The present invention relates to grinding. More particularly this invention concerns a grinding apparatus.
A typical grinding wheel is disk-shaped and is centered on an axis about which it is rotated when in use. The wheel has a generally cylindrical outer surface centered on the axis, and a pair of faces lying in respective planes perpendicular to the axis. At least a ring of material along its outer edge is made of an abrasive material.
U.S. Pat. No. 8,062,097 describes such a wheel adapted for abrasive rings that are rotation symmetrical but not cylindrical, for instance frustoconical. Such surfaces are seen on crowned main bearings and pins of crankshafts. To conform the outer surface, that is the radially outwardly directed outer periphery, of the grinding wheel, this patent proposes forming the ring of grinding material along the outer rim so that it is not symmetrical to a plane bisecting the disk and perpendicular to the disk axis. The disk is made somewhat flexible inward of this outer ring so, when the disk is rotated at high speed, the asymmetrical weight of the outer ring bends it to one side or the other and orients its outer surface such that the ring of abrasive can grind the noncylindrical camshaft surface. Different rotation speeds produce different deformations and different angles.
Grinding at different speeds necessarily excludes the possibility of dressing the grinding wheel at the nominal grinding speed. In addition, the method requires that the spindle speeds be matched to the specific deformation so that these speeds are no longer available as parameters for other modes of process optimization.
It is therefore an object of the present invention to provide an improved grinding disk and apparatus.
Another object is the provision of such an improved grinding disk and apparatus that overcomes the above-given disadvantages, in particular that has an outer grinding edge that can be deformed to produce the desired workpiece geometry while avoiding the known disadvantages of the prior art.
A grinding wheel assembly has according to the is invention a support disk centered on an axis and having an outer edge and a pair of axially opposite faces. An annular abrasive ring is juxtaposed with the outer edge, and a flexible hinge formation joins the ring to the outer edge of the disk at one of the faces. An actuator body of controlledly radially variable dimension joins the ring to outer edge of the disk at the other of the faces for deforming the ring and flexing the hinge formation so as to vary a shape of an outer face of the ring radially of the axis.
Thus with this system the exact shape of the outer face of the abrasive ring can be controlled remotely. The control can be very accurate, and can be monitored by sensors in a feedback system to ensure exact position of the outer ring surface.
According to the invention the disk is formed with an annular and axially open groove radially inward of the abrasive ring and defining an outer annular strip to which the ring is attached. The hinge formation is unitarily formed with the strip and with the disk. The actuator is annular and is braced radially between the strip and the support disk.
In one embodiment of the invention, the actuator is an annular body of material that can be thermally expanded or contracted. It can be associated with means for cooling, e.g. a nozzle emitting a cold fluid and thereby radially shrinking the annular body. Alternately it is provided with means for heating the body. In this latter case the annular body can be of a material in which eddy currents can be generated by a magnetic field. Means such as an electric coil is juxtaposed with the is body for generating a magnetic field that generates eddy currents in and heats the body, thereby swelling it. In yet another embodiment the actuator is hollow annular body. Means such as a supply of gas under subatmospheric or superatmospheric pressure and a conduit are connected to the cavity or interior of the body to radially swell or shrink it.
The above and other objects, features, and advantages will become more readily apparent from the following description, reference being made to the accompanying drawing in which:
As seen in
The disk 1 is formed near its outer edge with an axially open annular groove 10 extending almost the full thickness of the disk 1 between its faces 1′ and 1″ and close to the outer periphery of the disk 1 so as to define a narrow hinge region 4 that connects the body of the disk 1 to a thin outer strip 11 of annular shape. The ring 2 is fixed to the cylindrical outer face of this strip 2.
According to the invention the disk 1 is formed radially inward of the annular strip 11 and opening into the groove 10 with an axially open square-section groove 12 in which is provided actuating means in the form of an actuator 5 of controlledly variable radial dimension. This actuator 5 is here an annular body with an inner periphery bearing directly on an inner flank of the groove 12 and an outer periphery bearing directly on a radial inner face of the annular strip 11.
The disk 1 is made of a limitedly elastically deformable material so that the hinge 4 can flex and allow the outer surface 3 of the abrasive ring 2 to assume a shape other than cylindrical, typically frustoconical. Whether the actuator 5 is controlled to reduce or increase its radial dimension determines the angular position of this surface 3.
In
Instead of the induction coil, the actuating or heating/cooling means can be a coolant nozzle 9 associated with the expansion element forming the actuator 5 in
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Number | Date | Country | |
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20140030969 A1 | Jan 2014 | US |