | |
Video
