Robot Covers for Radiant Heat Protection
Heat protection covers for industrial robots are designed to protect robotic arms, cables, and sensitive components from extreme heat conditions commonly found in welding, foundry, die-casting, and forging environments. In high-temperature production lines, radiant heat, sparks, molten metal splash, and slag can severely shorten robot service life and lead to unplanned downtime.
Our industrial robot heat protection covers provide a reliable thermal barrier that shields robots operating in continuous high-temperature environments. These covers are engineered using high-temperature resistant and flame-retardant materials, ensuring stable protection even under prolonged heat exposure. Reflective outer layers help reduce radiant heat absorption, while reinforced structures prevent damage from hot particles and metal splatter.
Designed specifically for automated production lines, robot heat protection covers are widely used in robotic welding cells, steel mills, foundries, die-casting plants, and hot material handling systems. By preventing heat-related wear on robot joints, hoses, and electronic components, protective covers help extend equipment lifespan and reduce maintenance costs.
Each heat protection cover for industrial robots can be custom-made according to robot model, axis movement, working envelope, and application temperature range. Flexible designs ensure full freedom of movement without affecting robot speed or accuracy. Installation and removal are simple, supporting routine maintenance and production efficiency.
Whether for short-term thermal shielding or long-term protection in extreme environments, Tehu robot protection covers are an essential solution for improving automation reliability in high-temperature industrial applications.
Type 1 Fabric feature:
It uses a new type of fiber composite material with high strength, toughness and high temperature resistance at military level. It can withstand an instantaneous temperature of 500° and can be used in an environment of 100-300° for a long time, and maintains excellent performance.
1. Permanent heat resistance and flame retardancy, and the limiting oxygen index Loi is greater than 28.
2. Permanent resistance to acid, alkali and organic solvent erosion.
3. High strength, high wear resistance and high tear resistance, strength: 3.6 GPa, elongation modulus: 131 GPa
4. No droplets are produced when encountering fire, and no toxic gas is produced.
5. When the fabric is burned, the fabric surface thickens, enhances sealing and does not break.
Type 2 Fabric feature:
It uses aviation-grade all-carbon black technology fabric, which has excellent corrosion resistance, aging resistance and high temperature resistance. It can be used in a high temperature environment of 500-1000° for a long time.
1. Permanent heat resistance and flame retardancy, and the limiting oxygen index Loi is greater than 50.
2. Permanent antistatic property.
3. Permanent resistance to acid, alkali and organic solvent erosion.
4. Wear-resistant, low thermal conductivity, good insulation effect.
5. No burning, no cracking, no droplets, and no toxic gas when exposed to fire.
Advantages of special Heat Protection Robot Covers:
1. Highly customized, one machine and one solution, the robot is no longer naked;
2. The detachable structure design is adopted for easy maintenance;
3. Reusable, saving enterprise costs;
4. Reasonable design and tailoring, beautiful appearance;
FAQ:
What are robot heat protection covers used for?
Robot heat protection covers are used to protect industrial robots from radiant heat, sparks, molten metal splash, and high ambient temperatures in welding, foundry, casting, and forging environments.
What temperature can robot heat protection covers withstand?
Depending on materials and design, high-temperature robot protection covers can withstand continuous radiant heat exposure and short-term extreme temperature conditions commonly found in industrial production lines.
Are robot heat protection covers customizable?
Yes. Heat protection covers can be custom-designed based on robot brand, model, axis configuration, temperature range, and specific application requirements.
