DE2222947A1 - Grinding wheel - Google Patents

Description

OR-INQ. DIPL.-INQ. M. SC. DIPL.-PHYS. DR. DIPL.-PHVS. HÖGER - LEGAL RIGHT-GRIESSBACH - HAECKER PATENT LAWYERS IN STUTTGART

A 39 113 m

m - 150

May 9, 1972

De Beers Industrial Diamond Division Limited

8th Floor, 45 Main Street, Johannesburg, Transvaal, South Africa

Grinding wheel

The invention relates to a grinding wheel with an abrasive particle, in particular diamond or cubic boron nitride containing grinding surface.

Grinding wheels, the working area of which differs from the total area The disc is formed have a hub with a central bore, so that the hub on a shaft or a spindle can be attached. The hub itself is made of a carrier material, for example steel, plastic (Bakelite) or Made of light metal. The hub carries on its circumferential surface the actual grinding wheel that is in contact with is brought to a workpiece. For example, the grinding wheel has a thickness between about 3 and 6 mm. On the peripheral surface of the Grinding wheels are grinding particles, e.g. diamond, into one made of hardened synthetic resin or of metal

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: · O 'i ί ¹ '. ⁽ ) / ■) 7 Λ (J ORIGINAL INSPECTED

227- ^ 7 L.

A 39 113 m

m - 150

May 9th 1972 -JT-

Matrix embedded.

Grinding wheels, which certain abrasive particles, for example Include aluminum oxide or silicon carbide, both for a good grinding effect, i.e. high workpiece abrasion, as well as for a relatively low abrasive effect, i.e. a good surface finish or polishing effect, be prepared. So if for a given workpiece first a high grinding effect and then a good one If polishing is required, the same grinding tool can be used to achieve both effects. this However, this is not easily possible with a grinding wheel that contains e.g. diamond or cubic boron nitride. the end For this reason, various grinding wheels of this type have generally been required in order to avoid high workpiece wear or to achieve a good surface finish.

It is the object of the invention to propose a grinding wheel containing diamond or cubic boron nitride which has both is suitable for both rough and fine machining.

The object is inventively achieved in 'that the grinding surface of the grinding wheel comprises at least two coaxial portions, one of which for achieving a high abrasion includes a rough abrasive particles and the other to achieve a fine finishing or polishing action of abrasive particles.

The area containing the coarse abrasive particles will hereinafter become the coarse area and that containing the fine particles The range is called the fine range.

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2 2? 2 9 Λ 7

A 39 113 m

m - 15Ο

May 9, 1972

In a preferred embodiment of the invention, the grinding surface of the grinding wheel consists of two coaxial areas.

In another preferred embodiment of the invention, the grinding surface comprises a central fine area, the is arranged between two coarse areas.

The coarse range is preferably wider than the fine range, wherein the width in practical application can depend on the size of the transverse thrust made during the grinding. The widths of the areas are preferably greater than the cross feed by 20% or more.

It has been found that particularly good results can be achieved when the concentration of the abrasive particles in the or the fine areas greater, preferably three times greater than the concentration of the abrasive particles in the coarse area or areas is. As is known, the concentration is determined by the weight of the abrasive particles per unit volume of the finished abrasive element certainly. In the present case, the grinding element is the effective grinding surface. The concentration is related expressed to a normal of 100, with the weight of the abrasive particles being 72 carats per cubic inch.

The preferred concentrations of the abrasive particles in the fine range vary depending on the matrix used. In the case of a matrix made of hardened synthetic resin, the concentrations are the abrasive particle in the fine range (s) between about 100 and 150. In the case of a metallic matrix is the preferred concentration of the abrasive particles in the or

A 39 113 m ^

m - 150

May 9, 1972 - -Ά -

the fine ranges about 100 to 300.

The preferred concentration of the abrasive particles in the coarse area or areas is, regardless of the material of the matrix, between about 50 and 100.

The fine abrasive particles preferably have a size (mesh fineness) between about 170/200 mesh and 300/350 mesh; the size of the coarse abrasive particles is preferably about between 60/80 mesh and 100/170 mesh.

These particles are advantageous in order to ensure good attachment of the abrasive particles in the matrix of the grinding wheel metal coated.

The following description of two preferred embodiments of the invention is used in conjunction with the enclosed Drawing for further explanation. Show it:

Fig. 1 is a schematic plan view of a first embodiment of an inventive Grinding wheel with two grinding areas and

Fig. 2 shows another embodiment of the invention with three grinding areas.

Fig. 1 shows the effective grinding part 10 of a grinding wheel, which consists of two coaxial areas 12 and 14. Area 12 is the fine area and contains fine diamond shot from 170/200 mesh, while area 14 is the coarse area and contains coarse diamond grit of about 60/70 mesh. The shot concentration of the fine range is about 150 (i.e. 108

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A 39 113 in p

m - 150

May 9, 1972

Carats per cubic inch), while the shot concentration of the Coarse range is 50. The matrix material of both areas 12, 14 is hardened synthetic resin; the diamond shot is metal-coated and known per se under the name DX DA-MC.

In the case of the grinding wheel 20 according to FIG. 2, there are three areas 22, 24 and 26 provided. The areas 22 and 26 are the coarse areas in which the shot fineness and shot concentration as in area 14 of FIG. The area 24 is the fine area, its shot size and shot concentration as are in area 12 of FIG. Synthetic resin is used again as the matrix material and DX DA-MC as the shot.

In operation, the grinding wheels according to the invention are used for grinding workpieces, in particular made of metal. With the aid of a grinding wheel according to FIG. 2, a grinding process with a cross feed from opposite directions. As the sanding progresses, the sharp edges 28 (shown in dashed lines) of the effective grinding areas wear out and become round, like this is shown in the drawing with solid lines. The outer areas 22, 26 grind most of the workpiece material away, while the central area 24 polishes the surface machined from the outer areas.

Because of the curved profile of the grinding wheel 20, it can happen that the workpiece surface receives a certain waviness. In order to reduce this waviness, the grinding wheel 10 can be used according to FIG. 1, the transverse feed only

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m - 150

May 9, 1972 - Sr -

takes place in one direction, i.e. in the direction of arrow 16. The profile of this grinding wheel is given a lower profile during operation Curvature (shown in Fig. 1 with solid lines) than the corresponding curvature according to Fig. 2. This has the effect of that the waviness is reduced considerably. In addition, "such a grinding process is more effective because during the Grinding a larger amount of diamond is used. Consequently become a lower grinding wheel cost and a better one Surface finish achieved when a grinding wheel according to FIG. 1 is used with a cross feed in only one direction will.

In the illustrated embodiments of the invention, there was more metal-coated Diamond shot for application; however, other substances can also be used as abrasive particles, for example cubic boron nitride.

209849/0748

Claims (1)

A 39 113 ra ty in - 150 May 9, 1972 Patent claims: (1st grinding wheel rait a grinding particle, in particular
Diamond or cubic boron nitride, containing grinding surface, characterized in that the grinding surface
at least two coaxial areas (12, 14; 24, 22, 26)
has, one of which to achieve a high
Abrasive coarse abrasive particles and the other contains fine abrasive particles for finishing or polishing effect. 2. Grinding wheel according to claim 1, characterized in that the grinding surface consists of two coaxial areas (12, 14). 3. Grinding wheel according to claim 1, characterized in that the grinding surface has a central region (24) with fine
Abrasive particles and two outer regions (22, 26) with coarse abrasive particles. 4. Grinding wheel according to one of the preceding claims, characterized in that the concentration of the grinding particles in the area or areas (12, 24) with fine grinding particles is greater than the concentration of the grinding particles
in the area or areas with the coarse abrasive particles
is. 5. Grinding wheel according to claim 4, characterized in that the ratio of the concentration of the fine abrasive particles to the concentration of the coarse abrasive particles is about 3: 1. - 2 - 209849 / 07A8 A 39 113 m m - 150 May 9, 1972 6. Grinding wheel according to one of the preceding claims, characterized in that the grinding surface has a matrix made of synthetic resin and the concentration of the fine grinding particles in the corresponding area or areas (12, 24)
is about 100 to 150. 7. Grinding wheel according to one of claims 1 to 5, characterized in that the grinding surface has a metal matrix and the concentration of the fine grinding particles in
the corresponding area or areas (12, 24) is approximately 100 to 300. 8. Grinding wheel according to one of the preceding claims, characterized in that the concentration of the coarse
Abrasive particles in the corresponding area or areas
(14, 22, 26) is about 50 to 100. 9. Grinding wheel according to one of the preceding claims, da- ■ . characterized in that the fine abrasive particle size is between about 170/200 mesh and 300/350 mesh. 10. Grinding wheel according to one of the preceding claims, characterized characterized in that the size of the coarse abrasive particles is between about 60/80 mesh and 100/170 mesh. 209849/0