SU911021A1 - Coal-winning apparatus - Google Patents

Description

one

The invention relates to equipment for coal mining, mainly from thin layers, without the presence of people in the clearing bottom of coal mines and quarries.

A device for removing coal from thin layers, including mechanized lining and auger composition, located along the entire length of the bottom 11.

A disadvantage of this device for excavating coal is the impossibility of adjusting auger stacks in formation hypsometry.

It is also known a device for excavating coal, comprising a screw compound with cutting disks and support lamps, a protective support structure with a guide for the support lamps of the screw head G2.

However, in this device, it is impossible to control a screw in the cross section

.plast, especially in complex formation hypsometry.

The aim of the invention is to provide device control on formation hypsometry.

This goal is achieved by the fact that the device is provided with a wedge beam arranged parallel to the guide for the support lamps and connected to it by means of hydraulic jacks,

10, while the support lamps are installed with the possibility of interaction with the wedge beam. ,,

FIG. 1 shows a coal extraction device, a plan view; on

15 of FIG. 2 is a section A-A in FIG. one; on. FIG. 3 - the position of the screw stav when adjusting (lifting).

The device for coal excavation consists of a screw rod 1, cutting

20 disks 2, support lamps 3, sectional protective-supporting fastening 4, including longitudinal beams 5 and 6, connected by hydro3 .9

jacks 7 of the frontal movement and provided with a retractable longitudinal wedge beam 10 and its hydraulic cylinders 11 of the steering guide 12, dispersed along the lengths of the supports 8 and 9i,

The device works as follows.

After spreading racks 9 between the soil and the roof of the screw stavu 1 s. The cutting disks 2 provide rotation and reciprocating movements. After that, hydraulic jacks 7 of the frontal movement are put into operation. The jacks 7, resting against the longitudinal beam 6 rigidly connected to the unraveled struts 9, move the longitudinal beam 5 rigidly connected to the struts 8 and provided with protective barriers to the pilot 12, along which the posts of the support lamps move. Through the pillars of the support lamps and the screw set, the forces from the jacks 7 are transferred to the cutting discs 2, which rotate, cut the coal chips, and the screw stand transports it to the drift. After moving the frontal direction, the stands of the jacks 8, unload the stands 9 and they are tightened with hydraulic jacks 7. After this, the cycle of digging the coal is repeated.

The control of a screw stand in the plane of the cross section of the formation is carried out as follows.

When the device is horizontally moved, the lower supports of the lamps 3 are (see FIG. 2) in a neutral position (in the middle part of the inclined plane of the extendable longitudinal wedge beam 10). If it is necessary to lift the auger rod through the mineral reservoir (in the case of undulating occurrence, geological disturbances, etc.) during the excavation process. The sliding longitudinal wedge beam

one . four

10 by means of control hydraulic cylinders 11 moves to the right (FIG. 3). In this case, the sliding longitudinal wedge beam 10, acting on the lower supports of the lanterns 3, raises the auger rod 1, which turns around the guide 12. As the frontal movement of the device behind the screw rod rises over soil making and sectional fencing. The lowering of the auger is done in reverse order, i.e. when moving the retractable longitudinal wedge beam to the left. Control is carried out remotely from the drift.

Equipping the device with a longitudinal wedge beam allows it to be operated in the transverse plane

section of the reservoir with complex hypsometry of the bed of the reservoir.

Claims (2)

1.Patent UK No. 1277727, cl. E 1 F, pub. . 2. USSR author's certificate number 7M104, cl. E 21 C 1/00, 1) 77. yf- / f