With the advancement of the manufacturing industry, many manufacturers are using industrial robots to replace manual labor and speed up processing. However, this comes at a high cost, and manufacturers often choose to use appropriate protective products to minimize damage and thus reduce repair costs.
Industrial robot protective clothing is a common protective product. Tailored to the specific robot, it offers a variety of protective features and can be used in various environments to protect the robot's normal operation. What are the types of robot protective clothing and their applications? A brief introduction is provided below:
In high-temperature environments
High-temperature-resistant robot protective clothing can protect robot arms from burns caused by flying sparks and can also shield robot components from direct heat from the outside environment, effectively protecting robots from high-temperature environments.
In spraying environments
Anti-static robot protective clothing can prevent static electricity generated by robots from rubbing against the robot, potentially causing fires and other safety accidents, thereby ensuring safe production in the workshop.
In cleaning environments with high water density
Waterproof robot protective clothing effectively isolates the robot from contact with external water mist, preventing acids and alkaline substances in the cleaning fluid from corroding the robot body. It also prevents water stains from penetrating the robot's interior, rusting components, and reducing flexibility and affecting operating efficiency.
In acidic and alkaline environments
Acid- and alkaline-resistant robot protective clothing effectively isolates acid and alkaline molecules from contact with the robot body and components, preventing corrosion and effectively protecting industrial robots from normal operation in acidic and alkaline environments.
In sandblasting environments with high dust concentrations
Robot dustproof clothing isolates the robot from the external environment, preventing airborne dust from entering the robot's interior, increasing friction within components, reducing their service life, and making cleaning more difficult. Therefore, protective clothing provides comprehensive and effective protection against damage to the robot.
In low-temperature environments
Heated and insulated robot protective clothing can be adjusted to the appropriate temperature on-site based on the robot's operating conditions, ensuring the robot can start normally and complete its intended tasks in low-temperature environments, thus ensuring that the robot's operating efficiency is not affected by the external low-temperature environment.
