Why Automate?

Automation is beginning to take over facilities all over the world but is automation the right choice for you? When you think about the word automation one of the first things that comes to mind is robotics. However, robotics is just a small part of the ever-changing world of automation. Manufacturers have multiple different options when considering automation. They can choose turn-key robotic integration, but they can also use partial integration, gantry systems, laser vision systems, and more. Below are some frequently asked questions:

Why should I automate my procedure? 

There are numerous reasons why automation might be beneficial.  One might want to automate a particularly hazardous or risky task, gain consistency over quality, or operate with limited staff or reduce headcount, it might also be as simple as creating space in your manufacturing environment given today’s COVID requirements for social distancing.

How do I justify automation to my boss?

Justifying automation is totally dependent on the type of automation and the goals associated with automating.  

There are many factors to consider:

  • headcount, 
  • production levels,
  • quality issues
  • workers compensation

These issues are just a few that can come to mind.  When using operator numbers as justification for example, robotic automation generally requires a 2nd or 3rd shift to be justifiable in two years or less.

We run 3 shifts at our plant, can robots handle that workload? What about downtime?

Three shift applications are well suited to industrial robots. Fanuc robots, for example, are designed to handle 100,000 hours MTBF (meantime between failures). Typical annual maintenance consists of replacing gearbox grease and changing out batteries. Fanuc also has a support line (open 24 hrs a day, 365 days/year) and guarantees parts on-site with a technician in 24 hours in the event of a down robot. They also stock all parts in the US for any robot currently running production, regardless of the age of the robot.

We have limited space, can we make robots work?

Robots might not be the best fit in all situations and locations.  That needs to be reviewed and discussed as part of our site review of your needs/goals.  We can help you determine if hard automation (mechanical, non-robotic) might better suit your facility or if robotics can work.  It will depend on speeds, payload, reach, interaction with surroundings ( i.e. people), and other reasons. 

If you are considering automation of any kind, reach out to us at MJ Engineering and we can work with you to determine what the best type of automation is for you and for your company. Call us at (614)891-6111 ext. 110. Don’t wait to up your production and lower your human dependency. 

LagEase

Overview

MJ Engineering is proud to announce another collaboration with Focused Technology Solutions
(FTS), this time the teams combined to create the LagEase. The LagEase is the World’s Most
Advanced Battery-Operated Lag Inserter. The LagEase is an investment in safety and productivity that pays for itself in faster, safer lag insertion with less labor and no need for hydraulic fluid, hoses, or generators. This tool is designed to be safer, faster, and stronger than any other on the market.

Benefits

  • Drives lags in 3 seconds
  • Up to 20 pounds lighter than conventional hydraulic lag inserters
  • No hazardous hydraulics, hoses, or fluids
  • No gas-powered generators
  • No setup time necessary
  • Takes just one worker to operate

Goals

  1. Design a battery-powered lag inserter
  2. Minimize lag insertion times
  3. Minimize the cost and weight of the lag inserter
  4. Maximize the strength and useful life of the lag inserter
  5. Maximize the ergonomics of the lag inserter

Specifications

  • About 30 pounds
  • 3-second lag drives
  • A rechargeable battery pack and commercially available drill
  • Easy to transport anywhere the rail takes you
  • No hydraulic system to risk leaks or environmental hazards

 

Robotic Pack Out

A pharmaceutical company approached MJ Engineering asking for help automating their pack out process. This company had vials randomly stored in totes that needed to be packed into trays. The trays would then be put into boxes and shipped out. The entire process was done by 1 operator who had to organize the vials into trays. 

MJ proposed a Fanuc SR-6iA robot to perform a high-speed robotic pack out. The robot featured a gripper end of arm tool to pick up the vials 4 at a time. The vials come to the robot from a bowl feeder which feeds them down a track system that allows the vials to be picked up from the same spot each time. The robot then runs the parts through a machined comb and that straightens the vials up so they could be put in the tray. A conveyor brings the tray around to the operator for packing and shipping. 

The robot is able to move an estimated 45,000 vials on a 6.5-hour-long shift. The operator loads the bowl feeder with vials and places empty trays on the conveyor. The high-speed robotic pack out cell comes with a Cognex In-Sight 2000 Vision System to make sure the labels on the vials are placed correctly. The vision system uses a colored ring light to locate the label and verify the orientation. 


The cell operates so efficiently that with current production rates the customer only needs to run the cell 3-4 hours a day rather than 3-4 operators 5 days a week.

 

To see how we can help automate any of your processes give us a call at (614) 891-6111 ext. 110 or email me at jwand@mjengineering.com. We can help with assembly, pack out, depal, and much more in the pharma and medical industries. 

Collaborative Robot FAQs

Your new collaborative robot has just been dropped off at your facility, what do you need to do next to get it up and running? The common misconception is that the collaborative robot is a plug-and-play robot. The fact of the matter is that is only half true. Yes, the robot has additional safety features when compared to industrial robots; however, that doesn’t make the system plug and play. There are many factors that need to be considered before the collaborative robot can be installed and run as part of your normal operation.

Here are some True/False statements to test your knowledge of Collaborative robots:

*Click to reveal answer

 

FALSE

While the robot is equipped with sensors, that doesn’t mean collisions can’t occur. Collaborative robots are designed to limit the amount of force that can be exerted on an object during a collision. When that force limit is exceeded the robot will stop virtually instantly. This action will preserve the robot, end of arm tool, and the operator from being damaged or hurt.

FALSE

The collaborative nature of the entire application must be considered in its entirety. For example, if the collaborative robot is utilizing a knife this may well be a non-collaborative application using a collaborative robot that will require full guarding. A safety audit in accordance with RIA standards should be completed on any robotic deployment.

 

FALSE

According to RIA standards and/or robot manufacturers’ requirements, it is typically completely unacceptable to impact an operator in the head or neck area at any speed at all. Based on this care must be taken to understand what can happen and all possible impacts should be considered in a risk assessment.

FALSE

 Through the use of various safety systems such as guarding, sensors, safety scanners, and light curtains, we can reduce your risks to a tolerable level on any robotic cell, collaborative or industrial.

 

If you have the need or want to automate any part of your process but don’t know where to begin, call MJ Engineering at (614) 891-6111 ext. 110. We can help whether you have the robot already or don’t even know where to begin.

The possibilities never end!

 

Your new collaborative robot has just been dropped off at your facility, what do you need to do next to get it up and running? The common misconception is that the collaborative robot is a plug-and-play robot. The fact of the matter is that is only half true. Yes, the robot has additional safety features when compared to industrial robots; however, that doesn’t make the system plug and play. There are many factors that need to be considered before the collaborative robot can be installed and run as part of your normal operation.

Here are some True/False statements to test your knowledge of Collaborative robots:

 

A Collaborative robot won’t hit people……………FALSE

 

While the robot is equipped with sensors, that doesn’t mean collisions can’t occur. Collaborative robots are designed to limit the amount of force that can be exerted on an object during a collision. When that force limit is exceeded the robot will stop virtually instantly. This action will preserve the robot, end of arm tool, and the operator from being damaged or hurt.

 

A Collaborative robot can be used to perform any function in my facility without guarding or safety needing to be considered………FALSE

The collaborative nature of the entire application must be considered in its entirety. For example, if the collaborative robot is utilizing a knife this may well be a non-collaborative application using a collaborative robot that will require full guarding. A safety audit in accordance with RIA standards should be completed on any robotic deployment.

A Collaborative robot straight out of the box is safe to use around people………FALSE

According to RIA standards and/or robot manufacturers’ requirements, it is typically completely unacceptable to impact an operator in the head or neck area at any speed at all. Based on this care must be taken to understand what can happen and all possible impacts should be considered in a risk assessment.

I’m stuck with a collaborative cell that doesn’t meet my safety teams requirements and can’t be used in production……….FALSE

Through the use of various safety systems such as guarding, sensors, safety scanners, and light curtains, we can reduce your risks to a tolerable level on any robotic cell, collaborative or industrial.

If you have the need or want to automate any part of your process but don’t know where to begin, call MJ Engineering at (614) 891-6111 ext. 110. We can help whether you have the robot already or don’t even know where to begin. The possibilities never end!

Drill Ease

Overview

MJ Engineering continues to collaborate with Focused Technology Solutions to develop groundbreaking products. This time the product is the Drill Ease. This is the world’s most advanced battery operated tie drill. This product is an investment in safety and productivity that pays for itself in faster, safer tie drilling with less labor and no need for hydraulic fluid, hoses, and generators.

The tool was designed to be lighter, stronger, and more ergonomic than previous tools.

 

Benefits
  • 3-5 seconds per hole in wooden ties
  • Only 30 pounds
  • No hydraulics, hoses, or fluids
  • No gas-powered generators
  • No setup time
  • One worker to operate
Goals
  • Design a battery-powered tie drill
  • Minimize drill time
  • Minimize the cost of and weight of the drill
  • Maximize the strength and useful life of the drill
  • Maximize the ergonomics of the dill
  • Implement safety features to cover the drill bit
  • Provide an aligning feature to align the tool with the tie plate
  • Develop a depth stop and spring assisted tool removal
Specifications
  • About 30 pounds
  • 3-5 seconds per hole
  • A rechargeable battery pack and a commercially available drill
  • Easy to transport anywhere the rail takes you
  • No hydraulic system to risk leaks or environmental hazards