SU1666697A1 - Working unit of heading machine - Google Patents

Abstract

The invention relates to the mining industry. The goal is to increase work efficiency by reducing the energy intensity of the destruction process. The executive body (IO) of the heading machine contains a front conical surface (P) 1 and a side P 2, which is conjugated with P 1 and made in the form of a single-cavity hyperboloid of rotation. The angle at the vertex P 1 is greater than 90 °. The tool holders 4 with cutters are located on the lines coinciding with the rectilinear generators of 5 P 2. When drilling, the array is destroyed only by tool P 1. The tool, located on P 2, does not participate in drilling. With the lateral feeding of the EUT, the array is destroyed by tool P 2. In this case, in the zone 3 of conjugation P 1 and 2, an operative cut is formed. This reduces the energy consumption of the destruction of the array and increases the efficiency of the EUT. 3 il.

Description

The invention relates to the mining industry and can be used in mining engineering.

The goal is to increase work efficiency.

On Fig, 1 shows a General view of the executive body; figure 2 is the same in the process of drilling; on figs - the same, in the process.

The Executive body contains the front conical surface 1 with an obtuse angle at the apex, the side surface 2, made in the form of a single-cavity hyperboloid of revolution and paired with the front surface 1 in the interface zone 3. Tool holders 4 are placed on the surface of the executive body, while the alignment lines of tool holders 4 with cutters coincide with the rectilinear generators 5 of the side surface 2.

The executive body of a roadheader works as follows.

When applying the executive body to the face, the front conical surface 1 is embedded in the array and cuts a cylindrical cavity in it, while, since the conical surface 1 has smaller sizes and, accordingly, a small number of incisors, in comparison with the rest of the executive body, the specific force for each cutter, it remains almost constant, with the exception of the long time that surface 1 itself is introduced into the array. Cutters located on the side surface 2 are not involved in the notching process. The cutters of the mating zone 3, oriented towards the array and being peripheral to the surface 1, participate in the notch, and the cutters of this zone oriented towards the surface 2 do not participate, i.e. Do not beat off the breed.

Destruction of the array (cutting), Fig.Z.

After notching the executive body into the array, it is given a lateral feed to transfer to the destruction mode of the array. In this case, the cutters of the mating zone 3 cut the volume of the rock behind (inside the array). The remaining incisors of the lateral surface 2 for destruction always have a constant volume of rock bounded on one side by surface 2 and on the other with the AB plane (shown in dashed lines in FIG. 3).

With constant lateral feed (within the specified size of the bottom section), the cutters of zone 3 located in front of the cutters of the side surface 2 create a leading cut, and the cutters of the side surface 2 constantly destroy the volume of the rock formed in this case.

The location of the tool holders 4-with cutters on the straight line generators 5 of the side surface 2 allows, firstly, to install tool holders with cutters with the optimal value of the kinematic angles anywhere on the side surface, regardless of its curvature; secondly, to shorten the path of transporting the finished material, to reduce its additional overgrinding; thirdly, to vary the number of incisors on the surface of the executive body, depending on the unit volume of destructible rock per one incisor, i.e. optimize the executive body to work in a wide range of strength of the rock being destroyed.

Claims (1)

Claim An executive body of a roadheader containing a front conical surface with an obtuse angle at the apex, a side surface mating with it in the form of a body of revolution, and tool holders with cutters located on the side and front surfaces, which consists in that, in order to increase * efficiency work by reducing the energy intensity of the destruction process, the side surface is made in the form of a single-cavity rotation hyperboloid, while the tool holders on the side surface are located on its rectilinear generators. Fig 2 Wed Fig.Z