Automatic Clamping Comprehensive Performance Test Bench For Water Ring Vacuum Pump Of Electric Vehicle

Automatic Clamping Comprehensive Performance Test Bench For Water Ring Vacuum Pump Of Electric Vehicle

WPT-9 is specially designed for water ring vacuum pumps for new energy vehicles. It integrates automatic clamping and full performance testing, supports 0-80m³/h flow rate (accuracy ±0.5% FS), -40℃~125℃ temperature cycle test, and covers all items of vacuum, efficiency and durability testing. Equipped with a 12-inch touch screen and PLC intelligent control system, it complies with ISO 28580 and GB/T 32864 international standards, automatically generates vacuum-flow curves and fault diagnosis reports, and is the core equipment for electric vehicle OEMs, parts suppliers and scientific research institutions to verify the reliability of vacuum pumps.

Place of Origin :
CHINA
Brand Name :
HONGCE
Certification :
Calibration certificate(cost additional)
Model Number :
WPT-9
Price :
Negotiatable
Minimum Order Quantity :
1 set
Delivery Time :
90 Days
Payment Terms :
L/C, T/T
Packaging Details :
Plywood
Supply Ability :
10 Set per month

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Product Details

Automatic Clamping Comprehensive Performance Test Bench For Water Ring Vacuum Pump Of Electric Vehicle

Product Introduction

WPT-9 redefines the electric vehicle vacuum pump testing standard with automated clamping technology and full-condition simulation capabilities:

1. Automated clamping system

Quick positioning: The six-axis robotic arm (positioning accuracy ±0.1mm) cooperates with the visual recognition system to complete the automatic clamping of different types of vacuum pumps (horizontal/vertical) within 5 minutes, and is compatible with the G1/4"-G3/8" interface of mainstream brands (Bosch, Mahle, and United Electronics).

Adaptive sealing: Pneumatic elastic clamps (adjustable pressure 10-50kN) ensure zero leakage of flange/threaded interfaces, solve the problem of unstable sealing of manual clamping, and adapt to IP67/IP6K9K protection level vacuum pump testing.

2. Full performance testing capabilities

Vacuum performance:

Vacuum range 1-100kPa (accuracy ±0.1kPa), support maximum 80m³/h pumping rate test, and real-time drawing of vacuum-flow curve (ISO 28580 Clause 5.3 requirements).

The ultimate vacuum test (≤1kPa) and recovery time verification (vacuum drop rate after power failure ≤0.5kPa/s) simulate the emergency working conditions of the electric vehicle braking system.

Environmental adaptability:

The temperature control module supports -40℃ low temperature start-up and 125℃ high temperature endurance (accuracy ±1℃), with humidity adjustment (10%-95% RH), to verify the operating stability of the vacuum pump in the extreme environment of the battery compartment.

3. Intelligent measurement and control and data management

Operation interface: 12-inch industrial-grade touch screen (Chinese and English switch) with built-in 10+ test templates, one-click start of GB/T 32864 specified efficiency test, AEC-Q100 temperature cycle and other processes, parameter setting time shortened by 60%.

Data traceability: 256GB solid-state hard drive automatically records 50+ parameters such as vacuum, power consumption, vibration, etc., supports real-time acquisition of CAN/LIN bus data, and generates PDF reports that meet ISO 9001 requirements (including SPC process capability analysis).

4. Safety and reliability design

Hardware protection: Stainless steel test chamber (protection level IP67) with dual pressure sensors (primary and standby redundancy), automatic unloading of overpressure (110% set value), in line with IEC 60664-1 electrical safety standards.

Fault diagnosis: AI algorithm analyzes vibration spectrum in real time (resolution 0.1Hz), identifies 6 types of early failures such as impeller wear and bearing failure, with a diagnostic accuracy of >98%, and automatically triggers shutdown protection.

Product Features

Core Advantages Technical Highlights

🤖 Automated clamping Six-axis robotic arm + visual recognition, complete model switching in 5 minutes, reduce manual intervention errors, and adapt to multiple batches of small batch tests

🌡️ Full temperature range covers -40℃~125℃ temperature cycle (heating rate 5℃/min), supports AEC-Q100 Rev-E temperature shock test (1000 cycles)

🔬 High-precision detection Vacuum sensor (±0.1kPa), flow sensor (±0.5% FS) calibrated by CNAS, meet ISO 28580 Class A accuracy

📊 Multi-parameter monitoring Synchronously collects 30+ parameters such as vacuum, power consumption, noise (≤65dB@1m), leakage rate (≤0.01m³/h), covering all performance/reliability/EMC test items

⚙️ Modular expansion Optional refrigerant circulation module (-50℃ ultra-low temperature), high-pressure gas circuit (0-10bar), suitable for high-pressure resistance test of hydrogen fuel cell vacuum pump

International reference standards

Performance test standards:

ISO 28580:2013 "Road vehicles - Electric drive coolant pumps for internal combustion engines and hybrid electric vehicles"

Clause 5.3: Vacuum - flow characteristic test method

Clause 6.2: Durability test cycle requirements

GB/T 32864-2016 "Electric water pump for electric vehicles"

Section 5.4: Efficiency test process (input power - output flow relationship)

Section 5.7: Low temperature start performance (start time ≤5s at -40℃ environment)

Reliability standards:

AEC-Q100 Rev-E "Automotive Electronic Components Reliability Test"

Section 5: Temperature cycle test (-40℃~125℃, 1000 times)

Section 9: Vibration test (10-2000Hz, acceleration 20m/s²)

IEC 60068-2-1 "Environmental Testing Part 2-1: Low Temperature Test"

Nb Clause: -40℃ continuous test for 72 hours without failure

Safety and EMC:

EVS-GTR Phase 2 "Global Technical Regulation for Electric Vehicle Safety"

Clause 5.3: Electrical insulation resistance (≥10MΩ) and withstand voltage (1500Vdc/1min)

CISPR 25:2021 "Electromagnetic Compatibility of Vehicle Noise"

Class 3: RF radiated noise ≤40dBμV/m (30-1000MHz frequency band)

Test objects and test items

Core test objects

Electric vehicle water ring vacuum pump (power 0.1-3kW, pumping rate 5-80m³/h)

Hybrid vehicle vacuum booster pump (supports oil cooling/water cooling dual circuit)

Hydrogen fuel cell system vacuum pump (high pressure resistance, hydrogen embrittlement resistance)

Core Inspection Items

Inspection Category	Specific Items
Performance Verification	Vacuum vs. Flow Rate Curve, Power vs. Efficiency Curve, Ultimate Vacuum Hold Time (ISO 28580 Clause 5)
Environmental Adaptability	-40℃ Start-up Test (AEC-Q100 5.1), 125℃ Continuous Operation for 24 Hours, Salt Spray Test (NSS 48 Hours)
Reliability Test	500-hour Durability Test (Leakage Rate ≤0.05m³/h), 1000-cycle Thermal Shock Test (-40℃~125℃)
Safety and EMC	Withstand Voltage (1500Vdc/1min), Ground Resistance (≤0.1Ω), Radio Frequency Interference (CISPR 25 Class 3)
Automation Function	Robot Clamping Repeatability Accuracy, Fixture Seal Pressure Adaptive Adjustment (10-50kN Stepless Adjustment)

Technical Parameters

Category	Parameter Details
Model	PT-9
Test Vacuum Range	1-100kPa (Absolute Pressure, ±0.1kPa Accuracy)
Flow Rate Range	0-80m³/h (Electromagnetic Flowmeter, ±0.5%FS)
Temperature Control	-40℃~125℃ (Operating), ±1℃ Accuracy; 5℃/min Heating/Cooling Rate
Humidity Range	10%-95%RH (Non-condensing, Optional Humidity Module)
Drive Voltage	12V/24V/48V DC (Support Vehicle Battery Simulation)
Power Measurement	0-3kW (Resolution: 0.1W, ±0.5%FS)
Vibration Detection	0-200m/s² (Three-Axis Accelerometer, ±5% Accuracy)
Noise Level	30-100dB (Sound Level Meter, ±1dB at 1m Distance)
Clamping Method	Six-Axis Robot + Pneumatic Fixture (Positioning Accuracy: ±0.1mm)
Control Interface	12-inch LCD Touch Screen (1920×1080, Multi-Language Support)
Data Storage	256GB SSD (Supports 200,000+ Test Records, CAN/LIN/Ethernet Export)
Protection Class	IP54 (Control Cabinet), IP67 (Test Chamber)
Power Supply	AC220V±10%/380V±10%, 50/60Hz, Rated Power: 80kVA
Dimensions	3500×2500×2300mm (L×W×H, Including Robot Arm)
Weight	3000kg (Stainless Steel Structure + Aluminum Fixtures)
Communication	CAN/LIN/RS485, Modbus TCP, OPC UA (Support Vehicle Network Integration)