Overcoming the Limitations of Robotic Arms with Vacuum Grippers
Vacuum grippers are commonly used in robotic automation for picking and packing lightweight and uniform boxes or flat plastic packaging. This type of material handling is relatively simple to perform.
But what happens when a robotic arm needs to pick and place a bag of frozen chicken wings that’s neither uniform nor flat and might even have surface moisture? Or a production line filled with porous water filters that are oddly shaped?
As versatile and capable as vacuum grippers are, they have their limitations. So, how do robotic engineers design robotic cells to overcome these challenges?
What Are Vacuum Grippers?
To start, let’s define vacuum grippers and how they work.
Vacuum grippers are attached to the end of a robotic arm to pick up and move products to a production line, Gaylord rack, shipping boxes, or other locations. Vacuum technology works by moving air, creating a pressure differential between two surfaces — the suction cups and the object’s surface. When the differential is great enough, it creates a seal to join them together.
Typically, a vacuum pump or generator removes the air from the system to create the seal. The greater the pressure and the larger the surface area, the more holding capacity the vacuum seal will need.
There are different types of vacuum grippers, including:
The Pros & Cons of Vacuum Grippers
Vacuum grippers are arguably the most common type of end-of-arm tooling used in material handling, and for good reasons:
I’ve already hinted at the potential disadvantages of vacuum grippers, but let me expound:
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Manufacturers need to weigh the pros and cons and work with an integrator who can thoroughly assess their needs and determine a custom solution.
How Robotics Engineers Tackle Complex Material Handling
Here at QComp, we routinely use vacuum technology where appropriate. For example, we designed a way to pick up large pieces of glass using non-marking vacuum cups to place them in racks without breaking. This is a dangerous task once thought only possible with human hands, but we were able to design a solution.
While creating a seal on glass isn’t difficult, the various sizes and weights of more than 1,000 pounds were. Engineers had to extrapolate precise calculations to determine the exact number of cups required per square inch to accommodate various glass sizes and ensure that the cups weren’t cut when coming into contact with the edges of the glass. We also used zoning where only a designated number of suction cups are activated based on size and weight. These computations are critical for fragile glass because too much vacuum pressure could shatter it and not enough could drop it.
READ MORE → Jumbo Glass Robotic Rack Loading System
Another example is the type of bags used for lawn and leaf refuse. Laid flat, they couldn’t be picked up with vacuum grippers because they’re too porous. But folding them in an accordion style creates enough differential to grip them. Inconsistent products may require cups with bellows that allow one to reach farther than an adjacent cup to make up for irregularities.
When presented with such challenges, we first seek to fully understand the need, preferably visiting the facility to see the manufacturer’s current process for handling the materials. Then, we’ll assess the situation and collaborate with one of our robotics partners like Fanuc, Stäubli, or ABB.
If we determine that vacuum grippers aren’t the best solution, we’ll pursue an alternative type of gripper, such as:
Soft grip technology works well to overcome products that do not hold their shape. For example, dough balls that have been covered in vegetable oil work best with silicone finger grippers because vacuum grippers simply won’t work. All that said, there often is no single solution. Sometimes, we’ll engineer more than one type of gripper into a robotic arm to transport a product.
Do you have a complex material handling challenge? Robotic capabilities have advanced significantly in recent years, so if you previously thought something wasn’t possible, it may be the right time to take another look. We’re up for the challenge. Contact the team at QComp to see how we conquer complexity and work with you to find a solution.