UA73808C2 - Method for regeneration of diamond tool - Google Patents

Abstract

Invention relates to the methods of production and restoring the stone-cutting tool with repeated use of diamond-bearing layer of the worked out elements. The method of regeneration of diamond tool includes the separation of the worked out diamond-bearing elements from the housing of tool and shaping of new diamond-bearing layer. The worked out diamond-bearing elements are selected in pairs by the method of selective choice, in order to form the elements of identical height, they are rigidly connected between them by substrates, and then they are rigidly attached to the housing of the tool at the place of isolated elements. Diamond-bearing elements are separated from the housing of tool by its heating to the temperature exceeding melting point of the solder. The substrates of diamond-bearing elements are connected between them with the help of soldering. Formed elements, which contain diamonds, are attached to the housing of tool also with the help of soldering, in this case the substrates are mounted perpendicularly with the surface of housing. Invention allows to simplify the technology of restoration of diamond tool without use of special equipment and instrumentation, and thus, to increase the volume of the production treated by it.

Description

Description of the invention

The invention relates to machine tool construction, in particular, to methods of manufacturing and rebuilding 2 stone-cutting tools with repeated use of the diamond-bearing layer of spent cutting elements, and can be used at electrode factories, for example, for processing carbon graphite blocks.

It is known (I.P. Zakharenko, book "Diamond instruments and machining processes", Kiev, "Tehnika", 1980, p. 87) that during deep grinding, a chamfer is formed on the working surface of a diamond tool, the size of which gradually increases and becomes equal to the height of the tool. During further operation of the tool, the diamond-bearing layer wears 710 until the tool body rubs against the material being processed.

When using diamond elements as a diamond-bearing layer of a stone-working tool, for example,

TU 2-037-1.047-80, there are fragments of spent elements containing diamonds that go into waste.

The well-known G. "Method of manufacturing a tool for stone processing", Russian patent Mo2066621, IPC 7" v24017/001, according to which the tool is formed from interwoven copper particles of an elongated shape, impregnated with 79 depkofusible solder and coated with diamond powder. Regeneration of this tool is done by surfacing the working layer of the same composition.

The disadvantage of the known method is the need for diamond powder, which is expensive, necessary for the regeneration of the working layer.

A known method of regeneration of a diamond tool, I.V.N. Bakul, book "Basic design and manufacturing technology of abrasive and diamond tools", Moscow, "Mashinostroenie", 1975, pp. 251-254). According to this method, the diamond-bearing layer is separated from the body of the tool by mechanical processing and then the diamonds are extracted from it. To do this, the separated diamond-bearing layer is treated with acids or alkalis that dissolve the bond, but do not affect the diamonds.

The sequence of operations and the chemicals used are chosen depending on the composition of the bond. The diamonds selected from 79 can be used to form the diamond-bearing layer of a diamond tool. Go)

However, the known diamond tool restoration technology is difficult because the chemical process of dissolving the bond must be carried out very carefully with special precautions. In addition, special equipment and tools are required to make a tool from the obtained diamonds.

The invention is based on the task of simplifying the technology of restoring a diamond tool and increasing the volume of products processed by it due to the most complete use of elements containing diamonds, and (a) forming a diamond-bearing layer from them without the use of special equipment and equipment.

The problem is solved by the fact that in the method of regeneration of a diamond tool, which includes the separation of spent elements containing diamonds from the body of the tool and the formation of a new diamond-bearing layer from them, according to the invention, the spent elements containing diamonds are selected by the method of selective selection pairwise and rigidly connected with each other with substrates, in such a way that they form elements - which contain diamonds, of the same height. Then they are rigidly attached to the body of the tool in place of the separated elements. At the same time, elements containing diamonds are separated from the tool body by heating it to a temperature higher than the melting point of the solder connecting the elements to the tool body. Substrates of elements containing diamonds are connected to each other by means of soldering. Formed elements containing -o diamonds are attached to the body of the tool also with the help of soldering, while the substrates are installed perpendicular to the surface of the body. :z" There is a cause-and-effect relationship between the set of essential features of the claimed invention and the technical result that can be achieved. Restoration of a diamond tool due to a simpler method of forming a diamond-bearing layer from partially spent elements containing diamonds, without the use of -1 15 special equipment and equipment, will simplify the technology of restoration of a diamond tool and additionally process 3095 carbon graphite blocks. (95) The proposed method of regeneration of the diamond tool does not require special equipment and equipment and can be performed at existing enterprises of the electrode and stone processing industry, which are equipped with high-frequency current installations (HTVCHU) or other equipment for heating and soldering. (ав) 50 The essence of the invention is explained by the drawings, where Fig. 1, 2 shows the insert of a diamond end mill with the boundaries of the diamond-bearing layer before the wear of the tool and after the wear of the tool, in (Fig. 3, 4, 5 this insert is shown after the restoration of the diamond-bearing layer tool

The method is carried out as follows.

The insert (Fig. 1, 2) with spent elements 1, containing diamonds, is heated on the installation by a high-frequency current 59 or by another method to the melting temperature of the solder. Used elements 1 containing

GF) diamonds, separated from case 2, cleaned of contamination. Then, from them, by the method of selective selection, 7 are chosen suitable for repeated use and selected in pairs in such a way that when connecting (Fig. 5) the elements 71 with substrates C, they form parallelepipeds of the same height, which are then installed with substrates C perpendicular to the cleaned and heated surface of the body 2. Solder and flux used previously for soldering elements containing diamonds are used for fastening. After cooling, the inserts are cleaned of contamination and used in cutters for processing carbon graphite or other stone-like material until the diamond-bearing layer is completely worn.

Thus, the application of the proposed solution will simplify the technology of restoring the DB of the diamond tool and increase the volume of processed products by 3095.

Claims (4)

The formula of the invention 1. The method of regeneration of a diamond tool, which includes the separation of spent elements containing 2 diamonds from the body of the tool and the formation of a new diamond-bearing layer from them, which is characterized by the fact that, by the method of selective selection, the spent elements containing diamonds are selected in pairs and rigidly from are joined together by pads in such a way as to form elements containing diamonds of the same height, and then rigidly attached to the body of the tool in place of the separated elements. 2. The method according to claim 1, which differs in that the elements containing diamonds are separated from the body of the tool by heating it to a temperature higher than the melting temperature of the solder connecting the elements to the body of the tool. Q. The method according to claim 1, which differs in that the substrates of the elements containing diamonds are connected to each other by means of soldering. 4. The method according to claim 1, which is characterized by the fact that the formed elements, which contain diamonds, are attached to the body of the tool by means of soldering, while the substrates are installed perpendicular to the surface of the body. all that about (ee) Zo about (ee) Ge) - - a - and (95) (ee) (av) so ko bo b5