RU194766U1 - AUTOMATIC AIR PNEUMATIC WATER CURTAIN - Google Patents

Abstract

The utility model relates to the mining industry and is proposed for use for dedusting the exhaust air flow in underground mine workings. The objective of the utility model is to solve the problem of dust suppression of the exhaust air flow in the mine network. The technical result of the utility model is to increase the humidity of the exhaust air flow over due to the finely divided composition of water and air, an increase in the density of the flow of droplets, preventing dust from spreading along the entire length of the output, formed as a result of breaking the rock mass with a shearer and a roadheader, as well as automation of the spray nozzles along the entire length of the curtain. The technical result is achieved by the fact that the automatic pneumohydro-sprinkler curtain contains a metal cylindrical body having two inlet openings for the supply of aqueous solution and for air intake , an outlet for supplying a water-air mixture, which is connected via metal pipes to fine atomizers, inside the housing a rotary rod with a spring is laid, a metal lever is installed on the rod, characterized in that the device contains a metal pipe located along the perimeter of the mine working, repeating the shape of its cross section with fine nozzles located on it, the number of which can be changed depending on the volume of the outgoing air flow, to the required level of dust suppression in mining.

Description

The utility model relates to the mining industry and is proposed for use for dedusting the outgoing ventilation flow in underground mines.

In the mining industry, during the mining of rock mass, tunneling and shearers are crushed, resulting in the formation of a large amount of coal and rock dust. Dust spreads through the mine workings network through the air flow, which has a negative effect on labor protection and the health of personnel involved in underground work and the working mechanisms used in the mining industry. Most of the major and tragic accidents in mines are associated precisely with dust formation in mine workings, which are one of the explosion factors.

Known automatic dust suppression system ASPP (patent No. 107284, published on 08/10/2011). The automatic dust suppression system ASPP includes a control unit, fine atomizers, water lines, control and control circuits, a drive wheel located under the conveyor belt. The system is driven by the movement of the conveyor belt and a moisturizing liquid is supplied to the place of transfer of transported mass.

The disadvantages of the known technical solutions are:

- the supply of excess water, which negatively affects the conveyor;

- low efficiency of capture and binding of carbon dust.

The closest device of the same purpose to the claimed device according to the totality of features is an automatic pneumohydro-sprinkler (patent No. 122120, published on November 20, 2012). An automatic pneumohydro-sprinkler includes a metal cylindrical body having two inlets for receiving an aqueous solution and for air, an outlet for supplying a water-air mixture, which is connected via metal pipes to

fine spray nozzles, inside the body there is a rotary rod with a spring, a metal lever is installed on the rod.

The disadvantages of the known technical solution adopted for the prototype is that the device does not fully provide dust removal of the outgoing air flow of the mine workings, but only on the conveyor tunnels.

The objective of the utility model is to solve the problem of dust suppression of the outgoing air flow in the mine network.

The technical result of the utility model is to increase the humidity of the outgoing air stream due to the finely divided composition of water and air, to increase the density of the droplet stream and prevent dust from spreading along the entire length of the production of the rock mass formed by breaking the shearer and tunneling machine, as well as the automation of the spray nozzles along the entire length curtains.

The specified technical result is achieved by the fact that the automatic air-hydraulic curtain, containing a cylinder for forming a water-air mixture, has two inlet openings for receiving an aqueous solution and for air supply, an outlet opening for supplying an air-water mixture, a rotary rod with a spring is located inside the body, a metal rod is installed on the rod lever, characterized in that the device contains a metal pipe located along the perimeter of the mine working repeating the shape of its cross section with the arrangement GOVERNMENTAL thereon with fine nozzles, the number of which can be changed depending on the volume of outgoing air stream to the desired level of dust suppression in mining.

The essence of the utility model is illustrated in FIG. 1 and FIG. 2.

In FIG. 1 shows a diagram of the operation of an automatic air-sprinkler curtain; FIG. 2 directly the curtain itself.

The device includes an automatic pneumatic sprinkler 1,

a metal pipe 2, with fine nozzles 3 located on it, while the number of nozzles can vary depending on the amount of dust removal of the outgoing air flow in the output by screwing plugs 4 and inserting additional nozzles, hoses 5 for supplying air, water and supplying the finished air-water mixture directly connected to a water and air stand 6, a cylinder for forming a water-air mixture 7 inside of which a rotary rod with a spring is located, a metal movable growl is installed on the rod 8 pnevmogidroorositelya automatic, fixed directly prevmogidroorositelnoy curtain 9 by means of which curtain fastened to the support frame excavation. Finely dispersed cross-spraying of the air-water mixture 10 into the mine atmosphere, created directly during operation of the air-water curtain itself.

The technical effect is achieved through the use of water and air; as a result, water is dispersed under the influence of compressed air energy and the foci of dust are irrigated with a fine water-air mixture creating fog 10 from the cross-irrigation of nozzles 3. Finely dispersed crushing of water droplets makes it possible to increase the density of the droplet irrigation stream at the outlet and ensure the necessary humidity in the dust formation zone. Coal dust envelops (moistens) and becomes heavier, settles on the soil of the mine and becomes explosion-proof.

Automatic pneumatic sprinkler curtain works as follows, when the rock mass moves along the conveyor belt, the lever 8 of the automatic pneumatic sprinkler 1 is deflected and puts it into action. High pressure hoses 5 feed water and air 6 to the chamber for forming an air-air mixture of an automatic pneumohydrohydrolyzer 7 and then the finished mixture is pressurized through a high-pressure hose into a metal pipe 2 and finely dispersed cross-spraying of the air-water mixture into the mine atmosphere 10 occurs through nozzles 3.

The automatic pneumohydro-irrigation curtain is easy to manufacture, it can take any form depending on the configuration of the mine fastening application, it is reliable in use, it works automatically both on and off. Excludes the flooding of the conveyor belt at idle. Fine dispersion allows to reduce water consumption and increase the efficiency of collecting fine fractions of carbonaceous dust, which will prevent its further spread over the network of mine workings, as well as reducing the cost of shaleing these workings for their explosion protection. The number of nozzles can vary depending on the amount of dust removal of the outgoing air flow in the production, removing the plugs and inserting additional nozzles.

Claims (1)

An automatic air-hydrothermal curtain containing a cylinder for forming an air-water mixture, having two inlets for receiving an aqueous solution and for air, an outlet for supplying an air-air mixture, a rotary rod with a spring is located inside the body, a metal lever is installed on the rod, characterized in that the device contains a metal pipe located along the perimeter of the mine working, repeating the shape of its cross section, with fine nozzles located on it, the number of in which you can change depending on the volume of the outgoing air flow, to the required level of dust suppression in the mine.

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