The engine underguard/heat sink is an important part of the engine, protecting the bottom of the engine and its parts from wear and damage. JF AUTO-PARTS can produce stable and high-quality engine underguards with a production process that requires only one mold and one step to complete.

The traditional process of making engine heat sinks involves tedious steps such as blanking, forming, and punching. The entire process inevitably requires a large investment in mold development and sufficient manpower costs at each stage, with triple the effort to manage and maintain product quality. If errors, deviations or problems with size and shape frequently occur in the finished product during the production process, it is difficult to determine which part of the process is causing the problem. This not only affects the quality and stability of the product, but also increases the difficulty of quality control execution, making it impossible to achieve long-term business prospects or win customer trust. Since each step uses multiple sets of molds and multiple machines, all operated by different personnel, finding talent and training new employees increases business risk, resulting in poor profitability due to the inability to reduce costs in various aspects.
In order to improve and eliminate difficulties, while achieving the effect of simplifying manpower, time, and process, and making management tasks simple and fast and effective, we tried various methods, and finally all problems were solved with the birth of composite molds. The latest developed composite mold is made by one mold and one machine at one time to complete the finished product. This result first eliminates the tedious production process, saves machine space, reduces the threshold of production and storage problems, and most importantly, no longer needs to spend too much manpower cost to maintain it. Easily achieve the expectation of ensuring consistent and stable product size and shape.

After simplifying manpower costs and difficulties in management execution, the entire engineering process is simplified, shortening the time required for production, abandoning laborious and unnecessary steps, increasing the flexibility and elasticity of the product. At the same time, due to the reduction of manpower costs, the price directly reflected to customers can also be adjusted accordingly, promoting customers’ willingness to buy, increasing sales volume is beneficial to both consumers and enterprises, adding many practical and reliable benefits in business operations, while also taking into account long-term business prospects.

In general, traditional production methods are too fragmented and tedious, without systematic logical changes and progress. With the advancement of advanced mold equipment and technology, each aspect has made great progress. For example, simplifying the steps of the manufacturing process has achieved outstanding growth in production efficiency while maintaining product quality and flexibility. This is of great significance to the competitiveness and market position of enterprises. In the end, enterprises can make reasonable choices based on their own characteristics, market demand, production volume and other factors. Choosing a suitable production method can help enterprises improve product quality, reduce costs, improve efficiency, thereby enhancing market competitiveness, gaining more customer trust and business opportunities. Enterprises can respond quickly and effectively to market demand, enhance the overall competitiveness of the industry. In practical applications, it will improve the quality of service items for enterprises and create new value.