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Outline the advantages of using pneumatic control to power robots for heavy duty vehicle assembly - Leaving Cert Engineering - Question c - 2009
Question c
Outline the advantages of using pneumatic control to power robots for heavy duty vehicle assembly. Describe the benefits of using robotic control in a hazardous man... show full transcript
Worked Solution & Example Answer:Outline the advantages of using pneumatic control to power robots for heavy duty vehicle assembly - Leaving Cert Engineering - Question c - 2009
Step 1
Outline the advantages of using pneumatic control to power robots for heavy duty vehicle assembly.
Answer
Using pneumatic control for powering robots in heavy duty vehicle assembly has several advantages:
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Strong Power Source: Pneumatic control systems provide a very strong method of powering robots, allowing them to execute heavy lifting and assembly tasks efficiently.
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High Degree of Automation: Pneumatic systems can integrate a high level of automation, enabling the robots to operate with little to no human intervention, thus enhancing productivity.
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Reliability and Precision: Once set up, pneumatic control systems are known for their reliability and precision. They maintain consistent performance under heavy workloads, suitable for demanding assembly lines.
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Minimal Maintenance: These systems typically require minimal maintenance, reducing downtime and operational costs over time.
Step 2
Describe the benefits of using robotic control in a hazardous manufacturing environment.
Answer
Robotic control in hazardous manufacturing environments provides various benefits:
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Remote Operation: Robots can be controlled from a distance, allowing operators to be out of the hazardous environment, thus ensuring their safety.
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Shielding from Hazards: Robotic systems can be designed to be shielded from hazardous substances or conditions, protecting both the machinery and the operator from exposure to harmful effects.
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Environmental Protection: Robotic control machines can be plated or designed to absorb most environmental factors, which further enhances their durability in adverse conditions.
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Ease of Replacement and Repair: If they malfunction, robots can be easily replaced or repaired, which is crucial in maintaining production efficiency in hazardous settings.