12/26/2023 0 Comments Oscillating spindle sanderOriginal Assignee Ryobi Motor Products Corp Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.) Everts Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.) Expired - Lifetime Application number US08/366,977 Inventor Toshimitsu Hashii Robert G. Google Patents Oscillating spindle sanderÄownload PDF Info Publication number US5558566A US5558566A US08/366,977 US36697794A US5558566A US 5558566 A US5558566 A US 5558566A US 36697794 A US36697794 A US 36697794A US 5558566 A US5558566 A US 5558566A Authority US United States Prior art keywords spindle work table cam oscillating pulley Prior art date Legal status (The legal status is an assumption and is not a legal conclusion. Many up-gauge their shops to account for varying load.- Google Patents US5558566A - Oscillating spindle sander If the difference is more than 5% (or 2% in some cases), you could be slowing frying the tool - but worse, you could be generating too much heat in your home's wiring. With a meter, you can measure voltage at the panel and the tool under load. There are published tables and on-line calculators for amps/distance/gauge/loss: You may not start a fire, but you may slowly cook your tools. So, long thin wires with more amps = worse. Longer, thinner wires have more resistance. Remember high-school physics: resistance generates heat: More resistance = more heat = more loss. For a small load like a benchtop sander, the total run would have to be around 100ft from the panel to hit 5%, assuming the proper gauge wire is run. There are a couple of loss guidelines in use depending on the type of load, but generally you want to stay within a few percent of panel voltage - let's just use the 5% guideline for argument's sake, but some types of load should be within 2% (I use the 2% guidance in my shop). The few feet between outlets won't make a difference. =>at the end of the circuit where I have it plugged in? I do have two separate 20A outlet circuits in my shop FWIW. I thought that circuit was enough to handle both, but ,maybe not. That was a few days ago, today no luck starting it with nothing else going. I turned off the air compressor, and got the sander going with a little help. They were both plugged into the same circuit, 20A circuit. The only thing I can say that I might have done was that I had a pancake air compressor running at the same time I was trying to start it up. I had this happen on a previous one and returned it, and then new one I got seemed fine until now. Initially, I was able to give it a little help, and it would take off. I've tried without the belt attachment or a spindle, and still no luck. Basically, when I turn on the sander it makes a buzzing noise like the motor is trying but cannot turn the spindle. Hopefully you have a suggestion for a fix out there. I'm having some trouble with my ridgid oscillating belt/spindle sander, and I was wondering if anyone else has encountered this. Forgive me if I'm starting a thread that currently exists, but I didn't see it during my search.
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |