JPS637912B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to an adhesive type grinding sheet made of metal bond.

In the lens grinding process, grinding using diamond pellets has recently become widely used in place of the conventional sanding method that uses a large amount of sand. This is done by means of a diamond pellet of the same curve, which is glued to a plate of a given curve.

The reason why diamond pellet grinding is adopted is that it offers many advantages such as improved grinding efficiency and yield, improved working environment, and easier waste disposal, especially for lenses of the same glass type with the same curve. When grinding a large amount of diamond, diamond pellets are overwhelmingly advantageous in terms of cost.

However, in the case of lenses for astigmatism, there are many types of curves, so pellets with the same curve are used less frequently.In addition, in the case of small lot products such as interchangeable lenses for cameras, pellets with the same curve are used less often and the In this case, it will take a long time to use it all up. The use of diamond pellets for such special purposes is often postponed due to the high prime cost.

In addition to the above-mentioned applications, when a complex-shaped or special-sized diamond tool is required, since truing of metal bonded grinding wheels is generally difficult, the tool becomes extremely expensive and is often not put to practical use as a tool. .

In order to solve the above-mentioned problems, it has been desired to develop a diamond tool that has a low prime cost even at the cost of its life, and various thin adhesive-type grinding sheets have been sold or devised. These are highly flexible and are used by being attached to a plate or base metal having a predetermined curve or shape. One type of grinding sheet is one in which abrasive grains such as diamond are fixed to a base sheet made of copper foil or vapor-deposited metal along with electrodeposited nickel bond.Other types are low melting point sheets that hold abrasive grains such as diamond. A metal bond is mechanically fixed to a base synthetic resin sheet or cloth or attached with an adhesive.

However, with the above-mentioned grinding sheets, the metal bond easily peels off from the base, the types of metal bonds that can be used are severely limited, and excellent metal bonds cannot be used, so the required cutting performance cannot be satisfied or surface accuracy cannot be maintained. It has disadvantages such as being difficult and is not suitable for practical use.

The present invention solves the above-mentioned drawbacks and satisfies the basic requirements for grinding sheets, such as no peeling of metal bonds, sufficient cutting performance, and easy maintenance of surface accuracy. .

That is, an object of the present invention is to provide a stick-on grinding sheet that has excellent durability and improved cutting performance.

According to the present invention, in a grinding sheet made of a support and a metal bond holding abrasive grains provided on the surface thereof, (a) the metal bond is a sintered body of the abrasive grains and sinterable metal powder; (b) the support is a metal mesh that can be sintered with the metal bond; and (c) the metal bond and the wire mesh are combined by sintering.

FIG. 1 is a plan view of the present invention, FIGS. 2 and 3 are enlarged cross-sectional views taken along line XX in FIG. 1, and FIGS. 4 and 5 are
It shows the planar shape of the metal bond used in the present invention.

The present invention will be explained with reference to the drawings.

FIG. 1 shows an embodiment of the present invention, and is a plan view of a grinding sheet in which a metal bond sintered body 1 holding abrasive grains is placed and fixed on a wire mesh 2 serving as a base. 2 and 3 are enlarged views of the cross section taken along the line XX in FIG. 1, and the base portion of the metal bond sintered body 1 and the wire mesh 2 are bonded together by sintering.

Further, on the back side of the wire mesh, an adhesive layer 3 is provided by coating or pressure bonding.
is protected by release paper 4. The abrasive sheet of the present invention may be delivered to the user as the base wire mesh 2 without the adhesive layer 3, but usually, as shown in FIG. 2 or 3, the adhesive layer 3
A release paper 4 and a release paper 4 are provided on the back side of the wire mesh 2. During use, the user often peels off the release paper 4 and presses the adhesive-applied surface onto a tool body such as a plate or base metal. Here, the adhesive layer is not only the adhesive, but also the adhesive layer as a whole, such as a double-sided tape with adhesive applied to both sides of a sheet of cloth, paper, rubber, etc. called backing. Also includes things. The base portion of the metal bond sintered body 1 and the wire mesh 2 are bonded in some cases, as shown in FIG. 2, in a part of the thickness of the wire mesh 2, and in other cases, as shown in FIG. However, even if it is done in a portion as shown in Fig. 2, it is sufficient for practical strength. 4 and 5 show the planar shape of the metal bond 1, in which a large number of voids 5 are formed.

The abrasive grains used in the present invention are diamond, cubic boron nitride, silicon carbide, alumina, titanium carbide, etc., and are not particularly limited.

The metal bond in the present invention is substantially sintered metal powder, and has a composition mainly composed of metal such as copper, nickel, cobalt, or iron. Examples of copper-based metal bonds that are useful include pure copper, copper-tin, copper-tin-silver, copper-tin-nickel, and copper-tin-iron. Examples of nickel-based metal bonds that are useful include pure nickel, nickel-tin, nickel-phosphorus, nickel-zinc, and nickel-copper-tin-phosphorus. As mentioned above, there are a wide variety of metal bonds that require sintering, and if an appropriate bond is selected depending on the application, abrasive grains can be used effectively to provide excellent cutting performance.

The material of the wire mesh used in the present invention may be sintered with the metal bond described above to form a strong bond and maintain sufficient strength for practical use after sintering, such as nickel, stainless steel, copper, phosphor bronze, or brass. etc. are preferable. Furthermore, wire mesh should be understood to include not only the commonly seen woven metal wire screens but also metal screens made from metal sheets by punching or etching and having a large number of pores in various patterns. .

There are no particular restrictions on the shape of the metal bond sintered body used in the present invention on the wire mesh, but
A blade that spreads over the entire base is not preferable in terms of sharpness and is limited to applications where the roughness of the machined surface is important. On the other hand, the metal bond sintered body 1 illustrated in FIG. 1 is distributed in multiple islands, and the metal bond sintered body 1 illustrated in FIGS. 4 and 5 is an integral structure. However, a shape in which the voids 5 are distributed in a plurality of islands is particularly preferable in terms of supply of coolant to the machined surface and discharge of chips.

As described above, the grinding sheet of the present invention has sufficient grinding performance because the metal bond and wire mesh are firmly connected, so the metal bond does not peel off, and a wide range of excellent metal bonds can be used. Since it is based on a rigid wire mesh, it has many performance advantages such as easy maintenance of surface accuracy. Furthermore, in the manufacturing process of the grinding sheet of the present invention, the sintering of the metal bond itself and the sintering of the metal bond and wire mesh can be performed at the same time.
It can be manufactured cost-effectively, and the grinding sheet of the present invention can be supplied to users at a low price.

As described above, the grinding sheet of the present invention has high practical value in terms of performance and price, and can be used for
In addition to glass, it covers a wide range of workpiece materials such as other ceramics, cermets, and metals.

[Brief explanation of the drawing]

FIG. 1 is a plan view of the present invention, FIGS. 2 and 3 are enlarged cross-sectional views taken along line XX in FIG. 1, and FIGS. 4 and 5 are
It shows the planar shape of the metal bond used in the present invention. Metal bond sintered body...1, wire mesh...2, adhesive layer...3, release paper...4, void...5.

Claims (1)

[Scope of Claims] 1. A grinding sheet made of a support and a metal bond holding abrasive grains provided on the surface thereof, (a) The metal bond is formed by sintering a metal powder that can be sintered with the abrasive grains. (b) the support is a metal mesh that can be sintered with the metal bond; (c) the metal bond and the wire mesh are bonded together by sintering. 2. The grinding sheet according to claim 1, which has an adhesive layer on the back surface of the support. 3. The grinding sheet according to claim 1, wherein the metal powder is nickel or copper (single substance or alloy thereof). 4. The grinding sheet according to claim 1, wherein the wire mesh is made of nickel, stainless steel, copper, phosphor bronze, or brass. 5. The grinding sheet according to claim 1, wherein the abrasive grains are diamond or cubic boron nitride.