Among shops that suffer from techno-phobia, many jump into EDM work believing, “I just have to have the machine, and my guys can change these electrodes in and out.” This mindset usually results in a lot of downtime for machines.

People can get distracted or called away on another job, and before they know it, a machine can sit idle for hours.

This kind of downtime is a killer for any shop, but especially for shops trying to keep up with today’s just-in-time customer demands. The good news is that this downtime is completely avoidable. You do not need a process engineer or engineering firm to automate your operation for you. All it takes is an EDM or robotics vendor to work with you to customize it to your EDM drilling operation.

A simple toolchanger that adds only about $20,000 to the cost of an EDM drill can keep an EDM drill running until all the electrodes in the carousel have been used up. We’re not talking about huge amounts of space here; we’re talking about brass pipes that are perhaps 150 mm to 400 mm long and 1mm in diameter.

Robots are more costly, but accomplish much more in return. While carousels typically hold anywhere from eight to 20 chucks—depending on the vendor—robots can handle 50 tool chucks or more. It all depends on how you have the toolholding rack designed. The robot doesn’t care, as long as it can reach the tool.

Robots also can change out guides. This type of automation is more advanced than most shops require; however, it is particularly useful if a part requires two or more differently sized electrodes because each new size requires a new guide that matches its own diameter.

In addition, and more important, relying on the toolchanger to do what you otherwise would need operators to do frees up those valuable operators to do the higher-level tasks that truly add value to your operation. The concern here is not so much time as it is making the best use of your people.

For example, it usually takes an automatic toolchanger 90 to 120 seconds to replace a small drill chuck. An operator might do it in 40 seconds. It’s like a toolchanger on any other machine. The operator can always change it faster, but he has to be there (and he probably will not be there in the middle of the night).

The issue is not change-out time—operators can actually do it faster. The issue is not accuracy, either. While automation reduces human error in change-outs, it does not improve machine accuracy at all. The issue is people, and your people should have more productive things to do than standing around—such as helping to plan the next job for their machines.

In fact, the most successful mold shops are the ones that plan the best, especially in the current environment of just-in-time machining. To keep up, shops must spend an enormous amount of time planning jobs. They have to hit their numbers just right—how long a piece is going to be in the grinder, then the mill, then the wire EDM, then the sinker EDM.

There is precious little room for error, so planning is key. However, planning is generally done at a desk, away from the action on the floor. So the only way to keep that EDM drilling machine running consistently is to automate.

A word of advice: As much as the operators at the bench hate to admit it, that guy who sits at the desk and actually designs the molds and dies has the best view of the whole job. The people on the floor know a lot, but not all the little details. The designers see the overall picture, and the most successful shops allow the designers to run the production through the shop. The more the designers and operators communicate in the planning process, the more efficient the shop will be—and the better use it can make of automation.

Shops looking to make the most of their automation also should consider employing a chiller unit on their machines to keep the system as stable as possible. They also should make sure that the system they use to deionize their water is reliable, and that the diameter of the electrodes they use is uniform. Otherwise, all of the time they gain by automation will be stolen by electrodes sticking in guides or an overheated machine