Slévárenský robot

The difference between a foundry robot and a standard robot lies primarily in their design, function, and the environments in which they are used.

1. Purpose and Functionality:

• Foundry Robots: These are specialized robots designed to work in high-temperature, harsh environments like metal foundries, steel mills, and other industries that involve heavy-duty casting, molding, and metalworking. Their main functions often include handling molten metal, transporting heavy materials, managing molds, and performing tasks that require heat resistance and precision under extreme conditions.
• Standard Robots: These robots are more versatile and used in a wide range of industries, such as manufacturing, logistics, electronics, food processing, and even service industries. Their functions include assembly, packaging, material handling, welding, and other tasks that don’t necessarily involve extreme temperatures.

2. Environmental Resistance:

• Foundry Robots: They are designed to operate in environments with high temperatures, dust, metal splatter, and possibly corrosive elements. This requires them to have enhanced heat resistance, special coatings, and materials that protect their joints, wiring, and electronics from damage.
• Standard Robots: These robots generally operate in cleaner, cooler environments. They don't need the same level of thermal resistance and often don’t require the heavy-duty protective features of foundry robots.

3. Design and Construction:

• Foundry Robots: They are typically built with more robust and heat-resistant materials like stainless steel or special alloys. The components are sealed to prevent dust, molten metal, and other harsh elements from interfering with their operation. They may also feature cooling systems to regulate temperature and extend operational life.
• Standard Robots: The materials and design of standard robots are less specialized. They may be made of lightweight metals, plastics, or composites, and are often designed for precision, speed, and versatility, rather than durability in extreme conditions.

4. Durability and Maintenance:

• Foundry Robots: These robots are designed to withstand high stress and endure the wear and tear of harsh industrial conditions. Regular maintenance is critical due to the intense environments they work in, but their construction aims to reduce wear over time.
• Standard Robots: Maintenance is also important, but the conditions they work in are usually not as extreme, so the wear and tear on their parts is generally less intensive.

5. Safety Features:

• Foundry Robots: Due to the hazardous nature of the environments they work in, such as exposure to molten metal or high temperatures, these robots often have additional safety features, including thermal protection, shielding, and specialized sensors to prevent accidents.
• Standard Robots: While safety is still a concern, standard robots may have fewer extreme protective features as they don’t face the same physical dangers, though they are still equipped with basic safety systems to avoid harm to people and equipment.

Conclusion:

Foundry robots are specifically engineered for the extreme conditions found in metalworking and similar industries, while standard robots are built for a wider range of applications in more typical, less hazardous environments.