SU1680993A1 - Method of getting steep coal seams with multi-plane installation - Google Patents

Abstract

The invention relates to mining and makes it possible to increase the efficiency of coal mining. The excavation of a steep coal seam is carried out by a multi-edge installation 1. The coal is cut by reciprocating movements (CPS) of planes (C) 2 along the slab line 3. At each CAP, the amplitude AJ in the forward direction C is chosen to have a larger amplitude Aj - i in the reverse direction. As a result of this, the Cs are hopping in the 1C range. Total

Description

Fig

path length 1/2 t I V

d 1

of each C composition- -Aj - 1 I lc where

Aj, Aj - i are the amplitudes of the VFD in the forward and reverse directions, c is the distance

between C. n - the number of VFD strugov in the range of 1C. With the aid of the actuator 4, it is pulled up. The return movement is carried out due to the weight C and the load 5. 3 Il.

The invention relates to mining and can be used in the excavation of steep coal seams.

The purpose of the invention is to increase the efficiency of coal extraction.

On fmg.1 shows the method of excavation, type in plan; Fig. 2 shows plots of movement in the plane; FIG. 3 is a graph of coal breaking at each cycle of excavation of a separate plow.

The method is carried out as follows.

The excavation of a steep coal seam is carried out by a multi-circular installation 1. The entire length of the coal slab is divided into separate sections, equal to c, in which each plow is blasted. The corner is driven by reciprocating movement of the planes 2 along the bottom line 3. At each movement of the plow, the amplitude (path size) A is selected when each plow is moving in the forward direction, larger than the amplitude AJ - 1 in the opposite direction.

As a result of this, the strugues move in a jump-like manner in the range c with the amplitude of the movement of the planes in one direction A) greater than the amplitude AJ - 1 of the movement of the planes in the other. This provides an increase in the number of removed chips of coal during the passage of the planes at a distance equal to the distance between adjacent struts 1C. In this case, the total value of the path of each plow is

it I -Aj-1

4 1

By means of the actuator 4, the pliers interconnected by a flexible traction element are pulled up by a value of seconds, and the plows are descended to their initial position under the action of the weight of the load 5 and the planes.

When this drive 6 is an additional reciprocating 0

five

0

five

0

five

The movement of the plows along the clearing surface is at a higher speed compared with the speed reported by the drive 4 and with a smaller amplitude A c.

Due to the inclination of the bottom to the dip line, the normal component of the force of the weight of the load and the planes presses them to the face and thus provides the necessary force to feed the planes to the bottom,

Chipped coal rolls down to the place of loading under the influence of the force of gravity.

Due to the additional reciprocating movement of the plows, communicated by the drive, there is an additional removal of coal chips along the clearing face when moving from bottom to top and from top to bottom, the overall advancement of the bottom face increases and, consequently, the productivity of the plow installation increases.

Claims (1)

Invention Formula The method of excavation of steep coal seams by a multi-circular installation, including coal blasting through reciprocating movement of the plows along the bottom line with their simultaneous movement to the bottom, characterized in that, in order to increase the efficiency of coal excavation, blasting by coal is carried out with carbon struts with amplitude of reciprocating movement of each the forward plow is larger than the amplitude of the movement in the opposite direction, while the sum of the differences of the specified amplitudes in the reciprocating section of the station ugov determined from expression 1 p i2 I 4 1 Aj-Aj-i I | C where AJ nAj-1 is the amplitudes of the reciprocating movement of the planes in the forward and reverse directions; 1C is the distance between strugues; n is the number of reciprocating movements of plows in the lr range. l / v FIG 2