Product Overview

The Two-Wheel and Three-Wheel Children Electric Scooter Test Bench is designed to evaluate the durability, performance, endurance, and operational reliability of children's electric scooters, ride-on vehicles, and electric three-wheel scooters.

The system reproduces real-world riding conditions through a dual-roller road simulation platform equipped with obstacle blocks. Adjustable weights simulate rider loads, while integrated sensors continuously monitor vehicle speed, travel distance, obstacle crossings, and endurance performance.

By accelerating long-term usage conditions within a laboratory environment, manufacturers can verify product quality, improve durability, and validate performance before mass production or certification testing.

The equipment is suitable for manufacturers, testing laboratories, quality inspection organizations, and R&D departments developing children's mobility products.

Applicable Products

The system is compatible with:

• Children's Electric Scooters

• Two-Wheel Kids Scooters

• Three-Wheel Electric Scooters

• Ride-On Toys

• Children's Mobility Vehicles

• Electric Balance Scooters

• Mini Electric Ride-On Vehicles

Testing Functions and Testing Logic

1. Dynamic Durability Testing

Test Objective

To evaluate the long-term structural durability of children's scooters under repeated riding conditions.

Testing Logic

During normal operation, the frame, steering system, wheels, and drive components are subjected to continuous vibration and cyclic loading.

The dual-roller platform accelerates these loading cycles, helping engineers identify fatigue-related failures before products enter the market.

Typical Failure Modes

• Frame cracking

• Steering looseness

• Fastener loosening

• Wheel wear

• Bearing failure

2. Obstacle Crossing Simulation

Test Objective

To evaluate product reliability when riding over uneven surfaces.

Testing Logic

Obstacle blocks mounted on the rollers repeatedly impact the wheels, reproducing common riding conditions such as:

• Sidewalk joints

• Small bumps

• Rough pavement

• Uneven playground surfaces

The repeated impact cycles accelerate durability evaluation and reveal structural weaknesses.

Measured Parameters

• Obstacle crossing count

• Wheel performance

• Structural stability

• Suspension response (if equipped)

3. Range and Endurance Verification

Test Objective

To evaluate battery endurance and operating range.

Testing Logic

The encoder continuously records wheel rotation and calculates simulated travel distance during testing.

Manufacturers can compare battery performance under different load conditions and determine realistic endurance characteristics.

Monitored Data

• Travel distance

• Operating time

• Average speed

• Battery endurance performance

4. Speed Performance Testing

Test Objective

To verify speed consistency and motor performance.

Testing Logic

The roller system continuously measures vehicle speed and displays results on the touchscreen interface.

The test helps engineers evaluate:

• Maximum speed

• Speed stability

• Controller performance

• Motor efficiency

5. Rider Load Simulation

Test Objective

To reproduce actual operating conditions experienced by children during riding.

Testing Logic

Adjustable weights up to 150 kg are applied to simulate rider loads and evaluate performance under different operating conditions.

This allows testing of:

• Structural strength

• Battery consumption

• Motor output stability

• Vehicle handling characteristics

6. Assisted Start Function Verification

Test Objective

To verify proper vehicle activation and startup behavior.

Testing Logic

The rollers initiate vehicle movement, simulating rider push-off conditions and triggering the scooter's startup sequence.

This function is especially useful for products equipped with safety-start features requiring wheel movement before motor engagement.

Core Features

Adjustable Dual Roller Design

• Roller spacing adjustable from 430 mm to 1100 mm

• Compatible with two-wheel and three-wheel scooters

• Suitable for various vehicle sizes

Real-Time Performance Monitoring

Continuous measurement of:

• Vehicle speed

• Simulated travel distance

• Obstacle crossings

• Operating duration

Touchscreen Control System

• User-friendly interface

• Real-time parameter display

• Automatic test monitoring

• Easy test configuration

Adjustable Rider Load Simulation

• Load capacity up to 150 kg

• Adjustable testing conditions

• Realistic performance evaluation

Road Simulation System

Obstacle blocks:

• 5 mm obstacles

• 10 mm obstacles

Provide realistic durability and endurance testing conditions.

Technical Specifications

FAQ

Why is road simulation testing important for children's electric scooters?

Children's scooters are frequently used on uneven surfaces such as sidewalks, playgrounds, and residential roads. Road simulation testing helps verify long-term reliability under realistic riding conditions.

What is the purpose of obstacle blocks on the rollers?

Obstacle blocks reproduce repeated impacts encountered during actual use. This testing logic accelerates fatigue accumulation and helps identify structural weaknesses earlier than normal riding.

How is range measured on the test bench?

An encoder continuously records wheel rotations and calculates simulated travel distance. This allows engineers to evaluate battery endurance and compare performance under different loading conditions.

Why is rider load simulation necessary?

Vehicle performance changes significantly under different rider weights. Applying controlled loads helps manufacturers verify motor output, battery consumption, and structural durability under realistic conditions.

Can this machine test both two-wheel and three-wheel scooters?

Yes. The adjustable roller spacing from 430 mm to 1100 mm allows the system to accommodate a wide range of children's electric scooters and three-wheel ride-on vehicles.

Recommended Related Testing Equipment

To build a complete children's scooter testing laboratory, this equipment is commonly paired with:

• Children Scooter Drop Testing Machine

• Scooter Folding Fatigue Testing Machine

• Handlebar Fatigue Testing Machine

• Scooter Brake Performance Tester

• Battery Pack Performance Testing System

• Wheel Impact Testing Machine

• Vibration Testing Machine

• Charger Reliability Testing System

Together, these systems provide comprehensive verification of safety, durability, performance, and regulatory compliance for children's electric mobility products.