01
Automatic Screw Thread-Removing Injection Mold
I. The Function of the Threaded Structure
Threading refers to a structure used in plastic molds for plastic injection molding. Its main function is to enhance the firmness between the plastic product and the mold, ensuring product quality and precision. The threaded structure usually consists of components such as the extruder, nozzle, sleeve, and mold core. Their cooperation causes some crisscrossed striped marks to form on the surface of the plastic. These threaded stripes increase the friction between the product and the mold cavity, thereby improving the surface quality and dimensional accuracy of the product.
II. Types of Threading
The threading of plastic molds can be divided into various structural forms such as straight teeth, inclined teeth, and staggered teeth. Among them, straight teeth are suitable for a variety of plastic raw materials, inclined teeth are suitable for plastics with better fluidity, and staggered teeth can increase the contact area between the product and the mold cavity, improving the surface smoothness and dimensional stability of the product. In addition, the depth, height, width, and other dimensions of the threading will also affect the parameters of the injection molding process and the quality of the finished product.
III. Threading and Material Selection
Different materials have different requirements for the threaded structure. Generally speaking, the depth and height of the threading for polyolefin plastics can be relatively small, while for engineering plastics, the depth and height should be relatively higher to increase the contact area with the mold cavity and improve the firmness and surface quality of the product.
IV. What Are the Advantages of Threaded Injection Molds?
1. Efficient Demolding: It can effectively solve the demolding problem of products with internal threads or special rotational structures, improve production efficiency, and reduce demolding time and processes.
2. High Product Precision: Ensure the dimensional and shape precision of rotational structures such as threads, making the product quality more stable and reliable.
3. Cost Reduction: Reduce the need for subsequent secondary processing, such as additional processing of threads, thereby reducing the overall production cost.
4. Improve the Degree of Production Automation: Cooperating with automated equipment, it can achieve continuous and stable production, reduce manual intervention, and further improve production efficiency.
5. Good Product Performance: Due to the smooth demolding process, damage and stress to the products are reduced, which helps improve the mechanical properties and service life of the products.
6. Wide Applicability: Suitable for various plastic materials and can meet the needs of different industries for plastic products with threads or rotational structures.
V. Design Considerations for Threading
When designing the threading of plastic molds, the following aspects should be noted:
1. The direction of the threading should be consistent with the product forming direction; otherwise, it will affect the surface quality and dimensional accuracy of the product.
2. The size of the threading should be detailedly designed based on the type of plastic raw material and the requirements of the forming process to ensure the firmness and dimensional stability of the product.
3. The number of threadings is related to factors such as the product model, specification, and thickness. Reasonable selection and combination are required to ensure the quality and production efficiency of the product.
In conclusion, the design and manufacture of the threading structure of plastic molds have significant impacts on the quality and production efficiency of plastic products. Designers should consider the influence of various factors when choosing the threading structure to ensure the firmness and surface quality of the final product.
