PL201873B1 - System for zonal spraying in counteracting dustiness during mechanical coal mining using mechanical coal miner - Google Patents

Abstract

A zone sprinkling system for controlling dust during mechanical mining of coal seams with a longwall shearer, using a system of sprinkling nozzles placed near the working area of the mining unit, supplied from a main pipeline, characterized in that it consists of a system of sprinkling batteries (1) installed on the side covers (2) of the main canopies (3) of the powered support, fastened to the side covers (2) of the canopies (3) using holders made individually for a given type of powered support, wherein the holders are screwed to the original holes located in the side covers (2) of the canopies (3), provided that the individual sprinkling batteries (1) are connected into zones consisting of 10 sprinkling batteries (1), and each battery (1) is connected with a hose (4) led through a channel in the canopy (3) used to supply hoses supplying the side cover actuators (2), wherein the hoses (4) are connected by means of tees (5) and subsequent hoses (6) of larger diameter to the control valve (7) connected to the water main (8) led from the underwall gallery from the fire-fighting pipeline and/or the pump unit, wherein the connecting hoses (6) are distributed behind the powered support stands in the place where the pressure and return main supplying the powered support runs.

Description

Description of the invention

The subject of the invention is a zone spraying system for combating dustiness during mechanical mining of coal seams with a longwall shearer.

During the mining of coal seams with longwall shearers, the spraying nozzles installed on the cutting organs of the shearers are often clogged, and these nozzles are directly exposed to the output. In order to eliminate the inconvenience of known spraying systems, a zone spraying system was developed to combat dust during the mechanical mining of coal seams with a longwall shearer, characterized by high operational reliability, omitting the complicated sealing system, at the same time ensuring protection of the working crew against excessive dust and sparks generated during mining, which could lead to for ignition of methane.

The Polish patent specification No. PL 164 026 describes an internal phase sprinkling system designed to combat dust generated by mechanical mining of rocks with a mining shearer, characterized by the fact that Venturi tubes are embedded in the shaft of the mining head of the coal shearer, and each of them is connected with a conduit to spraying nozzles placed on the outer surface of the organ lobe. The conduit is mounted on the cutting head sheet, while in the venturi diffuser a ball with a diameter smaller than the diameter of the diffuser outlet opening, and at the same time larger than the diameter of the throat, is placed. The ball is secured against falling out of the diffuser with a pin. At the inlet of the Venturi tube there is at least one feeding nozzle, rotatably mounted on a fixed part of the combine arm, the axis of rotation of the feeding nozzle coinciding with the axis of rotation of the shaft of the cutting drum.

Another Polish patent specification No. PL 154 454 discloses a device for combating dust occurring during the operation of a roadheader, using an electric motor driven radial fan installed on the shoulder of a roadheader. The fan axis is perpendicular to the axis of the roadheader arm, and the fan itself is installed near the cutting head of the roadheader. Pressurized water is supplied to the fan via a pipe. Mounted at the outlet of this fan are arcuate guide vanes, behind which is an outlet chamber in which a chute is arranged approximately horizontally, each chute facing a guide vane. The end edge of the chute farthest from the guide vane is oblique to the outlet edge of the guide vane so that the collective channel of the chute along the end edge is oblique to the direction of the air flow containing the sprayed water and moistened dust. A flexible exhaust air duct, free of dust and water, is connected to the outlet chamber from the face of the face towards the beginning of the blind pit.

According to the invention, the zone spraying system for combating dust during the mechanical mining of coal seams with a longwall shearer consists of a spraying system of nozzles installed on spraying batteries located under the main canopy of the powered support. These batteries are attached to the side cover of the canopy using holders made individually for a given type of powered support, and the holders are screwed to the original holes in the side cover of the canopy. The individual sprinkler batteries are linked into zones consisting of 10 sprinkler batteries. Each battery is connected by a hose led through a channel in the main canopy used to bring the hoses supplying the side shield actuators, these hoses, by means of tees and other hoses of larger diameter, are connected to the control valve, which is controlled by the pressure supplying the actuators of the shields of the face of the powered roof support. . Each of the control valves is connected to a water line from the sidewalk from the fire pipeline. Alternatively, if the pressure in the pipeline is too low, the valves can be supplied from the pump set. The connecting hoses are distributed behind the powered roof supports' stands in the place where the pressure and discharge main supplying the roof support run. The opening of the control valve takes place when pressure is applied over the piston of the cylinder of the face covers, which closes the cover of the first section in the zone. In turn, the closure of the control valve takes place after applying pressure to the piston of the cylinder facing the face of the last section located in the zone, i.e. when the cover of this section is opened. As a result of such distribution of control signals, the longwall shearer is in the spraying zone's field of operation all the time during operation. Turning on or off a given sprinkling zone during the roadheader's travel, i.e. during the cutting of the seam, is

It is performed by the section operator controlling the valve that opens and closes the face shields.

The subject of the invention has been shown in the embodiment in the drawing, in which Fig. 1 shows schematically the installation location of a single sprinkler battery under the main roof of the powered roof support, while Figs. 2 and 3 show a diagram of a zone spraying system for combating dust according to the invention with the use of a valve, respectively. control valve and shut-off valve.

As shown in the drawing, the system according to the invention consists of a spraying battery system (1) installed on the side covers (2) of the main canopy (3) of the powered support. The batteries (1) are attached to the side covers (2) of the canopies (3) with the use of holders made individually for a given type of powered support, and the holders are screwed to the original holes in the side covers (2) of the canopy (3). The individual sprinkler batteries (1) are combined into zones consisting of 10 sprinkler batteries (1). Each battery (1) is connected by a hose (4) led through a channel in the canopy (3) for the supply of hoses supplying the side shield actuators (2), the hoses (4) by means of tees (5) and other hoses (6) with larger diameter are connected to a control valve (7) which is controlled by the pressure supplied to the actuators of the face shield actuators of the powered support wall. Each of the control valves (7) is connected to a water line (8) from the sub-wall walkway from the fire pipeline. Alternatively, if the pressure in the pipeline is too low, the valves (7) can be supplied from the pump set. The connecting hoses (6) are distributed behind the powered roof supports in the place where the pressure and discharge lines supplying the support run. The opening of the control valve (7) takes place when pressure is applied over the piston of the cylinder of the face covers, which closes the cover of the first section in the zone. In turn, the closure of the control valve (7) takes place after applying pressure to the piston of the actuator of the face covers of the last section located in the zone, i.e. when the cover of this section is opened. As a result of such distribution of control signals, the longwall shearer is in the spraying zone's field of operation all the time during operation. Switching on or off of a given sprinkling zone during the roadheader's travel, i.e. during the working of the deck, is performed by the operator of the section controlling the valve that opens and closes the face guards. A shut-off valve (7 |) can be used in place of the control valve (7).

Claims (2)

Patent claims 1. Zone spraying system to combat dust during mechanical mining of coal seams with a longwall shearer, using a system of spraying nozzles located near the working field of the cutting head, supplied from the main pipeline, characterized by the fact that it consists of a system of main canopy mounted on side covers (2) (3) mechanized sprinkler battery housing (1) attached to the side covers (2) of the canopy (3) using handles individually made for a given type of powered support, where the handles are screwed to the original holes in the side covers (2) of the canopies ( 3), except that the individual sprinkler batteries (1) are connected into zones consisting of 10 sprinkler batteries (1), and each sprinkler battery (1) is connected by a hose (4) led through a channel in the canopy (3) for hoses supplying the side cover cylinders (2), the hoses (4) by means of tees (5) and other hoses (6) with of smaller diameter are connected to a control valve (7) connected to the water main (8) led from the sub-wall walkway from the fire pipeline and / or the pumping unit, the connecting hoses (6) being distributed behind the powered roof supports in the place where the main runs pressure and spill feed to power the powered support. 2. The system according to claim A shut-off valve (7 |) as claimed in claim 1, characterized in that a shut-off valve (7) is provided in place of the control valve (7).