SU752035A1 - Power support section cap - Google Patents

Description

The invention relates to the field of underground mining of minerals, namely the fight against dust when working mechanized roof supports.

It is known to overlap mechanized supports with a device for dust suppression, consisting of a pipeline for supplying liquid with openings facing the neighbors of ceKiuni, an elastic intersectional seal forming the snowplow 1.

The known device has the following disadvantages: the performance and reliability of the discharge chute decreases with decreasing slope of the chute, which necessitates an increase in water consumption for the transportation of the rock; Pa supporting shield visors shield, as well as the top iodderzhivayuschih and supporting-protective types of supports, where the slope of the pieziachitelei is absent or directed toward the bottom, for example, when dredging in a fall, the device is fundamentally inoperable. Drainage of water from the gutter is carried out into the lava, which leads to watering.

In addition, since the discharge chute serves at the same time as a seal of a variable in size and shape of the intersectional gap, it is made elastic. With

contact between the seal chunks of rock compaction is broken, and rock particles spill into the formed gap, as well as local interruptions of the seated grooves, lead to the debris.

The closest solution to the technical essence i of the achieved result is the overlap of the securing mechapps 1p10 bath support, including a device for forming a water-air flow located along its 6oKOBOi i side, which contains a hollow body having a sided, upper and upper wall, aperture and a nozzle installed in the housing and directed towards the exit window 2.

As the crape section moves, the liquid is sprayed by the nozzle in the body

20 near the exit window. At the same time, a vacuum occurs in the housing, due to which dusty air of an intersectional gap is sucked through suction. The dusty stream, the passage through the sprayed torch, is moistened with liquid and discharged into the developed space, which is thereby moistened. However, the known device sucks

30, only fine dust, while the remaining rock particles, spilling from the floor, spill into the lava, deteriorating working conditions. In addition, over time, the suction gap and the airway channel become clogged with particles falling out of the dust-collecting stream, which requires regular cleaning of the device.

The aim of the invention is to increase the efficiency of dust suppression during the movement of the heel, preventing the generation of coal-coal particles from falling into the lava.

The goal is achieved by the fact that the nozzle is installed in the end of the body, which is opposite to the exit window, and that the slot is located in the upper wall of the body and is in association with the upper surface of the overlap.

FIG. 1 shows a cover of a section of mechanized creamer with a device for dust suppression; pas figs. 2 - dust suppression device; FIG. 3 - option overlap with a hinged device; in fig. 4 - the same, with a built-in device.

The overlap 1 of the section of mechanized roof support for dust suppression along one or two lateral sides 2 is provided with a device forming a water-air flow consisting of a hollow channel forming part 3, limited by the side 4, top 5 and bottom 6 walls, the rock slot 7 located in the upper steic 5 of corus 3, the exit window 8, the seat 9, installed in the housing and directed toward the exit window 8. The nozzle 9 by the pipe 10 is connected to the supply line. The upper wall 5 of the housing 3 is positioned so that it extends the upper surface AND overlaps 1, and the side edge and the receiving receptacle 7 are aligned with the upper surface 11 of the overlap 1.

The device works as follows.

During the operation of moving the section following the advancement of the clearing intake, the rock-and-coal particles accumulated on the overlap 1 fall under the force of gravity from the top surface 11 of the overlap through the reservoir slot 7 into the hollow body 3. The fluid flows from the supply line through the pipe 10 under pressure to the nozzle 9. At the exit from the nozzle, the liquid is formed into a compact semi-limited jet directed in the direction of the exit window 8. The pressure of the jet washes away coal particles collected in the channel 3 The menho irrigation system carries them along the channel through the exit window 8 into the developed space. In this way, the device is cleaned of rock particles. The suspended dust in the air, when particles scatter, fine dust is sucked into the porosity receiving slot 7 by ejecting air with a stream of fluid moving at high speed and creating a vacuum in the housing 3, and then is carried deep into the mining space. In doing so, the dust is irrigated by a plurality of droplets detached from the liquid jet. The developed space is irrigated with the same jet of liquid sprayed after leaving the channel, due to air resistance and interaction with rock-coal particles.

At the end of the operation of moving the support section, the supply of fluid to the nozzle 9 is stopped using a regulating device.

Further, the working cycle is repeated with each subsequent movement of the support section.

Claims (2)

1. Patent of Germany No. 2357533, cl. 5C 23/00, publ. 1974. 2. US patent 3916631, cl. 61-45, ord. 1975 (irotype). rf --ri9QQc Fy