If you’ve read our guide to buying the right Grinding robot for your business, you might be wondering if it’s time to pull the trigger and what the setup process looks like.

This guide will walk you through everything you need to know to get started with robotic Grinding, including spotting any bottlenecks in your current process, ensuring proper safety protocols are in place, getting your team up to speed on programming best practices and adapting it to your factory. 

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Assessing bottlenecks and optimizing your process for robotic Grinding

To successfully implement robotic Grinding in your business, you’ll need to examine your current process. Start by analyzing each step of your grinding workflow to uncover any bottlenecks or inefficiencies. Here are some things to consider:

Space requirements

Do you have enough floor space for the robot and any peripheral equipment? Robots require a large space to maneuver, so make sure you account for the robot’s full range of motion. For a smaller space, you’ll need a smaller robot which can mean sacrificing payload and capability.

Part handling

How will parts get to your robot for grinding? Will they be secured in place? You may need to invest in a conveyor system, part feeder, or other automated solution to keep up with the robot’s speed. Remember, bottlenecks will cause the robot to idle and may throw off your precise return-on-investment calculations.

Programming expertise

Who will program and operate the robot? Robotic Grinding requires knowledge of robotics, programming, and grinding processes. You may need to train or hire skilled workers to implement the technology. At a minimum, consider choosing a robot with a no-code programming interface or pre-made routines for grinding.

Complexity

Robots work best on simpler, repetitive grinding applications. While it might be tempting to automate your most complex, intricate and grueling tasks - and it may even be possible! - Robots excel at tackling the mundane, everyday grinds with speed, consistency and extreme precision. With robotics, complexity often exponentially increases startup costs.

Grinding robot safety and risk assessments

A Grinding robot introduces new hazards to your workplace that require evaluation and safety measures. Perhaps the most important assessment to conduct before buying a robot is a thorough risk assessment. Some key things to consider:

Power sources

High-voltage components like motors, drives, and actuators require proper guarding and insulation. Establish restricted access areas around the robot's power supply and any exposed cables. Ensure you have the necessary space to keep cabling away from busy areas where parts are loaded and unloaded.

Pinch points

Moving parts like joints, gears, and the grinding spindle create pinch points that can crush fingers or catch loose clothing. Like most heavy machines, robots can create incredible force in fractions of a second. Install physical barriers like guarding, fencing or light curtains around any exposed moving parts. Consider a “Collaborative” robot which can automatically detect incoming collisions and shut itself down.

Projectiles

The high-speed grinding wheel and flying debris from the grinding process can act as dangerous projectiles if released. Use reinforced guarding around the grinding area and consider a debris collection system.

Emergency stops

Clearly label and test all emergency stop buttons before operation to ensure the robot and grinding wheel immediately halt all motion. Train employees on proper emergency stop procedures, regardless of whether they directly interact with the robot as part of their role or not.

Lockout/tagout

A lockout/tagout program is essential for de-energizing the robot for service or maintenance. Only properly trained technicians should access the robot's power sources when locked and tagged out. Ensure this applies to not only the robot arm’s power source but to that of the grinding end-effector.

By identifying hazards, implementing controls like guarding, training staff, and following standard safety procedures like lockout/tagout, the risks associated with a Grinding robot can be effectively minimized. 

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Programming tips for your new Grinding robot

No matter which robot you buy, you’ll need to program it. Many manufacturers hire consultant programmers to set up their robot routines for the first time, but in a high-mix shop where the robot may need frequent reprogramming or calibration, it might be worth choosing a robot with a simpler software system that your existing staff can be trained on. 

Regardless of which option you choose, here are some programming tips that are worth knowing as a new robot owner:

Take it slow: It’s difficult for beginners to grasp just how many mistakes even experienced programmers make when automating a new process. Break down the full process into smaller steps or subroutines which the robot can learn individually. Start with simple pick and place commands or wheel dressing before moving on to the actual grinding motions. 

Simulate the program: There’s no need to destroy endless parts and abrasives on your programming quest - Use the robot’s simulation software to visualize how the program will run before deploying it on the shop floor. This can help identify any collisions, reach issues or unnecessary movements. Make any needed changes to the program in the simulator first.

Optimize your cycles: Unnecessary movements can add precious seconds to every cycle your robot completes. Keep your robot’s movements direct, simple and as fast as you can safely manage. Even 5 unnecessary seconds on a 2-minute cycle means 32 lost cycles in a single day.

Test in production: Once the program is complete, test it at full speed under normal production conditions. This will ensure there are no surprises when the robot goes live and allow you to make final tweaks to improve cycle times or part quality.

Consider your operators: Think about how your human workers will interact with and work alongside the robot. Program the robot to move in predictable, consistent paths so operators know where it will be at any given point in the grinding process. This helps avoid collisions and makes the robot seem less intimidating.

Don’t hesitate to contact your robot supplier if you run into issues—they can usually provide guidance to help get your new automated system up and running.

Maintenance and working alongside your new Grinding robot

Regular maintenance

Like any machine, your Grinding robot will require routine maintenance to function properly. Plan to perform inspections and service the robot at least once per month. Things to check include:

• Lubricating joints and bearings: The moving parts of the robot arm need to be kept lubricated to prevent grinding and ensure smooth movement. Your robot arm and grinder will have separate lubrication schedules to keep your cycles efficient and predictable.
• Tightening loose components: Double-check that all bolts, screws, and other fasteners are securely tightened. Loose parts can affect accuracy and performance for hundreds of cycles before defects are spotted by your team.
• Cleaning grinding debris: Built-up debris around the grinding head and robot arm can impact movement and precision. Again, this can subtly impact your robot’s performance and can result in tens of failed cycles and defective parts before your staff intervenes.
• Testing emergency stops: Ensure all emergency stop buttons are functioning properly in case they need to be activated. Press each button to confirm the robot stops immediately. This is worth repeating at the start of each robotic shift.
• Updating software: While most factory machines are rarely - if at all - updated, robots, especially from modern, innovative companies, receive regular updates to improve their performance and reliability.

Working with your robot

It can take a while for your staff to get comfortable and familiar with working alongside robots. Here are some tips to keep in mind when introducing your new Grinding robot to the team:

• Define clear zones for human vs. robot work areas: This prevents accidental contact with the robot arm. These should be clear, signposted and if possible, fenced off.

• Follow all safety procedures: Never enter the robot work area when it is operational. Only interact with the robot after it has been safely powered down. It’s easy to be lax as your staff get used to the robot, but it is capable of moving faster than your team and with incredible force - ensuring your staff is always wary of unforeseen movements.

• Provide ongoing feedback: Encourage your team to be proactive in giving feedback on the robot’s performance. Your expert grinders are best placed to help identify and correct errors with the robot’s programming or performance.

• Embrace the opportunity: For many factories across the US, introducing robotic automation is an ideal team to reskill staff, free up experienced workers from menial tasks to focus on value-added, specialized activities and otherwise exponentially-increase their productivity. Look for opportunities for your team to collaborate with the robot or take on more complex work that requires a human touch. 

With diligent maintenance and care in working alongside your new robot, it will soon become a seamless part of your grinding operations. 

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Conclusion

You've made it through the guide and have a good sense of what's involved in bringing a Grinding robot into your operations. While it will take work, the benefits to quality, consistency and productivity can be huge. Start evaluating your options, get quotes from vendors and crunch the numbers to build your business case. Talk to others in your industry who have implemented similar solutions. 

If you’re ready to take the leap, or just want to find out more options, consider speaking to our solutions team today. RO1 by Standard Bots is a great choice for any grinding application:

1. Affordable: RO1 is the most affordable robotic arm in its class, starting at almost half the price of incumbent competitors. 
2. Powerful: RO1 is faster and more precise than competitors, despite having the highest payload capacity in its class at 18 kg.
3. Collaborative: RO1 comes equipped with safety sensors and built-in collision detection, for safe operation anywhere on your shop floor.‍

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Speak to our solutions team today to organize a free, 30-day onsite trial and get expert advice on everything you need to deploy your first robot.