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- Jul 8, 2009
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I don't know about you guys, but I'm a little on the lazy side. Consequently my drill press basically ran at the same speed, no matter what I was drilling. It didn't matter whether it was a 2" hole in hardwood with a Forestener bit, or a 1/8" hole in steel - same speed.
Over the weekend I removed this guy from my drill press.
This is a perfectly serviceable 3/4HP 1725rpm motor, it served me well on the drill press for many years.
I replaced it with this.
This is a 750W brushless industrial sewing machine motor and servo controller. I've been wanting to try one of these motor/controllers for a while to possibly re-motor other tools. I thought this was a fairly easy and safe thing to experiment on. In one fell swoop I went from an OK but big and heavy, 3/4HP, single speed 1725rpm motor, to a 1HP variable speed reversible servo motor with a default speed range of 300-3000rpm. (Maximum speed range 100-4500rpm.) That servo motor is about 1/4 the weight and volume of the old motor.
This is what the front panel of the servo controller looks like.
Being intended for a sewing machine this controller is kind of specialized. It comes equipped with a receptacle that you can plug a light into. The problem was that the light's on whenever the servo controller was plugged in. A little internal re-wiring and I moved the light connection so that when the controller is switched on, the light comes on. I also changed out the original 6' power cord to a 12' cord. The original power cord on the drill press was a 10' cord and it was barely long enough to reach the outlet.
This guy comes with a Hall effect speed control that is meant to be connected to the foot pedal on the sewing machine. It had a RATHER hefty return spring that I removed. I found some info on-line about converting the Hall effect senor to a speed pot. I didn't have the parts to to that over the weekend, so for now I running of the original speed control - the parts are in the mail.
I set the drill press belts to give me 1870rpm, this was the closest belt speed range that I could get to 1725rpm. That way the rpm's displayed on the controller is sorta close to the actual speed. One thing that I have discovered is that while I can vary the speed, the display only varies in 100rpm steps. I don't know if this 100rpm step is hard coded into the controller, or if that is a drive parameter that I can change. As a controls engineer it seems kind of silly to have a 4 digit display that only displays 00 as the last 2 digits.
One foible that I may need to learn to live with is that the speed control needs to be returned to 0 before the controller will boot up, you get a Pd Er on the display. I'm guessing they're trying to tell you that you have a foot pedal error. On a sewing machine that's not a BAD thing, it's just a little inconvenient for me. But that DOES mean that you can turn the servo controller on and the light will come on, but the drill won't turn until you increase the speed.
I've only played with the drill a little bit since the upgrade so no real clue if it was worth the $110 or not. I don't doubt that that it would cost you about that much to get a new 1HP single speed AC motor. So I think going from a 3/4HP single speed motor to a 1HP variable speed motor is a good thing.
Don
Over the weekend I removed this guy from my drill press.
This is a perfectly serviceable 3/4HP 1725rpm motor, it served me well on the drill press for many years.
I replaced it with this.
This is a 750W brushless industrial sewing machine motor and servo controller. I've been wanting to try one of these motor/controllers for a while to possibly re-motor other tools. I thought this was a fairly easy and safe thing to experiment on. In one fell swoop I went from an OK but big and heavy, 3/4HP, single speed 1725rpm motor, to a 1HP variable speed reversible servo motor with a default speed range of 300-3000rpm. (Maximum speed range 100-4500rpm.) That servo motor is about 1/4 the weight and volume of the old motor.
This is what the front panel of the servo controller looks like.
Being intended for a sewing machine this controller is kind of specialized. It comes equipped with a receptacle that you can plug a light into. The problem was that the light's on whenever the servo controller was plugged in. A little internal re-wiring and I moved the light connection so that when the controller is switched on, the light comes on. I also changed out the original 6' power cord to a 12' cord. The original power cord on the drill press was a 10' cord and it was barely long enough to reach the outlet.
This guy comes with a Hall effect speed control that is meant to be connected to the foot pedal on the sewing machine. It had a RATHER hefty return spring that I removed. I found some info on-line about converting the Hall effect senor to a speed pot. I didn't have the parts to to that over the weekend, so for now I running of the original speed control - the parts are in the mail.
I set the drill press belts to give me 1870rpm, this was the closest belt speed range that I could get to 1725rpm. That way the rpm's displayed on the controller is sorta close to the actual speed. One thing that I have discovered is that while I can vary the speed, the display only varies in 100rpm steps. I don't know if this 100rpm step is hard coded into the controller, or if that is a drive parameter that I can change. As a controls engineer it seems kind of silly to have a 4 digit display that only displays 00 as the last 2 digits.
One foible that I may need to learn to live with is that the speed control needs to be returned to 0 before the controller will boot up, you get a Pd Er on the display. I'm guessing they're trying to tell you that you have a foot pedal error. On a sewing machine that's not a BAD thing, it's just a little inconvenient for me. But that DOES mean that you can turn the servo controller on and the light will come on, but the drill won't turn until you increase the speed.
I've only played with the drill a little bit since the upgrade so no real clue if it was worth the $110 or not. I don't doubt that that it would cost you about that much to get a new 1HP single speed AC motor. So I think going from a 3/4HP single speed motor to a 1HP variable speed motor is a good thing.
Don