Product Specification

YD32-008 Washing Gun (PAPAFFIN GUNS YD32-008 Washing Gun Series) Webpage Detail Page (English)

I. Product Specifications (SPECIFICATION)

1. Core Parameter Summary Table

2. General Basic Parameters

II. Product Details (PRODUCT DETAILS)

1. Dual-Pressure Adjustment, Covering Regular and Emergency Cleaning

(1) 90PSI Rated Pressure, Efficient and Labor-Saving for Regular Stain Removal

• Adaptation to Regular Scenarios: When cleaning oil stains in auto engine bays, cutting oil on hardware, and surface dust on equipment, the fan-shaped high-pressure water flow can quickly break down oil stains (cleaning oil on one auto spark plug in 1 minute) without damaging vulnerable parts such as rubber seals and plastic components. Compared with low-pressure cleaning tools (≤60 PSi), its efficiency is increased by 50%;
• Energy and Liquid Saving: The atomized water flow has uniform coverage, with a cleaning fluid utilization rate of over 70% (only 50% for traditional low-pressure cleaning). 1L of cleaning fluid can clean 20-25 small hardware parts, reducing cleaning fluid waste.

(2) ≤150PSI High-Pressure Emergency, a Solution for Stubborn Stains

• Removal of Stubborn Stains: The impact force of high-pressure water flow is increased to 1.8 times that of the regular mode, which can loosen 5mm-thick caked oil in 30 seconds. There is no need to disassemble parts for manual scraping, reducing maintenance time (e.g., carbon deposit cleaning on mechanical gears is shortened from 30 minutes to 10 minutes);
• Safety Protection: The built-in pressure safety valve automatically relieves pressure when exceeding 150 PSi, preventing gun body or workpiece damage (e.g., scratches on precision part surfaces). Beginners do not need to worry about overpressure risks during operation.

2. Suction-Type Liquid Supply, Freeing Hands for Higher Efficiency

(1) Automatic Liquid Suction, No Manual Refilling

(2) 600CC Liquid Storage Tank, Reducing Refilling Frequency

• Capacity Adaptation: Only one tank of cleaning fluid (approx. 480CC) is needed to clean the engine bay of one family car (regular oil stains). Compared with 300CC small-capacity storage tanks, it reduces refilling frequency by 50%, saving 20 minutes for cleaning 10 cars;
• Visual Design: The high-transparency storage tank allows real-time observation of remaining cleaning fluid, enabling advance preparation for refilling and avoiding cleaning interruptions (e.g., when insufficient liquid is detected, it can be added in time after cleaning the current part without affecting the process).

3. Lightweight + Durable Material, No Fatigue in Long-Term Use and Easy Maintenance

(1) 520g Lightweight Design, No Operation Burden

(2) Corrosion-Resistant and Easy to Clean, Long Service Life

• Corrosion-Resistant Material: The gun body, nozzle, and liquid storage tank are all made of materials resistant to cleaning fluid corrosion. Long-term use of neutral/weakly alkaline cleaners causes no cracking or discoloration, and the service life is twice that of ordinary plastic washing guns;
• Simple Cleaning: After use, only 30 seconds are needed to rinse the storage tank and suction tube with clean water. The nozzle can be disassembled for separate cleaning (to avoid blockage from residual cleaning fluid), with no complex disassembly required and low maintenance costs.

III. Application Scenarios (APPLICATION SCENARIOS)

1. Engine Bay Oil Stain Cleaning in Auto Repair Shops (Core Scenario)

1. Preparation: Pour the cleaner into the 600CC liquid storage tank (480CC), connect the air compressor and adjust to 90 PSi, test liquid output (uniform fan-shaped water flow without interruption);
2. Efficient Cleaning: One person operates, holding the washing gun to aim at engine bay components (e.g., oil pipes, sensor surfaces), keeping the nozzle 15cm away, and covering the oil-stained area with fan-shaped water flow. Cleaning one engine bay takes 8 minutes (including preparation time);
3. Cleaning & Maintenance: Rinse the liquid storage tank and suction tube with clean water after cleaning 2 cars (taking 1 minute) to avoid residual cleaner.
   Result: The engine bays of 10 cars are cleaned in 2 hours (3.5 hours with traditional low-pressure cleaning), with an oil stain removal rate of 95% and no part damage (e.g., rubber tube aging, plastic buckle breakage). Customer satisfaction reaches 98%, and one gun can serve 15-20 cars per day.

2. Oil Removal Cleaning of Workpieces in Hardware Processing Plants (Scenario 2)

1. Debugging & Preparation: Install the copper nozzle, pour the degreaser (480CC), set to 120 PSi for regular oil-stained areas, and temporarily adjust to 150 PSi for caked oil stains. Test cleaning power on a waste workpiece;
2. Bulk Cleaning: Divide into 2-person groups—one person holds the gun for cleaning (12cm nozzle distance, focused spraying on caked oil stains), and the other is responsible for workpiece transfer. Cleaning one gear takes 1.5 minutes;
3. Finishing & Cleaning: After cleaning, rinse the gears with clean water (to remove residual degreaser), and clean the gun body (liquid storage tank + suction tube) at the same time, taking 5 minutes.
   Result: 50 gears are cleaned in 1.5 hours (4 hours with traditional manual scraping), with an oil removal rate of 98%. No scratches on the gear surface, and no secondary oil removal is needed for subsequent processing, increasing production efficiency by 60%.

3. Equipment Scale Cleaning by Mechanical Maintenance Teams (Scenario 3)

1. Pre-Treatment: Remove surface dust with a brush, pour the cleaner into the liquid storage tank (400CC), adjust the pressure to 130 PSi, and test liquid output;
2. Fine Cleaning: For radiator gaps (2mm width), shorten the nozzle distance to 10cm and rinse the scale with focused water flow. Cover the large-area motor shell with fan-shaped water flow, taking 25 minutes;
3. Post-Maintenance: After cleaning, dry the equipment surface with compressed air, clean the gun body, and store it.
   Result: The scale removal rate reaches 90%, with no residue in radiator gaps. The operating temperature of the equipment is 8℃ lower than before cleaning, and the maintenance team shortens the cleaning time of similar equipment from 40 minutes to 25 minutes.

IV. Frequently Asked Questions (FAQ)

Q1: "Intermittent liquid output" (water flow on and off) occurs during cleaning. What is the reason? How to solve it?

1. Suction Tube Inspection: Disassemble the suction tube and check for caked residual cleaning fluid or impurity blockage (e.g., sediment in degreasers). If blocked, rinse with clean water or gently unclog with a fine needle (avoid scratching the silicone tube);
2. Sealing Inspection: A loose tank lid causes air pressure leakage, failing to form suction for liquid supply—tighten the tank lid clockwise until a "click" sound is heard (sealed in place), and check if the silicone sealing ring of the tank lid is deformed (replace with an original sealing ring if deformed for better adaptability);
3. Preventive Suggestion: Filter the cleaning fluid through a 100-mesh sieve before adding (especially industrial degreasers to avoid impurity mixing); rinse the suction tube with clean water within 1 hour after use to prevent blockage from dried cleaning fluid.

Q2: When cleaning precision parts (e.g., auto sensors, small bearings), I am worried that high pressure will damage the parts. What should I do?

1. Reduce Pressure: Lower the pressure from 90 PSi to 60-70 PSi (low-pressure mode). At this time, the impact force of the water flow is reduced, preventing damage to the surface or internal structure of precision parts (e.g., sensor probes, bearing balls);
2. Increase Nozzle Distance: Keep the nozzle 20-25cm away (10-15cm for regular cleaning) to expand the water flow coverage area and disperse the impact force. At the same time, use the "quick sweep" method for cleaning to avoid long-term single-point spraying;
3. Accessory Assistance: Contact the merchant to purchase "special nozzles for precision parts" (inner diameter 0.8mm, softer water flow) for vulnerable parts such as sensors and bearings, further reducing the risk of damage.

Q3: The 600CC liquid storage tank still requires frequent refilling for large-area scenarios (e.g., 100 small hardware parts). Is there a way to reduce refilling frequency?

1. External Liquid Storage Bucket: Purchase a "liquid storage bucket adapter" with a G1/4" interface, connect the washing gun's suction tube to a 5L/10L large-capacity liquid storage bucket (commonly used in industrial cleaning). Only one refill is needed for cleaning 100 hardware parts, completely eliminating frequent refilling;
2. Flow Control: Lower the pressure from 90 PSi to 80 PSi to appropriately reduce the liquid output flow (without affecting stain removal power). 1L of cleaning fluid can clean 5-8 more parts, indirectly reducing refilling frequency;
3. Operation Skill: When cleaning in bulk, first focus on parts with light oil stains (to save cleaning fluid), then handle parts with stubborn oil stains to avoid operation interruption due to insufficient cleaning fluid.

Q4: Can a small household air compressor (0.25m³/min) be used? Will it affect cleaning power?

1. Small-Area Emergency (e.g., one auto spark plug, area 50cm²): A 0.25m³/min air compressor can support 90 PSi regular cleaning, but the "intermittent cleaning" method (30s spraying + 15s pause) must be adopted to avoid air pressure drop due to compressor overload (pressure below 80 PSi will reduce cleaning power). The single cleaning area should not exceed 1㎡;
2. Large-Area/High-Pressure Scenarios (e.g., engine bays, bulk hardware parts): Must replace with an air compressor of ≥0.3m³/min. Otherwise, problems such as "unstable air pressure → intermittent liquid output/attenuated cleaning power → low stain removal efficiency" will occur, and frequent start-stop of the compressor will shorten its service life;
3. Adaptation Suggestion: When choosing an air compressor, prioritize models with "displacement 0.3-0.5m³/min and air tank ≥15L". The air tank can stabilize air pressure, avoid pressure fluctuations during cleaning, and ensure stable cleaning power in high-pressure mode.