RU124733U1 - TANGENTIAL TURNING CUTTER - Google Patents

Abstract

1. A tangential rotary cutter, including a conical working head, equipped with carbide core and grooves evenly distributed over its surface, a cylindrical holder having a shank with an annular groove under the retaining ring, characterized in that grooves are made on the shank. 2. The tangential rotary cutter according to claim 1, characterized in that on the surface of the conical working head and in the grooves gas-plasma spraying is made with reinforcing materials.

Description

The technical solution relates to mining and can be used to equip the executive bodies of treatment and sinking mining machines.

Known tangential rotary cutter (RF patent for utility model No. 44744, E21C 35/18, publ. 03/27/2005), comprising a carbide insert and a housing having a head and a tail, the ratio of the length of the head to the length of the tail is selected in the range of values is 0.8–1.2, and the radius of the cross section of the head part increases from the carbide insert to the shank with quasilinear intensity.

The disadvantage of this cutter is its uneven wear during operation, which leads to a decrease in efficiency.

The closest in technical essence and a combination of essential features is a cutter for mining machines (RF patent No. 2168016, Е21С 35/183, published in BI No. 15 for 2001), including a conical working head equipped with carbide core and groove, a cylindrical holder ending with a shank with an annular groove under the snap ring. In this case, the groove is placed in the joint zone of the cylindrical holder with a conical working head and is made two-plane with mutually perpendicular planes, and the main working plane of the groove is located at right angles to the plane of the axial section of the cutter and rotated relative to its center line by an angle of 10 ÷ 45 °. The faces of the main working planes in the grooves are hardened, for example, by gas-plasma spraying of chromium.

The disadvantage of this cutter is the hardening of only the faces of the main working planes in the grooves of its surface, and this can cause uneven wear, which in turn increases the likelihood of jamming or the occurrence of runout, which reduces the reliability of the structure, and, consequently, the efficiency of rock destruction.

The technical task of the proposed solution is to increase the efficiency and reliability of the tangential rotary cutter by ensuring uniform wear of its surface, reducing the likelihood of jamming during operation by increasing the washing efficiency and increasing wear resistance.

The problem is achieved in that in a tangential rotary cutter, including a conical working head, equipped with carbide core and grooves uniformly distributed over its surface, a cylindrical holder having a shank with an annular groove under the retaining ring, according to the technical solution, grooves are made on the shank that provide effective washing of the cylindrical tool holder, reducing the likelihood of jamming of the tangential rotary tool during operation, which increases it over zhnosti. In this case, it is advisable to apply gas-plasma spraying with reinforcing materials along the surface of the conical working head and along the grooves, which increases the wear resistance and, consequently, the work efficiency of the tangential rotary cutter.

The essence of the technical solution is illustrated by the description of the design of the tangential rotary cutter and the drawings: figure 1, which shows a General view of the tangential rotary cutter, figure 2 - which shows a section aa in figure 1.

The tangential rotary cutter (hereinafter referred to as the cutter) consists of a conical working head 1 equipped with carbide core 2 (Fig. 1) with grooves 3 evenly distributed over its surface (Fig. 2). In addition, the design of the cutter includes a cylindrical holder 4 having a shank 5 with an annular groove 6 under the retaining ring. Grooves are made on the shank 5. The entire surface of the conical working head 1 with grooves 3 is hardened by gas-plasma spraying of hardening materials.

The cutter works as follows. Using a retaining ring (not shown in FIG.) Located in the groove 6, the cutter is mounted with a cylindrical holder 4 in the executive organ of the mining machine. After its inclusion, the executive body is fed and rotated, as a result of which the cutter is introduced into the face by its conical working head 1 with carbide core 2, breaking off pieces of coal from the array. In this case, the friction forces arising between the surface of the conical working head 1 and coal are increased by grooves 3, ensuring the rotation of the cutter about its axis and its uniform wear. In the process, flushing fluid is supplied through the grooves 7 in the shank 5.

Claims (2)

1. A tangential rotary cutter, including a conical working head, equipped with carbide core and grooves evenly distributed over its surface, a cylindrical holder having a shank with an annular groove under the retaining ring, characterized in that the grooves are made on the shank. 2. The tangential rotary cutter according to claim 1, characterized in that on the surface of the conical working head and in the grooves gas-plasma spraying is made with reinforcing materials.

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