KWE5K-20/G24D07-T
KWE5K-20/G24D07-T
OE-Equivalent Replacement Quality
IATF 16949 / ISO 9001 / CE / RoHS
50 pcs
7 - 15 Days
12 Months
KWE5K-20/G24D07-T
Kato HD820 excavator hydraulic pump control using the complete KWE5K-20/G24D07-T model
Confirm 24v, connector, threaded cartridge with lead connector, seals and hydraulic circuit before installation.
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KWE5K-20/G24D07-T is a hydraulic pump directional solenoid valve for Kato HD820 excavator hydraulic pump control using the complete KWE5K-20/G24D07-T model. Buyers should confirm the full reference, 24v, lead connector, threaded cartridge with lead connector before approving replacement stock.
Specification | Confirmed Information |
|---|---|
Product Type | Hydraulic Pump Directional Solenoid Valve |
Primary Reference | KWE5K-20/G24D07-T |
Cross References | KWE5K-20/G24D07-T |
Electrical Version | 24V |
Working Pressure Reference | 240 bar catalog reference |
Interface | Threaded cartridge with lead connector |
Application Scope | Kato HD820 excavator hydraulic pump control using the complete KWE5K-20/G24D07-T model |
MOQ | 50 pcs |
Delivery Time | 7 to 15 Days |
Warranty | 12 Months |
Use the original catalog dimensional reference and hydraulic symbol to compare the valve with the removed component and machine schematic before purchase approval.
Complete every control point below before a sample or bulk order is released.
Approval Point | Buyer Review |
|---|---|
Reference | KWE5K-20/G24D07-T |
Electrical | 24V; verify at the loaded connector |
Mechanical | Compare threaded cartridge with lead connector, sealing positions and installed clearance |
Hydraulic | Confirm normal state, energized state and port relationship |
Machine Evidence | Kato HD820 excavator hydraulic pump control using the complete KWE5K-20/G24D07-T model |
Separate electrical command, component movement and final machine response so the actual wiring or hydraulic fault is not hidden by parts replacement.
Observed Condition | Recommended Check |
|---|---|
No movement | Check loaded connector voltage, ground, controller command and coil resistance. |
Slow response | Inspect oil cleanliness, filter condition, viscosity and valve movement. |
Reversed response | Stop operation and compare normal and energized port logic. |
External leakage | Inspect seals, valve surface, bore condition and seating depth. |
Repeated heating | Confirm voltage, duty cycle, connector resistance and full movement. |
When a technician checks current draw under load, keep the verified measurements and test result in the service record. Use the complete old marking, 24v electrical version, connector face, threaded cartridge with lead connector, sealing positions and the machine hydraulic schematic. A reference alone cannot prove that the normal and energized flow paths match. Record the machine model, serial number and removed-valve photographs with the approved sample so repeat orders follow the same engineering basis.
When a distributor prepares repeat stock, keep the verified measurements and test result in the service record. Read the voltage marking on the removed coil and measure supply at the loaded connector while the controller commands the valve. Do not infer voltage only from battery count because converters, harness changes and mixed fleets can produce another coil supply. Keep the confirmed value on the inquiry, purchase order, carton label and incoming inspection record.
When a warranty claim is reviewed, keep the verified measurements and test result in the service record. Treat 240 bar catalog reference as a component reference that must remain within the actual circuit requirement, not as permission to ignore the machine service data. Confirm which ports see pressure in both switching states, review return pressure and verify the cavity or flange. Pressure capability cannot correct a wrong spool function, cartridge depth or manifold relationship.
When a technician checks current draw under load, keep the verified measurements and test result in the service record. Compare overall length, thread or flange position, sealing diameters and connector clearance with the removed component. Read the spring side of the hydraulic symbol as the normal state and the solenoid side as the energized state. Reconcile catalog port letters with the equipment schematic before commissioning because labels can differ between valve and machine drawings.
When a serial-controlled overhaul is planned, keep the verified measurements and test result in the service record. Check the complete reference and voltage against the purchase order, then sample connector keying, overall length, mounting interface, seal count and coil resistance. Keep voltage and suffix variants physically separated. For the first lot, compare one unit with the approved old component before releasing the remaining quantity to warehouse stock or field service.
When a valve body was replaced during an earlier repair, keep the verified measurements and test result in the service record. Compare the connector face, key position, pin count, latch direction and cable exit with the removed component. Also determine whether suppression is built into the coil because it can affect controller diagnostics. Photograph the connector straight on beside a ruler and include terminal condition in the RFQ when several harness revisions exist in the fleet.
When a controller output fault is suspected, keep the verified measurements and test result in the service record. Keep hydraulic ports capped, seals protected and connector faces free from moisture or impact. Separate 24v and suffix variants with readable carton labels so warehouse picking cannot mix them. Store components in a clean dry area away from welding dust and corrosive chemicals, and retain lot traceability to the approved sample.
Send the complete old marking or component evidence, confirmed voltage, machine information, clear photos, measurements and required quantity for a fitment-focused B2B quotation.