OE-Equivalent Replacement Quality
IATF 16949 / ISO 9001 / CE / RoHS
50 pcs
7 - 15 Days
12 Months
Hydraulic systems requiring a tall 24V Deutsch coil with the matching bore, shell and connector position
Confirm 24v, not stated, deutsch connector, coil bore and retaining method before installation.
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24V Hydraulic Solenoid Valve Coil is a hydraulic solenoid valve coil for Hydraulic systems requiring a tall 24V Deutsch coil with the matching bore, shell and connector position. Buyers should confirm old-coil evidence, 24v, deutsch connector, coil bore and body construction before approving replacement stock.
Specification | Confirmed Information |
|---|---|
Product Type | Hydraulic Solenoid Valve Coil |
Primary Reference | Construction-specific replacement |
Cross References | No verified public OE number assigned |
Voltage | 24V |
Power | Not stated |
Connector | Deutsch connector |
Insulation Class | F/H |
Application Scope | Hydraulic systems requiring a tall 24V Deutsch coil with the matching bore, shell and connector position |
MOQ | 50 pcs |
Delivery Time | 7 to 15 Days |
Warranty | 12 Months |
Complete every control point below before a sample or bulk order is released.
Approval Point | Buyer Review |
|---|---|
Reference | Use complete old-coil evidence |
Electrical | 24V; Not stated; verify under load |
Connector | Deutsch connector |
Mechanical | Compare bore, height, body shape and retaining method |
Machine Evidence | Hydraulic systems requiring a tall 24V Deutsch coil with the matching bore, shell and connector position |
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 magnetic pull | Check loaded voltage, ground, continuity and coil resistance. |
Intermittent operation | Inspect terminal retention, lead damage and heat-related winding faults. |
Excessive heating | Confirm voltage, wattage, duty cycle and free valve-stem movement. |
Connector damage | Inspect keying, seals, corrosion and harness side loading. |
Correct coil, no hydraulic response | Inspect the armature, spool, oil cleanliness and machine command. |
When a sample moves into volume production, keep the verified measurements and test result in the service record. Approve the complete old marking, 24v rating, not stated power reference, deutsch connector, coil bore, body height and retaining method. A matching voltage alone does not prove fit. Send straight-on connector, top-bore and side-profile photographs with measurements so the replacement is selected from electrical and mechanical evidence.
When a hydraulic schematic uses different port labels, keep the verified measurements and test result in the service record. Measure voltage directly across the energized coil while the machine issues the real hydraulic command. An unloaded harness reading can hide resistance at a corroded terminal, relay or ground path. Compare the loaded result with 24v, record polarity where suppression is present and correct the circuit before blaming a new coil for weak magnetic pull.
When an incoming production lot is released, keep the verified measurements and test result in the service record. Compare pin count, key position, latch direction, cable exit, terminal size and seal arrangement. Similar coil bodies may use a Deutsch, Weatherpack, insert or lead-wire connection that is not electrically or mechanically interchangeable. Photograph the connector face beside a ruler and note any diode or polarity marking before purchasing or adapting the harness.
When an emergency field repair is reviewed, keep the verified measurements and test result in the service record. No. The coil produces magnetic force but the armature and hydraulic element must move freely. Inspect the stem for corrosion, contamination, impact damage and correct retaining hardware. If the valve remains stuck, a new coil may heat or appear weak even when its electrical condition is normal, leading to repeated unnecessary replacement.
When an installer measures unexpected voltage drop, keep the verified measurements and test result in the service record. Examine the cable exit for cracking, strain, oil ingress and conductor damage near the coil body. Flex the harness gently while monitoring continuity, then inspect the remote connector and terminal seals. Do not pull on the leads during installation, and secure the harness so vibration or sharp edges cannot reproduce an intermittent fault.
When an incoming production lot is released, keep the verified measurements and test result in the service record. Use the full suffix, voltage, wattage, connector, bore, body shape and harness layout as separate controls. A shared base number may cover several constructions or electrical options. Keep a photograph and measured drawing of each approved version, and never combine inventory until the old unit and sample match on every controlled feature.
When a controller output fault is suspected, keep the verified measurements and test result in the service record. Record the returned label, machine information, supply voltage under command, coil resistance, current draw, connector condition, operating temperature and valve-stem movement. Photograph heat damage or oil ingress before disassembly. This evidence separates manufacturing defects from overvoltage, harness resistance, incorrect duty cycle or a stuck hydraulic element and supports a useful corrective action.
Send the complete old marking or component evidence, confirmed voltage, machine information, clear photos, measurements and required quantity for a fitment-focused B2B quotation.