JPH03202278A - Composite grindstone - Google Patents

Abstract

PURPOSE:To obtain an excellent composite grindstone having a long life by embedding a grindstone piece in resin, and by dispersing and solidifying grind stone particles therein. CONSTITUTION:A grindstone 4 is embedded in a resin base 4 and further, grindstone particles 3 are dispersed and solidified therein. Thus, a sufficient polishing ability is ensured by the grindstone piece 4, and an additional grinding ability is given by the grindstone particles 3. In addition, the grindstone 4 and the grindstone particles 3 are firmly held in the resin base 2, and accordingly it is possible to restrain the grindstone from missing its corners caused by a corner of a workpiece entering into a gap between grindstones due to that the polishingwise width of the grindstone 1 is widened. Further, during polishing, the outer surface of the resin base 2 is worn, so as to prevent the surface pressure from lowering, and the grindstone particles 3 which are dispersed and solidified project so as to give a polishing effect, thereby it is possible to reduce the width of the grindstone piece 4 without deteriorating the cutting ability thereof.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a composite grindstone for a polisher used for grinding, polishing, etc. of stones, building materials, etc.

[Conventional technology and its problems]

BACKGROUND ART Conventionally, as grindstones for polishers used for polishing, grinding, etc. of stones, etc., metal bond stick-like grindstones are attached radially at predetermined intervals from the center of the polisher. When polishing stones, etc. using such conventional whetstones, the width of the stick-shaped whetstone is small, so the intervals between the whetstones are wide, and the corner of the work gets between the whetstones, causing the edge of the whetstone in the polishing direction to There was a problem in that parts were missing, etc.

In order to prevent this, countermeasures have been considered, such as: 1) increasing the number of grinding wheels, 2) increasing the width of the grinding wheels, and 2) filling the gap between the grinding wheels with resin. However, although methods (1) and (2) increase the contact area between the grindstone and the workpiece, they are not practical because they increase costs and deteriorate the polishing power due to a reduction in polishing pressure.

In addition, although method (■) can prevent corner chipping, it has the problem that the polishing pressure decreases and the polishing power is insufficient, and polishing takes time, but increasing the pressure puts strain on the machine. there were.

Therefore, a composite whetstone in which a stick-shaped whetstone is wrapped in resin has been considered, but when polishing such a whetstone, the resin decreases quickly, the effect of wrapping with resin is small, and the polishing pressure decreases and the polishing power is inferior. Has a point.

An object of the present invention is to provide a composite whetstone for polishers which has excellent polishing power, is prevented from chipping, and has a long life.

[Means for solving problems]

The composite grindstone of the present invention is attached to a polisher, and has grindstone pieces made of diamond abrasive grains or cubic boron nitride abrasive grains and metal powder embedded in the base, and diamond abrasive grains or cubic boron nitride abrasive grains and metal powder. It is characterized by the fact that grinding stone powder made of powder is dispersed and solidified.

A composite grindstone according to another aspect of the present invention is configured such that the grindstone pieces are located at least at the end face in the polishing direction.

[For production]

In the present invention as described above, the grindstone pieces are embedded in the resin base and the grindstone powder is dispersed and solidified, so the grindstone pieces ensure sufficient polishing power, the grindstone powder provides further polishing power, and at the same time These grinding stone pieces and grinding stone powder are firmly held in the resin base, and the width of the grinding wheel in the polishing direction is widened, which reduces the possibility of the corner of the workpiece entering the gap between the grinding wheels and causing corner chips of the grinding wheel. This prevents the surface pressure of the resin base from being worn out and the surface pressure decreases, and the dispersed and solidified grindstone powder protrudes and participates in the polishing, so the width of the grindstone piece can be reduced without impairing sharpness.

Furthermore, by arranging the grindstone pieces at least at the ends in the polishing direction, uneven burring of the resin base is prevented and the polishing power is further improved.

The present invention will be explained in detail below.

FIG. 1 shows an embodiment of a composite grindstone according to the present invention. In FIG. 1, a composite whetstone 1 includes a resin base @2 in which whetstone powder 3 is dispersed and solidified, and a plate-shaped whetstone piece 4.
is embedded and configured.

In the present invention, the grindstone powder 3 and the grindstone pieces 4 are made by mixing diamond abrasive grains or cubic boron nitride (CBN) abrasive grains with metal powder, and molding and sintering the mixture. The metal powders used in the present invention include single powders of copper, iron, nickel, etc., various alloy powders, and mixed powders of single metals, and malleable metal powders can also be used.

Particularly preferred are Ni-Cu-8n, Ni
Cu-8n-P, Ni-Zn, Cu-5n, Cu-8n
-Zn etc.

In addition to the plate-shaped grindstone piece 4 shown in FIG. 1, the grindstone piece 4 in the present invention has an appropriate shape such as a rod-like shape or an annular shape as shown in FIGS. More preferably, the grindstone piece 4 is embedded so as to be located on the end face of the composite grindstone in the grinding direction as shown in (d) to (f) of FIG.

Further, the grindstone powder 3 may be in the form of particles, including irregularly shaped ones, prepared by a known appropriate method 1, such as a pulverization method, but it is more preferably spherical or cylindrical. And the particle size is about φ0.1 to φ5 old,
More preferably, the diameter is about φ to φ3 mm. In order to obtain uniform whetstone powder that is spherical or cylindrical and has almost no variation in particle size, screen printing, stencil printing, molding, hot pressing, molding, etc. are preferably used.

These grindstone powder 3 and grindstone pieces 4 are embedded or dispersed and solidified in a resin base 2 of phenol, epoxy, etc., and formed into a grindstone by heat molding, room temperature curing, pressure molding, or the like. The resin base 2 contains diamond, CBN, SiC, alumina, etc. as grinding aids, as well as fillers that are usually added to resin bonded grindstones, such as calcium carbonate, talc, etc.

Alternatively, solid lubricants (molybdenum disulfide, boron nitride, carbon, etc.) may be added.

〔Effect of the invention〕

According to the present invention as described above, since the grindstone pieces are embedded in the resin and the grindstone powder is dispersed and solidified, it is possible to obtain a composite grindstone that has a long life and excellent polishing power.

[Brief explanation of drawings]

FIG. 1 is an explanatory cross-sectional view showing one embodiment of a composite grindstone according to the present invention. FIG. 2 is a cross-sectional explanatory diagram showing another embodiment of the present invention.

Claims (1)

[Claims] 1. A composite grindstone to be attached to a polisher, in which a grindstone piece made of diamond abrasive grains or cubic boron nitride abrasive grains and metal powder is embedded in the base, and diamond abrasive grains or cubic boron nitride abrasive grains are embedded in the base. A composite whetstone characterized by dispersion and solidification of whetstone grains made of abrasive grains and metal powder. 2. The composite grindstone according to claim 1, wherein the grindstone pieces are located at least on the end face in the polishing direction.