Bench grinder
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A bench grinder is a benchtop type of grinding machine used to drive abrasive wheels. A pedestal grinder is a similar or larger version of grinder that is mounted on a pedestal, which may be bolted to the floor or may sit on rubber feet. These types of grinders are commonly used to hand grind cutting tools and perform other rough grinding.[1]
Depending on the grade of the grinding wheel it may be used for sharpening cutting tools such as lathe tools or drill bits. Alternatively it may be used to roughly shape metal prior to welding or fitting.
A wire brush wheel or buffing wheels can be interchanged with the grinding wheels in order to clean or polish work-pieces. Buffing wheels can also be used when polishing or deburring is the task at hand. Some buffing machines (buffers) are built on the same concept as bench grinders except for longer housings and arbors with buffing wheels instead of grinding wheels.
Bench grinders are standard equipment in metal fabrication shops and machine shops, as are handheld grinders as well (such as angle grinders and die grinders).
Operation (including safety standards)
Wheel speed
Wheels come with maximum RPM ratings printed on the label (paper blotter). The grinder's RPM must be equal or lower. Greatly overspeeding a grinding wheel makes it explode, which can injure or kill the operator like a gunshot would.
Workpiece material suited to wheel grade
Grinding wheels designed for steel are not be used for grinding softer metals, like aluminium. The soft metal gets lodged in the pores of the wheel and later expands with the heat of grinding. This can dislodge pieces of the grinding wheel, causing injury.
Sides of wheel versus periphery
Grinding is prohibited on the side of a typical (disk-shaped) bench grinder wheel, which is designed for grinding on the periphery only. Risk of wheel explosion otherwise threatens. Some tool and cutter grinders have cup-shaped wheels designed to do grinding on the side.
Tool rest and spark arrestor placement
The tool rest needs to be tight and within 2 to 3 mm of the wheel (1/16" to 1/8"). This prevents the workpiece from slipping down between the wheel and the tool rest. The spark arrestors catch stray sparks.
Wheel guards
The wheel guards serve to intercept the fragments of an exploding wheel, keeping them from killing people or damaging surroundings. This is why running a grinder without the guards is prohibited.
Wheel dressing
Bench grinder wheels sometimes need to be restored to roundness and given a fresh grinding face with newly exposed grains. This is achieved by dressing them. When bench grinders vibrate excessively, it is usually because the wheels have worn out of round and are thus out of balance. Truing them by dressing usually resolves this problem.
It is also possible to arrange the weight distribution of the wheels for better balancing. There are several methods of doing this, all being conceptually analogous to tire balancing with wheel weights. This is sometimes achieved by drilling a few holes in the large washers that hold the grinding wheels and then finding the angular orientation at which the holes' lack of weight balances out a heavy spot elsewhere on the rotating mass. Another method is a dedicated type of large washer with little weights that can be screwed down wherever needed for balancing. Most bench grinders never have these operations performed, because wheel dressing alone is enough to keep them sufficiently balanced, but these additional methods are not unusual either.
Wheel replacement
Wheels sometimes need replacing. The grinder is unplugged, and then the outer guard is removed. Typically a large nut holds the wheel on the arbor. The handedness of each nut is assigned to avoid any loosening tendency during grinder use. Thus on a typical grinder the nut is left-handed on the left side of the grinder from the operator's viewpoint, with wheel rotation "toward" the operator (if the wheel could travel). On the other side the nut is right-handed. Holding the wheel against the wrench's turning action is difficult, but usually the wrench is gently tapped with a hammer instead, which neatly taps the nut loose. A large steel washer is on either side of the wheel, then a paper washer (blotter), then the wheel. The paper is conventionally held to be absolutely necessary to prevent the steel washer from bearing directly against the wheel and tending to crack it; trained workers are expected to know and obey this rule. The wheel's inner diameter may meet the arbor precisely or may be larger with a bushing to reduce it. Before the new wheel is mounted it is ring tested, which involves gently tapping it with a fingernail or tool handle to hear its high-pitched ring, indicating that it is not cracked. It is rung in various spots to be sure. A "flat" or "hoarse" sound (failing to "sing") indicates a crack. With the wheel having passed the ring test, the bushing (if any), wheel, paper blotters, steel washers, and nut are assembled, and the nut is tightened, not as hard as possible, but enough to be firmly fastened in place. The guard is reinstalled, and then the grinder can be plugged in again. Dressing may be needed afterward. When the wheel is first started, the operator stands a bit off center, so that if it were to explode, less pathway for injury exists.
References
- ^ Krar, Stephen F.; Gill, Arthur; Smid, Peter (2003), Machine tool technology basics, Industrial Press, p. 33-1, ISBN 978-0-8311-3134-0.