RU2360797C2 - Cutting element of diamond-containing cable rope - Google Patents

Abstract

FIELD: mechanics.

SUBSTANCE: proposed cutting element of the diamond-containing cable rope comprises a load bearing carcass and matrix made from composite diamond-containing material. Note here that the diamond-containing matrix body incorporates easily destructible inserts.

EFFECT: reduced power consumption of destruction process and longer life of cutting tool.

2 dwg

Description

Usage: construction industry, stone processing.

The cutting element of the diamond-containing cable rope contains a supporting metal frame 3 (figure 2) and a matrix of composite material 2 reinforced with diamonds. Inside the matrix along the perimeter are easily destructible inserts 1.

The invention relates to tools used in the construction industry and stone processing in the destruction of reinforced concrete and rock.

Diamond ropes with cutting elements arranged on them consisting of a metal frame and a diamond-containing matrix are known. http://www.hilti.com.

The disadvantage of this design of the cutting element is that in the process of destruction, due to the large contact surface of the cutting elements with destructible material, increased lateral feed forces are required. In the contact zones of known cutting elements with destructible material, an increased temperature of the working end of the tool occurs with its concentration in the run-down part of the sector, leading to abnormal wear and a decrease in the tool life.

Known diamond-containing cables of Russian production "Kermet" http://www.kermet-m.ru. and Cedima http://www.cedima.com for sawing stone, consisting of a core cable with diamond-containing elements placed on it, including a body and a diamond-containing matrix of composite material. The disadvantages of this design include the fact that the contact area of the cutting elements with the processed material requires great efforts for the introduction of diamonds in the processed material. This entails an increase in energy consumption, the occurrence of vibration and excessive temperature effects on the cutting element during operation, causing its abnormal wear. All this ultimately leads to both a reduction in cutting speed and a reduction in tool life.

The present invention is directed to increasing the cutting speed and tool life while reducing the energy intensity of the destruction process.

This problem is solved in the present invention by placing easily destroyed elements 1 in the matrix body (FIG. 2). The cutting element, in the matrix of which are easily destroyed inserts, interacting in the process of working with the processed material, destroys the insert, changes its profile and forms protrusions and depressions on the working surface (Fig. 1). With the formation of protrusions on the working end of the cutting element, the contact area of the cutting element with the processed material changes in the direction of reduction. This entails a reduction in the transverse forces of the tool aimed at the destruction of the material and, as a consequence, a decrease in the energy intensity of the destruction process. The resulting profile of the working part of the cutting element more actively destroys the material in the cutting line.

In the process of operation of the cutting element, the formed form in the form of protrusions and depressions at its working end forms a similar profile in the cut line in the processed material.

The cutting element, interacting with its protrusions and troughs in the process of working with a similar profile of the processed material in the cutting line, reduces the vibration of the tool, stabilizes its operation, thereby increasing its resource.

When the cutting element enters the cutting zone due to the formed protrusions and depressions, the effect of moving the cutting element around its axis appears, which entails uniform wear of the entire tool around the perimeter.

Claims (1)

A cutting element of a diamond-containing cable rope containing a supporting metal frame and a matrix of composite diamond-containing material, characterized in that, in order to reduce the energy intensity of the destruction process and increase the resource of the tool, easily destroyed elements are installed in the body of the diamond-containing matrix.

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