Author: Tronserve admin
Tuesday 3rd August 2021 09:04 AM
Here’s How Machine Vision Benefits Injection Molding
In part one of this piece, we explored why machine vision is an improvement over existing quality control techniques for manufacturers who rely on injection molding for mass production. Now, in part two, we’ll get into the nitty-gritty of how this process works, which types of companies and processes benefit the most from it, and whether there are any downsides.
What Is Machine Vision?
Machine vision uses one or more cameras, instead of many sensors, to take images of parts and molds alike throughout the entire work cycle. The result is greater accuracy than what a typical 2D inspection system can achieve. It’s also applicable to virtually any molding operation. In a nutshell, here’s what it offers:
- It tells machine operators whether or not parts are present in the molds, in addition to whether cores, slides and ejectors are properly placed, and that double inserts have not been placed.
- The operator can tell at a glance whether parts are stuck in one side of the mold, both or neither.
- Software accompanying the camera(s), plus the selective application of light, can detect faults and errors and automatically pause the cycle until a machinist can respond.
- The application of light and photography continues until the machine and mold apparatus are aligned properly, present and accounted for.
Any injection molding specialist will tell you a short shot can be a time-consuming mistake that results in employee re-work to ensure the mold gets filled the next time around. Machine vision for molding takes care of this problem, first by preventing damage to your machine that might compromise its ability to fill molds, and second, by offering a more appropriate and consistent speed and pressure for the manufactured part.
Some parts are too convoluted or complex to facilitate the smooth filling of the mold, and situations like this might call for a redesign. But for most machine shop needs, short-shot parts will likely become a far less frequent occurrence after the transition to a vision-based molding machine inspection system.
Vision mold protection has historically been cost-prohibitive for all but the most established molding companies. But that’s not the case any longer, with many manufacturers of such systems boasting they can now pay themselves, through higher productivity and less waste, in a matter of months or even weeks.
Who Can Use Vision-Based Mold Protection Systems?
Molding machine operators and company decision-makers will be pleased to know there are very few applications in which vision mold protection will not work with your existing equipment. If any of the following apply to you, you can almost certainly bring machine vision to your shop:
- You work with horizontal or vertical machines, or both.
- You perform die-casting, metal injection molding or micro-molding.
- Your company engages in foam molding at low pressures or uses molds with multiple cavities.
Versatility and flexibility are the primary advantages of a machine vision system over incumbent methods of mold protection. Even so, some of the most widely touted specific applications include the manufacture of electrical connectors, parts with delicate features such as pins and any other molding process where the workpiece contains a high number of cavities.
Are There Any Downsides?
There’s a good chance you’re familiar with the benefits of applying various coatings to mixing and molding equipment — to extend the longevity of your equipment and to ensure a more consistent final product. Depending on the work you do, this could complement, rather than replace, the addition of a machine vision system. Both have their place.
Many see vision-based systems as the future of the industry, however. You’ll have a choice of multiple vision-based mold protection systems, but not all of them will offer the same ease of use. There are some one-size-fits-all machine vision systems you can incorporate and set up as you would any other piece of aftermarket hardware. But these sometimes come with steep learning curves.
Whenever you can, see a demo of any system you’re looking at. Get a sense of the intuitiveness of its user interface and ask the company offering it whether they designed it for use by machinists of all skill levels, or whether professional-caliber setup and calibration is necessary. Again, you’re likely to find multiple providers looking to meet various skill sets and industrial requirements. More than anything, don’t feel pressured to adopt a system you don’t feel comfortable with, or that doesn’t quite suit the work you do or the pace at which you do it.