It is widely known that using robots in a company leads to improved payload and saving labor costs, and this means these robots guarantee a return on investment (ROI)
As different as they may appear, the mechanical arm and the human arm similar, and they have similar features; this makes mechanical arms suited to be used as automotive robots.
The present world has seen robots used in the fabrication of parts and pick and place tasks within the car industry. Similarity to the human arm permits has seen automotive robots navigate any challenge presented to them.
The use of mechanical tech gives manufacturers an upper hand, which in turn boosts profitability and quality of the item. A balance between accuracy, speed, and cost has to be achieved, and this leads us to a debate on what to focus on when selecting robots for the car-making industry.
What Should You Look for When Picking Robots for The Automotive Industry?
Versatility & Ease of Use
A good robot ought to have harmony between ease of use and versatility. The machine controller should be simple enough to be used by a novice in the workplace. The robot should be able to work on its own and not always rely on the operator’s expertise.
Max Velocity for Your Application
It is essential to accomplish the fastest process times so you can manufacture more parts. Typically, a robot maker will create an average speed robot, a high-velocity robot, or an ultra-high velocity robot. Clients pick the robots based on their desired cycle times.
With process durations over 15 seconds, the client should choose the average speed robot. With process durations of up to 12 seconds, the client ought to pick a high-velocity robot and with process durations of under 12 seconds, the client should choose an ultra-high velocity robot.
Well-Built for Massive Payloads
Several robot creators cut costs by selling their customers robots with a lower payload. This implies the servo engines contained in the robot have a lower limit. Purchasing a robot with end-effectors is suitable because they don’t have a restricted maximum payload.
Also, go for robots that have rack and pinion instruments as opposed to belts. Robotic belts comprise iron and rubber. Most elastic gear stretches in the long run and should be changed periodically. Rubber also tears easily, and the upkeep costs for rubber are pretty high.
Improvement of The Production Process
In the automotive industry, the required robots are those that can improve the quality of work done in the production line. The robot should ensure that processes such as painting, welding, and assembly of parts are completed with the utmost degree of perfection.
The robot should go even further to ensure that there are no cosmetic damages in parts that come from the production line. if any damages happen, the robot should flag these items as broken or sort them from the good ones
Low Upkeep Costs and Prolonged Reliability
While choosing a robot for a car manufacturing plant, you ought to request the robot maker for client references. Other clients will disclose how long the robot has served them and if the robot’s upkeep costs are significantly high.
A well-built robot should serve a company for over twenty years, and the upkeep costs should not outweigh the profit margin of the business that the robot is used in.
On occasion, they are considerable contrasts in the nature of parts, which is reflected in the robot’s cost. This means that a high price should never deter you from picking a robot. If anything, it’s cheap robots that you should be wary of because they can break down.
To sum it all up, robots are pretty helpful in the automotive industry. However, as illustrated above, there are a couple of features that entrepreneurs should be on the lookout for when selecting robots for the industry specifically.