SU812938A1 - Powered roof support - Google Patents

Description

The invention relates to the mining industry and can be used for mechanized fastening of mines in the development of powerful flat coal seams with forced caving and the release of coal.

Known mechanized support, including separate sections, each of which consists of an upper ceiling with a visor, a fence equipped with a retractable gate and a hydraulic jack, made with pointed beams located on the side of the worked out space and connected with the hydraulic jack, and hydraulic struts 113.

A disadvantage of the known mechanized roof support is that it does not provide for the possibility of increasing the efficiency of coal production due to the use of vibration, the destruction of large coal blocks produced is carried out by pointed beams of the fence and the gate teeth by crushing the oversize, which leads to significant energy consumption of this process.

The closest to the invention in technical essence and the achieved result is a mechanized roof support, consisting of separate sections, each of which includes an upper j overlap, a guard, load-bearing elements, lower supporting elements and a vibrator 12].

The disadvantage of this lining is that when vibrating goriIQ, horizontal vibrations leads to a loss of stability of the section.

The purpose of the invention is the preservation of the stability of the section during the vibration of coal, as well as improving the efficiency of the processes of vibration and crushing of coal oversized.

This goal is achieved by the fact that the section is equipped with a device for changing the angle of installation of the vibrator, consisting of a housing rigidly attached to the fence and made in the form of two parallel plates rigidly connected by a transverse shelf, a rotary platform for installing a vibrator connected to the housing by means of axes, and clamps, while the body and platform have holes for installing the clips.

In FIG. 1 shows the mechanized support, side view? in Fig.2 the device changes the angle of installation of the vibrator, side view} in Fig. 3 same front view.

Mechanized lining consists of sections, each of which includes two hydraulic stands 1 with supporting heights, upper 2 with a visor and a guard 3. The fence is pivotally attached to a top 2 and is connected by a hydraulic jack 4 from the fifth back hydraulic stand. It consists of an upper fixed part with a device for changing the installation angle of the vibrator 5 and a lower sliding part - a gate 6, connected to one another by a hydraulic jack 7. The gate 6 is provided with teeth on the lower side. On the fixed part of the fence 3 on the inside there is a node 8 for connecting the fence with a hydraulic jack 4, and on the side of the worked-out space there are longitudinal pointed beams 9. Two curving scraper conveyors 10 and 11 are located under the support, located respectively on the side of the bottom hole array 12 and under the guard 3 from the side of the worked-out space 13. The heel of the rear hydraulic stand is connected to the front strut of the section by means of a hydraulic jack 4.

The device for changing the installation angle of the vibrator 5, mounted on the upper part of the fence 3, consists of a housing 14 made in the form of two parallel plates 15 connected by a transverse shelf 16, and a rotary platform 17 with a vibrator 18. The platform 17 is connected to the housing 14 by axes 19 and latches installed in the holes 20.

Mechanized support works as follows.

The movement of the lining sections is carried out following the movement of the combine harvesting and loading the mineral on the bottomhole conveyor 10. Vibration of the mineral from the subroofing (interlayer) thickness onto the conveyor 11 is carried out simultaneously with the harvester.

The collapsed coal of the subroofing (interlayer) stratum is initially destroyed by the pointed beams 9 of the fence 3 due to the static spacer force of the hydraulic jack 4 and the pulsating load created by the directional vibrator 18. Then coal is vibrated, the optimal mode of which is provided by installing a vibrator 18 using a device for changing the angle of installation of the vibrator 5 under the required angle to the fence 3, for which one side is rotatable, the platform 1.7 is fixed with clamps in the corresponding holes 20 of the plates 15. The vibration output is regulated also by extending or pulling up the gate 6, changing the angle of inclination of the fence 3 with the help of a hydraulic jack 4.

Large blocks of coal on the soil and in the formation are finally split by the teeth of the gate 6 due to the static expansion force of the hydraulic jack 7 and the pulsating load created by the same directional vibrator 18.

The proposed mechanized lining provides structural stability during the vibration release of coal of the subroofing thickness, since the fence on which the vibrator is mounted is connected to the upper and the supporting fifth of the rear hydraulic stand, by a hinge and a hydraulic jack, damping the transmission of vibration to the supporting part of the lining. The efficiency of the vibration emission process is increased due to the possibility of changing the angle of installation of the vibrator on the fence, while working in the mode of a load-bearing body. The energy intensity of the process of destruction of oversized materials is reduced due to the use of coal vibro-crushing by the pointed beams of the fence, which in this case works in the mode of the vibro-crusher cheek, and their final vibration destruction by the gate teeth.

Claims (2)

(54) MECHANIZED VEHICLE FASTENER, side view in FIG. 3 is the same, front view. Mechanized roof supports consist of sections, each of which includes two hydraulic legs 1 with support points, top to 2 with a visor and a fence 3. The fence is pivotally attached to the top 2 and connected by means of a hydraulic jack 4 with a fifth rear hydrostreet. It consists of the upper fixed part with a device for changing the angle of installation of the vibrator 5 and the lower end of the mobile part - the gate b, connected to one another by a hydraulic jack 7. The gate 6 on the lower side is provided with teeth. On the fixed part of the fence 3 on the inner side there is a node 8 connecting the fence with a hydraulic jack 4, and from the developed space there are longitudinal pointed beams 9. Under the lining there are two bending scraper conveyors 10 and 11 located respectively from the side of the bottom hole array 12 and under the fence 3 on the side of the exhausted space 13. A rear rear hydraulic post is connected to the front rack section by means of a hydraulic jack 4. The device for changing the installation angle of the vibrator 5 is attached to The outer part of the fence 3 consists of a body 14, made in the form of two parallel plates 15, connected by a transverse shelf 16, and a turntable 17 with a vibrator 18. The platform 17 is connected to the body 1 by means of axes 19 and clamps set in holes 20. Mechanized lining works in the following manner. The shifting of the support sections is carried out following the advancement of the diamond mine, which excavates and loads the mineral on the bottomhole conveyor 10. The mineral mineral vibrates from the under-roof (interlayer) strata to the conveyor 11 simultaneously with the excavation by the combine. The collapsed coal of the under-roofing (interlayer) stratum was initially destroyed by pointed beams 9 of the fuse 3 due to the static spreading force of the hydraulic jack 4 and the pulsating load created by the directional vibrator 18. Then, an coal vibration was emitted. the optimum mode of which is provided by installing the vibrator 18 with a device for changing the installation angle of the vibrator 5 under the desired angle to the fence 3, for which one with the rotary platform, platform 1.7 is fixed with clamps in the corresponding holes 20 of the plate 15. Vibration output is regulated by the same extension or podhivanie iber 6, changing with the help of a hydrojack 4 angle of inclination of the fence 3. Large blocks of coal on the soil, the plate is finally split with the teeth of iber b due to the static thrust force hydrod Omkrat 7 and pulse - the load, created by the same vibrator 18 directional action. The proposed motorized support ensures the stability of the structure during vibration of the coal under the roofing layer, since the fence on which the vibrator is mounted is connected with the upper and the supporting rear hydrorail, respectively, by the hinge and hydraulic jack, damping the transmission of vibration to the supporting part of the support. The efficiency of the vibration output process is increased due to the possibility of changing the installation angle of the vibrator on the fence, while working with the academy in the mode of a load-carrying organ. The energy intensity of the process of destruction of oversize is reduced by the use of vibrating coal sharpened by sharp beams of the fence, which in this case works in the mode of the shaker of the vibratory crusher, and the final vibro-destruction by their teeth of the gate. Claims of the invention: Mechanized lining consisting of separate sections, each of which includes an upper overlap, a fence, supporting elements, lower supporting elements and a vibrator, from which, in order to preserve the stability of the section when vibrating coal, as well as improving efficiency processes of vibration release and crushing of coal oversize, the section is equipped with a device for changing the installation angle of the vibrator, consisting of a body rigidly attached to the fence and made in the form of two parallel plates - the same TCR associated transverse shelf turntable for mounting a vibrator connected to the housing by means of axes, and clamps, wherein the platform body and have openings for, h installation clamps. Sources of information taken into account during the examination 1. USSR author's certificate No. 392246, cl. E 21 D 23/04, 1973. 2. Research on mining issues in Kuzbass. Collection number 16. Prokopyevsk, 1968, p. 62-69 (prototype).