SU962652A1 - Sprinker system of mining cutter-loader with adjustable-height working member - Google Patents

Description

The invention relates to the mining industry and can be used to combat dust on roadheaders with a swept executive.

Known irrigation system of the mining machine, comprising a pump, valve, and an annular water-supply hose irrigation device fixed to the arrowhead-shaped executive enforcement agencies ₁₀ [1].

The disadvantages of this system are low reliability and high fluid flow.

Closest to the proposed ₁₅ is the irrigation system of a mining combine with a height-adjustable executive body, including a pump, a crane, water supply hoses and sprinklers [2]. 20

The main disadvantage of the known irrigation system is the significant overmoistening of the broken rock mass due to the higher water flow rate, which is constant, although the levels of dust formation during the destruction and breakdown of the rock mass are maximum at the roof and minimum at the soil, i.e. depend on the position of the executive body for the height of the output.

The purpose of the invention is to reduce the waterlogging of the broken rock mass by automatically regulating the differential supply of liquid for dust suppression depending on the position of the executive body of the combine.

This goal is achieved by the fact that the irrigation system is equipped with a multi-position valve mounted on the actuator of the combine with the next drive, made in the form of a sleeve with a hole located inside the multi-position valve and a load rigidly connected to the sleeve, and the sprinklers are combined into independent spreaders

dividing sections, each of which is connected to a multi-position crane.

In FIG. 1 shows a mountain roadheader with an irrigation system, general view; in FIG. 2 is a diagram of a multi-position crane with a drive.

A roadheader 1 with an executive body 2 has an irrigation system consisting of a pump 3, a crane 4 for activating irrigation, a sleeve 5 for supplying fluid from the pump to the irrigators, irrigators 6, combined, for example, in three nezah; independent distribution sections 7 ~ 9 and a multi-position (for example, three-position) crane 10 with a load of 11. The sprinklers of the upper row are included in the distribution section ₂ , the middle row in the section 8, and the sprinklers of the lower row in the distribution section 9. A multi-position valve is mounted on the handle 12 of the combine and connected by a nozzle 13 to the sleeve _{2 of the} sleeve 5, and the distribution sections 7 “9, respectively, are connected to the output nozzles. Sleeve 14, made with a hole and located inside the multi-tap ₃ to 10 rigid with the load 11 is connected.

The irrigation system works as follows.

When the combine 1 is turned on, the valve 4 is opened, and the liquid from the pump 3 flows under pressure through the hose ³ to the sprinklers 6. The functions of the additionally installed multi-position (in this case three-position) valve consist only in controlling the flow of liquid in the process ⁴ operation of the harvester with the crane open 4. In the upper limit position of the handle 12, when the dust content in the face is maximum, under the influence of the load 11, the sleeve 14 is installed ⁴ so that all distribution sections 7 “9 are connected to the fluid supply sleeve 5 The tee and irrigation system works on all sprinklers, i.e. the liquid from the pump 3 through the valve 5 4 along the sleeve 5 through the multi-position valve 10 and the distribution sections 7 ~ 9 is supplied to all sprinklers 6.

In this position of the executive body, the maximum liquid flow rate is 5, which corresponds to the intensity of dust emission. As the executive body lowers, the intensity of the leaking dust decreases, the case of the multi-position valve 10 is shifted relative to the sleeve 14, which is kept upright all the time due to the load 11, while the fitting with the sleeve and the section 9 first overlaps (the working body is in the middle of the face) and then a fitting with a sleeve and a section 8. When working near the soil, where moistened beaten coal is located, all sprinklers can be turned off. When the executive body rises, the section 79 is automatically turned on in turn.

According to a pilot test, the implementation of the invention will reduce by 1.75 times the total flow rate of liquid for irrigation and improve the quality of coal produced by reducing the overmoistening of broken rock mass.

Claims (2)

are connected to the multi-position crane. FIG. 1 shows a mining heading machine with an irrigation system, with a general view; in fig. 2 - scheme of a multi-position crane with a drive. The tunneling machine 1 with the executive body 2 has an irrigation system consisting of a pump 3, a crane k for switching on irrigation, a sleeve 5 for supplying liquid from the pump to the irrigators, the sprinklers 6 are combined, for example, into three independent distribution sections 7 -9 and multi-position (for example, three-position) crane 10 with a load 11. The top row sprinklers are included in the middle distribution section 7j - in section 8, and the bottom row sprinklers - in the distribution section 9. The multi-position crane is mounted on the handle 12 of the combine and connected by fitting 13 to sleeve 5, and distribution sections 7–9, respectively, are connected to the output connectors. A sleeve 14, configured with a hole and located inside the multi-position crane 10, is rigidly connected to the load 11. The irrigation system operates as follows. When the combine 1 is turned on, the valve 4 is opened, and the liquid from the pump 3 under pressure enters the hose 5 to the sprinklers 6. The functions of the additionally installed multi-position (in this case, three-position) crane consist only in controlling the flow rate of the combine during operation in the upper limit position of the handle 12, when the dust content of the air in the bottom is maximum, under the action of the load 11, the sleeve 14 is installed so that all distribution sections are connected with the hand 5 of the fluid supply and respect the system works at all sprinklers, ie the fluid from the pump 3 through the edges 4 through the sleeve 5 through the multi-position valve 10 and the distribution sections 7-9 goes to all the sprinklers 6. In this position of the executive body, the flow rate is maximum, which corresponds to the intensity of the heat of discharge. As the actuator is lowered, the intensity of the pneumatic positioning valve 10 is displaced relative to the sleeve Ik, which is kept all the time in a vertical position due to the load 11, and the fitting with the sleeve and section 9 (the working body is in the middle of the face) and then the fitting with sleeve and section 8. When working on the soil, where the moistened coal is moistened, all sprinklers can be turned off. When the executive body is raised, an alternate automatic activation of the section takes place. According to the experimental verification, the implementation of the invention will reduce the total consumption of irrigation fluid by 1.75 times and improve the quality of coal mined by reducing the overwetting of the broken rock mass. Formula of the Invention An irrigation system of a mining combine with a height-adjustable actuator, including a pump, a crane, water supply sleeves, and distinguishing sprinklers, in order to reduce overwetting of broken rock mass by automatically adjusting the differentiated fluid supply to suppress dust depending on the position the combine's executive body, it is equipped with a multi-position crane mounted on the combine's executive body with a follow-up drive, made in the form of inside a multi-position crane, sleeves with a hole and a load rigidly connected to the sleeve, and the sprinklers are combined into distribution sections independent of each other, each of which is connected to a multi-position crane Sources of information taken into account during the examination 1. Equipment used in complex dedusting mines and mines. Album, M., Nedra, 1964, p. 199, fig. 2 2. Equipment and devices for complex dedusting of coal mines, cuts and processing plants. Catalog. M ,, TSNEIugol, 1979, p. 45 (prototype). fie2 / -V