Firstly, clarify the specific requirements for protective clothing, including the required functions (such as high temperature resistance, dust prevention, waterproofing, etc.), applicable environments (such as automotive manufacturing, chemical industry, etc.), as well as the model and size of the robot. These pieces of information will help determine suitable materials and designs.

Choose the appropriate material according to your needs. For example, high-temperature protective clothing may use fire-resistant cloth and high-strength aluminum foil outer layer, with high-temperature resistant fiberglass cloth inner layer. Other functions such as acid and alkali resistance, anti-static, etc. also require the selection of corresponding special materials.

When designing protective clothing, the range of motion and operational flexibility of the robot should be considered to ensure that the protective clothing does not restrict the normal operation of the robot. The design should be compact, reasonable, aesthetically pleasing, and easy to disassemble and clean.

During the production process, ensure that the sewing thread is made of high-strength tensile fire-resistant thread, the movement and expansion parts are made of high-quality flame-retardant elastic, and the cutting parts are made of flame-retardant and heat-resistant adhesive tape to ensure the reliability and durability of the protective clothing. After completing the production, conduct functional testing to ensure that all functions are working properly.

Install customized protective clothing on the robot and perform necessary debugging to ensure that it fits perfectly with the robot and does not affect its normal operation.