FORD 1708254 MOTOR PUMP ASSY
Product Specifications
| FORD | 1708254 |
| FORD | 1791580 |
| FORD | CV6Z17664A |
| FORD | BV6117K624AA |
The Ford 1708254 is the Windscreen Washer Pump (single-outlet "Mono Pump" version) fitted to the Ford Focus Mk3 and the Ford Transit / Transit Courier / Transit Custom light commercial vehicle range built from 2010 onwards. The pump is a submersible 12V DC permanent-magnet motor with integrated centrifugal impeller, mounted directly into the washer fluid reservoir via a rubber grommet seal. Activation from the wiper stalk delivers pressurised washer fluid through a single outlet barb to the windscreen jet nozzles. The "1708254" reference is the current Ford EU primary part number; multiple Ford catalogue formats (CV6Z17664A US notation, BV6117K624AA EU long format) reference the same physical pump.
The washer pump performs four integrated functions to deliver pressurised washer fluid on driver command: (1) electric activation — supply circuit from the wiper stalk through washer pump relay (controlled by BCM / GEM on modern Ford applications with CAN-bus body electronics) provides 12V to the pump motor when the wash function is requested; (2) submerged motor operation — the pump body is fully submerged in the reservoir's washer fluid, which provides essential cooling and lubrication for the DC motor windings during operation; (3) centrifugal pumping — the impeller rotated by the motor creates centrifugal pressure in the volute housing, drawing fluid from the reservoir and pressurising it to 1.5-3.0 bar at the outlet; (4) fluid delivery — pressurised fluid exits the pump outlet barb to the supply hose routed under the bonnet to the windscreen jet nozzles.
The pump body seals to the reservoir via a rubber grommet press-fit into the reservoir's outlet port. The grommet provides both a fluid seal preventing leakage from the port AND a vibration isolation mount supporting the pump in the reservoir. The pump motor uses a carbon-brush DC commutator design rated for intermittent duty cycle (typical washer activation 3-10 seconds, multiple times per drive); continuous duty operation (sustained run beyond 30-60 seconds) overheats the motor windings and accelerates wear.
Washer pumps fail predominantly through three mechanisms: (1) motor winding burnout from dry-run operation when reservoir is empty — the washer fluid lubricates and cools the motor; running dry for repeated wash cycles overheats the winding insulation and produces failure within a few minutes of cumulative dry operation; (2) impeller wear from abrasive contamination in the fluid (mineral scale, dirt, ice crystals); (3) grommet hardening / shrinkage allowing air ingress to the pump inlet, reducing output pressure progressively. Pre-emptive prevention: always keep washer reservoir at least 1/4 full and never activate washer with empty reservoir — the single most important factor in washer pump service life.
| International HS Code | 8413.20 |
| EAEU Customs Code (TN VED) | 8413 20 000 0 |
| Country of Manufacture | China |
| Quality standard | IATF 16949 |
| Hazardous goods | No |
| Shipping weight per piece | 0.1 kg (100 grams) |
| Packaging | Individual carton with part label and protective foam; bulk packaging available for wholesale orders |
Hand-operated pumps with measuring devices and other pumps for liquids are classified under HS 8413.20 (hand pumps); automotive washer pumps as electric pumps may also be classified under HS 8413.30 or 8413.50 depending on jurisdiction interpretation. Confirm exact 10-digit subheading and applicable duty rates with your customs broker. Commercial invoice description: automotive windscreen washer pump, 12V DC submersible electric pump, plastic body with rubber grommet, single outlet, for passenger vehicle / light commercial vehicle application.
| Ford model | Years / engine variants |
|---|---|
| Ford Focus Mk3 (DYB) | 2010-2018, hatchback / sedan / estate; 1.0 EcoBoost, 1.6 petrol, 1.6 Ti-VCT, 1.6 EcoBoost, 2.0 Duratec, 2.0 EcoBoost, 1.5 TDCi, 1.6 TDCi, 2.0 TDCi diesel |
| Ford C-MAX Mk2 (DXA) | 2010-2019 MPV, shares Focus Mk3 platform — verify by OEM number on existing pump (some applications use 1708254) |
| Ford Transit (V363) | 2013-present 2-tonne full-size van, 2.0 EcoBlue / 2.2 TDCi diesel variants |
| Ford Transit Courier (TF1) | 2014-present small van, 1.0 EcoBoost / 1.5 TDCi diesel |
| Ford Transit Custom (V362) | 2013-present mid-size van, 2.0 EcoBlue / 2.2 TDCi diesel; verify single-outlet vs dual-outlet pump applicability for specific trim |
| Ford Tourneo (Courier / Custom) | Passenger-vehicle versions of the same Transit Courier / Custom platforms, same pump application |
Does NOT fit: Ford applications with rear washer circuit (dual-outlet pump applications) — Focus Mk3 estate / hatchback variants with rear wiper option use a different dual-outlet pump reference; Ford Focus Mk2 (2004-2011 previous generation) — different pump architecture, different OEM references; Ford Focus Mk4 (2018+ new generation) — new platform with potentially different pump reference, verify by OEM number; Ford Fiesta (any generation) — different platform with different washer pump references; Ford Mondeo / Galaxy / S-Max — CD platform vehicles use different pump references despite Ford-wide pump similarity; Ford USA vehicles outside the Focus Mk3 application — verify by Ford USA catalogue for your specific vehicle model and year; headlamp washer applications — require a separate high-pressure pump (different reference) due to higher pressure requirement for headlamp lens cleaning. Always verify by reading the OEM number stamped on existing pump before ordering; the 1708254 is specific to single-outlet windscreen washer applications on Focus Mk3 / Transit family vehicles.
Difficulty: Easy. Estimated time: 20–45 minutes depending on reservoir access. Drain or remove reservoir before extracting pump — pulling pump with full reservoir spills several litres of washer fluid into engine bay.
- 1Drain washer reservoir or remove reservoir from vehicle (consult Ford service manual for your specific model). Pump is mounted in reservoir's outlet port below fluid level; pulling pump with full reservoir = fluid spill in engine bay.
- 2Disconnect wiring connector at pump — press release tab + pull connector body straight off. Do NOT pull by wires.
- 3Disconnect outlet supply hose from pump barb. Note hose routing for refitting. Cap or contain any residual fluid in hose.
- 4Pull pump body straight out from reservoir with steady rocking motion to break grommet seal. Do NOT pull by wiring connector or outlet barb — pull by pump body. Some applications require small flat-blade tool to release retention clip.
- 5Inspect reservoir grommet port opening — confirm bore clean and undamaged; cracked / deformed opening will not seal against new pump grommet. Clean mineral scale / debris with lint-free cloth.
- 6Compare new pump to old — verify dimensions, grommet profile, outlet barb diameter, connector pinout match exactly. Confirm OEM 1708254 (or supersession 1791580).
- 7Lubricate new pump grommet lightly with washer fluid or clean water — dry grommet requires excessive insertion force and may roll or tear. NEVER use petroleum-based lubricants on rubber grommets in washer fluid contact — petroleum swells and degrades rubber compound.
- 8Push new pump firmly into reservoir port until grommet flange seats flush against reservoir outer wall with no gap visible around circumference. Confirm full seating by attempting to pull pump back out with finger pressure — should resist removal.
- 9Reconnect outlet supply hose to pump barb with steady push until hose seats fully. Reconnect wiring connector with release tab engagement click.
- 10Refill reservoir with correct-concentration washer fluid. Inspect immediately for leaks around grommet port — any visible fluid weep = incomplete grommet seating, remove pump and refit.
- 11Activate washer system and verify: pump audible during stalk operation, fluid delivered to windscreen jets at correct pressure / pattern, no leak from grommet or hose connection, pump stops immediately when stalk released. Run several wash cycles to purge air from system.
- 12Final visual inspection after 24-hour soak test — check for slow leak from grommet base. Reset any Ford BCM washer-fault DTCs with IDS / forscan diagnostic tool.
| Part | Reference | Reason for Combined Replacement |
|---|---|---|
| Washer Fluid Reservoir | Ford-specific reservoir, varies by Focus Mk3 / Transit application | Cracked reservoir is frequently the underlying cause of the dry-run condition that burned out the pump motor — reservoir drains through hairline crack below pump inlet level, running pump dry on every wash activation. If failed pump showed signs of dry-run burnout (motor winding completely burned), inspect reservoir for cracks before fitting new pump into a leaking tank. |
| Reservoir Grommet (Pump Seal) | Ford-specific pump grommet (may be supplied with new pump, or separately) | Mandatory replacement when pump is removed. Grommet has hardened, compressed, and will not seal reliably on new pump if reused. Often supplied as part of pump kit; if not, order separately. Reusing old grommet on new pump = same leak as before. |
| Washer Jet Nozzle Set | Ford windscreen jet nozzles (varies by Focus Mk3 / Transit model) | Blocked jet nozzles create back-pressure in supply line that forces pump to run against closed outlet, overheating motor and accelerating winding failure. If failed pump showed no visible fluid reaching screen, inspect and clear or replace jet nozzles before fitting new pump. |
| Washer Supply Hose | Ford-specific nylon tubing, application-specific | Supply hose routed from reservoir to jets passes through engine bay and bonnet hinge area — subject to chafing, kinking, and frost cracking in cold climates. Split hose wastes pump output pressure, produces weak / absent jet delivery. Inspect full hose routing during pump service; replace any section showing cracks / splits / flattening. |
| Washer Fluid (correct concentration) | Ford-approved or OEM-equivalent screen wash, climate-appropriate dilution | Reservoir refill after pump service. Use correct concentration for climate — 1:3 to 1:1 dilution for freezing conditions, undiluted concentrate for summer. Plain water / wrong concentration causes premature pump failure. |