Diving Goggles molding

The first step in manufacturing is the design phase, which is also the most critical step. Designers use advanced computer software to carefully sculpt the three-dimensional model of diving goggles. They repeatedly consider every detail of the diving goggles, from whether the curvature of the frame conforms to the contour of the human face, to ensure comfort while also considering the manufacturability of the mold and the convenience of later maintenance.

After completing the design, it enters the manufacturing stage. CNC machining centers, with their precise positioning and stable performance, perform cutting and machining on mold steel. Electric discharge machining (EDM) technology is used to process parts with complex shapes that are difficult to complete through traditional cutting. It uses the high temperature generated by discharge to corrode the metal on the surface of the mold, thereby creating fine structures and exquisite textures.

During the processing, quality inspection of the mold is carried out throughout. Advanced coordinate measuring instruments measure components in all directions, comparing and analyzing actual measurement data with design data. Once deviations are found, they are immediately adjusted and corrected.

After the completion of component processing, the next step is the assembly of the mold. This is a delicate task that tests the patience and skills of assembly workers. After assembly, it is necessary to conduct comprehensive debugging and optimization of the mold. Simulate the actual injection molding process, check whether the opening and closing of the mold are smooth, whether the movements of each component are coordinated, and whether the injection molding system and cooling system are working properly. Based on the debugging results, further adjustments and optimizations will be made to the mold until it reaches its optimal working state.

P&M Diving Goggles molding Parameter (Specification)

P&M Diving Goggles molding Feature And Application

As a crucial part of diving equipment, diving goggles play an important role that cannot be underestimated. A high-quality diving mirror not only isolates the seawater, protecting the eyes of divers from the stimulation of salty seawater, but also provides a clear view, allowing them to fully appreciate the colorful coral reefs, freely swimming tropical fish, and various wonderful underwater creatures. During deep diving, diving goggles can also help divers balance ear pressure and ensure diving safety.

Structurally, diving goggles are mainly composed of a frame, a lens, and a silicone skirt. The design of the frame needs to fully consider ergonomics, ensuring that it fits different facial shapes and provides a comfortable wearing experience. The lens is the core component of diving goggles, which not only requires high clarity to provide clear visual effects in underwater environments, but also needs to have good water pressure resistance to withstand water pressure at different depths. The silicone skirt edge plays a sealing role, preventing seawater from seeping in. The softness and durability of its material directly affect the sealing effect and service life of diving goggles. Some high-end diving goggles adopt advanced anti fog technology, such as nano coating, electric heating anti fog, etc., effectively solving the problem of fogging of diving goggles and ensuring that divers always maintain a clear view underwater. Some diving goggles are equipped with adjustable headbands and quick drainage systems, further enhancing the user experience for divers.