Jiajie Company was established in October 2003, located in Dongguan City, Guangdong Province, China, covering an area of more than 3,000 square meters, and established a branch in Phnom Penh, Cambodia. The company is mainly engaged in the design and manufacture of plastic molds and injection molding production. Years of experience in ordinary plastics, special engineering plastic molds and injection molding, such as PPS, PEEK, PES, LCP, PC, PA and other engineering plastic products, for large-scale injection products, we give priority to hot runner molds, which not only ensures product quality , and reduce the production cost. The company's products are mainly used in automobiles, instrumentation, headphones, construction machinery, intelligent terminals, etc.
The company has more than 20 technical personnel of various types, including 5 senior engineers. It has more than 30 sets of various mold processing and testing equipment such as CNC machining centers, mirror spark machines, slow wire walking machines, three-dimensional measuring tools, etc., and uses PRO-E, UG, CAD, CAE and other software for design and development work. The production department has two More than ten injection molding machines of different tonnages are dedicated to mass production, and are equipped with a complete set of injection molding production auxiliary systems, such as small robots, manipulators, video surveillance, automatic feeding systems, etc., to achieve fully automated production.
Injection molding innovative tooling and design can consist of various components and technologies.
Hot runner systems: Hot runner systems are a type of injection molding system that uses heated components to keep the plastic material at a consistent temperature. This can improve the quality and consistency of the parts produced, reduce waste, and increase productivity.
Conformal cooling channels: Conformal cooling channels are cooling channels that follow the contours of the part, rather than using straight channels that are drilled into the mold. This approach can improve cooling efficiency and reduce cycle times, leading to higher productivity and cost.
Advanced materials: High-performance steels and coatings can be used in innovative tooling and design to improve mold durability and reduce maintenance requirements. These materials can improve the life of the mold and reduce downtime, increasing production efficiency and reducing costs.
Simulation software: Simulation software allows designers to simulate the molding process and identify potential issues before the mold is manufactured. This can reduce the risk of defects and improve the quality of the final product.
Automation and robotics: Automation and robotics can be used in innovative tooling and design to improve efficiency and productivity. For example, robots can be used to remove parts from the mold and perform secondary operations such as trimming and assembly.
Overall, injection molding innovative tooling and design can involve a combination of technologies and approaches that are tailored to meet the specific needs of a particular part or product. By adopting these approaches, manufacturers can improve efficiency, reduce costs, and produce higher-quality parts , which can lead to greater customer satisfaction and business success.
Here are some key benefits of using innovative molds and designs during the injection molding process:
Increased efficiency: Innovative molds can improve the efficiency of the molding process by reducing cycle time and minimising waste.
High Quality Parts: Innovations in mold design and surface finish result in higher quality parts.
Low maintenance: Mold durability can be increased by using advanced materials and innovative designs.
Lower costs: Manufacturers can reduce costs through innovative molds and designs that minimize waste, increase productivity, and lower maintenance.
Flexible and customizable: Many innovative molds and designs are available to be tailored to specific parts or products. .
The benefits of using innovative molds and designs can be seen and can help manufacturers remain competitive in today's changing marketplace. Manufacturers can improve efficiency, reduce costs, and produce better quality parts by adopting new technology and methods. This will increase customer satisfaction and help them achieve business success.
Increased efficiency: Innovative molds can improve the efficiency of the molding process by reducing cycle time and minimising waste.
High Quality Parts: Innovations in mold design and surface finish result in higher quality parts.
Low maintenance: Mold durability can be increased by using advanced materials and innovative designs.
Lower costs: Manufacturers can reduce costs through innovative molds and designs that minimize waste, increase productivity, and lower maintenance.
Flexible and customizable: Many innovative molds and designs are available to be tailored to specific parts or products. .
The benefits of using innovative molds and designs can be seen and can help manufacturers remain competitive in today's changing marketplace. Manufacturers can improve efficiency, reduce costs, and produce better quality parts by adopting new technology and methods. This will increase customer satisfaction and help them achieve business success.
Innovative tooling and design are the application of advanced technologies and materials to produce tools that are more cost-effective, efficient, and capable of producing better-quality parts.
Innovative tooling and design examples include 3D printing to make molds and tools, conformal cooling channels to increase cooling efficiency and advanced materials to improve tool durability.
Innovative tooling and design can lead to higher productivity, lower costs, and better-quality parts. Manufacturers can adapt to changing market needs by using innovative tooling and design.
Innovative tooling and design can be adopted by manufacturers through research and development, partnership with experts in the field and encouraging a culture for innovation and continuous improvement within their organization. To stay up-to-date on emerging technologies and trends, they can leverage trade shows and industry associations.