China MOTA-Z3 Manufacturer and Supplier

The PXID design team develops initial design concepts for the Z3 high-speed electric motorcycle based on market demands, brand positioning, and target user groups. Key functional areas such as the frame structure, suspension system, transmission system, braking system, and tire design are defined to ensure the design meets the requirements for electric motorcycle riding.

Frame Structure Design

During the design process, careful consideration is given to the load-bearing requirements of the electric motorcycle, dynamic forces during operation, and the installation and securing of critical components like the battery and motor.
This ensures the frame provides solid support while meeting high standards of comfort, maneuverability, and safety.

Tungsten inert gas (TIG) welding

It effectively reduces welding defects, provides strong, plastic joints, and ensures structural safety and reliability.

Tooling manufacturing and assembly process

The integrated manufacturing and assembly process encompasses the entire chain from mold design and manufacturing, precision part processing, and quality inspection to prototype assembly, functional testing, and optimization, ensuring product performance and quality.

Mold design and manufacturing

Precise design of frame and plastic component molds, ensuring high standards in mold production and inspection.

Parts processing

Precision frame processing through CNC and die-casting techniques, with plastic component injection molding and quality inspection of all parts.

Prototype assembly

Initial prototype assembly, functional testing, and inspection, followed by adjustments and optimization to meet overall performance standards.

72 Volt battery

The standard 72V35Ah ternary lithium battery can be upgraded to a 72V35Ah semi-solid-state battery. The upgraded configuration significantly extends the driving range and delivers more powerful performance. Additionally, the vehicle features a modular battery design, separating the battery from the vehicle, offering users greater convenience and flexibility.

Hub Motor Rear Fork

The “hub motor” integrates the motor directly into the wheel hub, enabling direct power transfer to the wheels. This innovative design minimizes mechanical loss and reduces the complexity of traditional transmission systems.

Mid-Drive Motor Rear Fork

A “mid-drive motor” refers to a motor installed in the central area of the vehicle frame. This layout optimizes weight distribution, allowing for more balanced power delivery and improving handling and stability during operation.

Brand packaging design

Comprehensive packaging design, from body paint and tags to labeling and interior and exterior packaging, fully reflects brand image and product quality.

Quality testing laboratory

The quality testing laboratory, equipped with advanced testing equipment, conducts a series of pre-production tests to ensure each product meets strict quality standards. Extensive testing processes guarantee reliability in performance and safety.

Parts preparation

Ensuring all components are readily available, preventing production delays. An efficient inventory management system enhances supply chain flexibility and responsiveness.

Semi-automated assembly line

The semi-automated assembly line, with the introduction of smart equipment, improves production efficiency and precision, enhances product consistency and quality control.

Mass production and delivery

Through strict quality control and efficient production processes, each step is meticulously executed to deliver high-quality products to market.

Service Q&A

Q: What one-stop ODM services does PXID offer?

A: Industrial design, mechanical design, prototype production, tooling design, tooling manufacturing, frame manufacturing, testing laboratory, and mass production.

Q: How does PXID ensure innovation in the design process?

A: Innovation is a key challenge in design. Designers can broaden their perspectives and gain inspiration by continuously learning, staying updated on industry trends and technological advancements, and combining these insights with practical experience to bring products to production.

Q: What are the objectives of production process design?

A: Objectives typically include increasing production efficiency, reducing costs, ensuring product quality, shortening production cycles, enhancing flexibility, and ensuring compliance with regulations. Specific goals may vary based on product type, market demand, and company strategy.

Q: How is quality control ensured in the production process?

A: Quality control should be implemented throughout the entire production process, from raw material inspection to in-process checks, finished product testing, and quality audits. PXID has established a stringent quality management system, earning ISO 9001 certification.

CORE SERVICES

Electric bikes

Electric motorcycles

Electric scooters

Hight-speed electric motorcycle

Design

Manufacture

Production

Manual

Structural Design