DE4435173A1 - Hard metal cutting plate - Google Patents

Abstract

In the hard metal plate (1) a staged hole (11) is made, the greatest section in dia. of which extends through an essential part of the hard metal plate thickness. Its section with a smaller dia. has a greater dia. than the precision hole (2). In the larger dia. section of the staged hole a platelet (21) of drillable different material is inserted. In the platelet, the precision hole is made within the contour of the smaller dia. section. The platelet is made of a drillable metal or plastics or a plastics-bound composite material. It is adhered in the staged hole, soldered, welded or metallurgically connected with the hard metal plate by another method.

Description

The invention relates to a hard metal plate with at least a precision bore made therein, and a Process for their production.

The field of application of the invention is in particular Tungsten carbide inserts, such as those found in knives heads are used for profile milling and the like, whereby in the Tungsten carbide plate precision bores formed together work with dowel pins or the like for precision positioning the insert in the cutter head or in the cutter head insert holder can be used.

Drilling in carbide can be done at the current state of technology by being made in the raw Sintered body pressed in or in the pre-sintered state be drilled. The holes made in this way are subject to but during the sintering process a shrinking process and are therefore in diameter and also with respect to the mutual distances between two or more holes or of reference edges and with nominal dimensions over about 20 mm with with a tolerance of approx. 1%. Small precision bores, such as those used for receiving locating pins for precision sion positioning of inserts are required can of course not be produced in this way.  

More precise holes can be made in carbide plates either subsequent grinding are generated, which is the case with holes in flat plates only with very complex grinding processes can be done, or it can be drilled through EDM processes or ultrasonic drilling are what but again does not allow sufficient precision and is also expensive.

The invention is therefore based on the object of carbide plates with simple and cheaper to manufacture precision to create drilling holes.

This object is achieved according to the invention by the in the Claims specified carbide plate and the defi therein resolved procedures.

An embodiment of the invention is in the attached Shown schematic drawing, which is a erfindungsge moderate carbide plate shows, in

Fig. 1 in view, and in

Fig. 2 in an enlarged fragmentary longitudinal section taken along the line 2-2 in FIG. 1.

Fig. 1 is designed as a cutting plate for use in a knife head hard metal plate 1 with two produced therein precision bores 2, which serve to receive fitting pin for precision positioning of the cutting insert in the cutting insert holder of the cutter head.

As shown in Fig. 2, each of the two precision bores 2 is made in that a stepped bore 11 is formed in the hard metal plate body, into which a plate 21 is inserted, in which the precision bore 2 is Herge.

The stepped bore 11 consists of a larger-diameter section 11 a, which extends through a substantial part of the hard metal thickness, and of a smaller-diameter section 11 b, the diameter of which is larger than the precision bore 2 . The plate 21 is inserted in the larger diameter part 11 a of the stepped bore 11 , so that it rests with its underside on the shoulder of the stepped bore. The plate 21 can be made of a drillable metal and soldered into the stepped bore, welded or otherwise connected metallurgically to the hard metal of the hard metal plate 1 , or the plate 21 can also consist of plastic or a plastic-bonded composite material and bore in the steps be glued in. Gluing is also possible in the case of a plate 21 made of metal.

The production takes place as follows: In the hard metal plate 1 , the stepped bore 11 is first made in the course of its production, in that it is pressed into the sintered blank or drilled in the pre-sintered state. After the sintering of the hard metal plate, the plate 21 made of metal or plastic is soldered or glued in, and then the hole 2 can now be made with the greatest accuracy on a coordinate boring machine.

Compared to the previous methods, this method enables a much more cost-effective production of precision bores in hard metal plates without impairing the function of the hard metal plate in any way, since their formation as hard metal is only necessary in the area of the cutting edge 12 .

Claims (6)

1. hard metal plate ( 1 ) with at least one precision bore ( 2 ) formed therein, characterized in that a stepped bore ( 11 ) is introduced into the hard metal plate, the larger diameter portion ( 11 a) of which extends through a substantial part of the hard metal plate thickness and whose smaller diameter section ( 11 b) has a larger diameter than the precision bore ( 2 ), and that in the larger diameter section ( 11 a) of the stepped bore ( 11 ) a plate ( 21 ) lying on the shoulder of the stepped bore drillable foreign material is inserted, in which the precision bore is made within the contour of the smaller diameter section ( 11 b) of the stepped bore. 2. Tungsten carbide plate according to claim 1, characterized in that the plate ( 21 ) used in the stepped bore consists of a drillable metal. 3. Hard metal plate according to claim 1, characterized in that the plate ( 21 ) used in the stepped bore ( 11 ) consists of a plastic or a plastic-bonded composite material. 4. Tungsten carbide plate according to one of claims 1 to 3, characterized in that the plate ( 21 ) is stuck in theufenboh tion ( 11 ). 5. Hard metal plate according to claim 2, characterized in that the plate ( 2 ) in the stepped bore ( 11 ) is soldered, welded or otherwise metallurgically connected to the hard metal plate. 6. A method for producing a hard metal plate ( 1 ) according to any one of claims 1 to 5, characterized in that in the course of the production of the hard metal plate, thestufenboh tion ( 11 ) is pressed into the sintered blank or drilled in vorgesin tertem state, that then after completion the actual hard metal plate, the plate ( 21 ) in the larger diameter section ( 11 a) tion of the stepped bore ( 11 ) is inserted and fastened therein, and that the precision bore ( 2 ) is then drilled into the plate ( 21 ).