Recently, Chongqing Chuke Intelligent Machinery Equipment Co., Ltd. (hereinafter referred to as "Chuke Intelligent") launched a new automated tire mounting machine specifically designed for motorcycles, focusing on fitting 8-14 inch tires and fully compatible with mainstream scooters, underbone motorcycles, and small motorcycles. The machine is optimized for the characteristics of motorcycle tires, such as their small size, high sidewall hardness, and precision wheel rims, effectively solving the problems of low efficiency and easy wheel rim damage associated with traditional manual tire mounting. It provides a reliable automated solution for the domestic and international two-wheeled vehicle manufacturing and maintenance industries.

The machine adopts a PLC control system and servo drive, ensuring precise and controllable tire mounting. It effectively avoids scratching aluminum alloy wheel rims and prevents tire bead deformation, guaranteeing the quality of tire and wheel assembly. The machine features a lightweight design and a compact footprint, suitable for mass assembly scenarios on motorcycle production lines, as well as meeting the daily operational needs of repair shops and modification workshops, flexibly adapting to the needs of customers of different sizes.
Addressing the diverse needs of motorcycle production and repair scenarios, this automated tire loading machine has undergone numerous optimizations and adjustments. Equipped with a high-precision clamping system and flexible pressing components, the machine can adjust the pressing force according to different tire specifications, preventing tire damage caused by uneven force, and is particularly suitable for the protection needs of lightweight motorcycle wheel rims. The operating interface features a touchscreen design, with all relevant parameters adjustable. The machine also supports one-button start and emergency stop functions, ensuring a safe and controllable operation process that complies with internationally recognized equipment safety standards.
In practical applications, the advantages of automated tire loading equipment are significant. Traditional manual tire loading relies on specialized tools and skilled workers, and is prone to problems such as wheel rim scratches or poor tire seals due to improper operation. This automated tire loading machine, through its automated process, greatly improves operational stability, reduces reliance on human experience, and minimizes losses caused by human error. This helps customers reduce overall costs and improve delivery quality in both production and repair processes.

With its stable performance and flexible adaptability, this equipment not only targets the domestic market but also adapts to mainstream motorcycle models in Southeast Asia, South Asia, and Latin America, providing standardized tire-fitting solutions for local vehicle manufacturers and repair chains. Its modular design ensures excellent compatibility, allowing for functional expansion based on the specific needs of customers in different regions. This further simplifies operation, improves overall efficiency, and helps customers enhance their competitiveness in local markets, driving the automation upgrade of the two-wheeled vehicle industry.
Looking to the future, Chuke Intelligent will continue to deepen its expertise in the two-wheeled vehicle automation equipment sector. Guided by market demand, it will continuously optimize equipment performance, expand product compatibility, and explore intelligent and integrated technological upgrades to help domestic and international customers build more efficient and stable production and service systems. Simultaneously, the company will actively expand its global cooperation network, deepen exchanges with customers in different regions, and promote product adaptation to more international standards and localized needs. This will help Chinese automation equipment play a greater role in the global two-wheeled vehicle industry, jointly driving the industry towards higher quality and higher efficiency.
