SU907259A1 - Working member of cutter-loader for sinking mine shafts - Google Patents

Description

(54) WORKING BODY OF THE COMBINE FOR PASSING MINE STEM

The invention relates to the mining industry, namely to a working body of a combine for driving vertical shafts of mines.

A working tool of the tunneling shaft is known for driving vertical shafts, which consists of a gearbox and rezluch disks mounted on its output shafts. The cutting disk of the working body of the tunneling machine consists of hinged parts. In the places of the connector at the hinges, the disks have protrusions on which the pads are attached, fastened together. When the .rsi: -K i tunneling machine is in operation, the working tool is inserted into different UUpunHs and the rock is destroyed by its destructive elements. Lining perceive all power loads that occur during the destruction of the rock, providing unloading of the hinges of the disk from the effort.

The main disadvantage of the working body is the lack of elements on it, protecting Yunlich cutting discs from interaction with metal objects, falling into the face during the operation of the tunneling machine. In the interaction

with metal elements, the cutting discs are in a state of emergency, which causes downtime of the tunneling machine.

The closest to the proposed

 technical sush.nosti and the achieved effect is the working body of the combine, including disks mounted on the output shafts of the reducer with rock-breaking elements. When working combine

10 vrash, ayush.iys moment is transferred to removable disks, flooring, and destructive elements. The discs glide in different directions. The rock-breaking elements, running around the face, produce rock destruction, which is periodically removed. If it is necessary to increase the thickness of the support in the zone of interface with horizontal development in weak rocks, attachments are mounted on the disks, which makes it possible to mix destructive elements 2.

20. However, a well-known working body is also

They do not have a device that protects the discs from interacting with metal objects trapped in the face. This leads to the destruction of rock-destroying elements and a decrease in technical and economic indicators of the operation of trunking combines.

Thus, the known design of the working body of the tunneling machines are not protected from the interaction with metal objects that fall into the face.

The purpose of the invention is to increase the reliability of the working body of the combine.

The goal is achieved by the fact that in the working body of the combine, including disks installed on the output shafts of the reducer with rock-breaking elements located along the contour of the disks, the latter are equipped with magnetic systems placed on the disk behind the rock-breaking elements, permanent magnets and alternating polarized magnetic cores with them; moreover, the thickness of the magnets is made variable with a decrease in its length along the block in the direction opposite to the rotation of the disks.

FIG. 1 shows the working body, a general view; in fig. 2 - magnetic system; in fig. 3 is a view A of FIG. one

The working body contains a gearbox 1 with inclined output shafts 2, on which removable disks 3 are fixed: Disks with rock-breaking elements 4 and magnetic systems 5 are mounted on the disks.

Magnetic system 5 contains permanent magnets 6 and 7, and the thickness of the magnets is made variable. Magnet 6 has the greatest thickness, magnet 7 is the smallest. The magnets are located between the pole magnetic cores 8 and are assembled in block 9, which is protected by a coating 10.

The working body of the combine works in the following way.

Rotation from the inclined shafts 2, which come out of the gearbox 1, is transferred to removable disks 3. Flo circumferences of the disks 3 are reinforced with rock-breaking elements 4, which rotate with the disks 3 and roll around the face and destroy the rock. Magnetic systems 5 are mounted between the destructive elements on the disks 3. Magnetic systems 5, in which each magnet 6 and 7 are located between the pole magnetic cores 8, rotate the bottom of the chest, attract metal objects falling into the face, protecting the destructive elements with them. Moreover, the main parts are attracted to the section of the magnetic unit 9, where the magnets 6 are located, which have a greater thickness. This is due to the fact that here there is a buckling of magnetic field lines (in Fig. 2, dashed lines), which ensure the interaction of magnetic systems with metallic objects that are at some distance from them. Along with this.m., in this area, the attracted objects interact with a maximum of two magnetoproteins and weakly hold on the working surface of the magnetic block 9. Therefore, the effect on the extracted objects of the destroyed rock causes them to move along the block in the direction opposite to. rotation of the disk, to a section with a magnet thickness of 7, where the interaction of metal parts occurs with a large number of magnetic circuits.

It provides reliable retention of attracted objects.

Thus, the magnetic blocks of this design perform two functions: extracting metal parts from the rock pulp and holding them when the broken rock is exposed to them. The magnets are protected from contact with the rock with a protective coating 10.

The working body of the proposed design increases the reliability and durability of the tunnel complex due to the protection of its rock-destroying elements from interaction with ferromagnetic objects contained in the rock pulp with magnetic trapping systems.

Claims (2)

1. The working body of the combine for sinking shaft shafts, including disks mounted on the output shafts of the reducer with rock-breaking elements placed along the contour of the disks, characterized in that, in order to increase the reliability of the working body of the combine, the disks are equipped with magnetic systems. for rock cutting elements. 2. Working body according to claim 1, characterized in that the BbinOviHeHbi magnetic systems are in the form of blocks of permanent magnets and alternating pole magnetic circuits, the thickness of the magnets being variable with decreasing length of the block in the opposite direction to the rotation of the disks. Sources of information taken into account in the examination 1. USSR author's certificate number 397650, cl. E 21 D 1/06, 1970. 2. USSR author's certificate No. 346489, cl. E 21 D 1/06, 1967 (prototype).