RU11266U1 - DEVICE FOR DUST AND GAS REMOVAL FOR MECHANIZED MINING OF MINING - Google Patents

Abstract

1. A device for removing dust and gas during mechanized mining of mine workings, including a fan, a rigid pipe and a pull-out pipe, characterized in that the pull-out pipe is installed on the outer surface of the hard pipe and is equipped with an elastic shell covering the annular gap between the pull-out pipe and the pipe. . The device according to claim 1, characterized in that it is equipped with rods with hinges for connecting a retractable pipe with a roadheader. The device according to claim 1, characterized in that the retractable pipe is equipped with nozzles fixed at the end and directed towards the bottom of the mine.

Description

E21F1 / 00

DUST AND

The utility model relates to mining, namely, to mechanized tunneling of mine workings and can be used to suck dust and gas from the bottom hole.

- A device for removing explosion products from the bottomhole space, containing a suction pipe and a jumper mounted on the frame with the possibility of longitudinal movement (USSR copyright certificate No. 1571268, class E2IF 1/00, 1987.). The principle of operation of the known device is that before blasting the bottomhole space is isolated by a jumper. After explosive work, the gas-air mixture is sucked out of the confined space and, as the pressure decreases, the jumper is moved to the bottom. After reducing the concentration of harmful substances to acceptable values, open the jumper and begin work on unloading the broken rock mass and erecting lining.

The known device can only be used for explosive mining of mine workings and has a complex structure. DEVICE FOR REMOVING GAS WHEN MECHANIZING MINING MINING

a link including an outer pipe with wheels to be connected to the pipeline, and an inner pull-out pipe of a smaller diameter, equipped with an umbrella, as well as wheels and rollers for moving along the excavation (copyright certificate No. 891960. class E21F1 / 00, 1980). Before blasting in the bottom of the mine, the fan is turned on in the suction mode and the inner pipe is manually rolled into the telescopic link to protect it from destruction during an explosion. After the blasting operations are over, the fan is switched to the discharge mode and, due to the presence of an umbrella, the inner pipe extends under the influence of air pressure to the bottom and is fixed, after which the fan is again switched to the suction mode and the work is started on loading the broken rock mass and erecting the lining. This device can, in principle, be

used for mechanized mining workings. The main disadvantages of the known device are:

repeated reversal of the fan is unacceptable when conducting workings on gas-bearing strata, because in the process of transitional regimes, the bottomhole space is polluted;

with a length of pipe links of 3 m, the lag of the pipeline of the known device from the bottom when building it should be at least 9 m, which is unacceptable when driving through gas-bearing formations;

servicing the device is time consuming since all operations for moving the telescopic link, especially those associated with the disconnection, extension and connection to the pipeline, are performed manually;

air suction through the annular gap between the outer and inner pipes reduces the suction efficiency.

A device for removing dust and gas during mechanized mining of excavations is proposed, comprising a fan, a rigid pipe and a retractable pipe. The essence of the utility model lies in the fact that the extension pipe is mounted on the outer surface of the pipeline, equipped with an elastic shell overlapping the annular gap between the extension pipe and the pipeline and rods connecting it to the roadheader. The rods can be equipped with hinges with two degrees of freedom. The retractable pipe can be equipped with nozzles fixed at the end and directed towards the bottom of the mine.

Studies have established that the effective suction zone extends from the end of the suction pipe to no more than one pipe diameter. Thus, the lag of the suction pipe with a diameter of 800 mm from the bottom of the face during mechanized penetration should not exceed 800 mm, otherwise local accumulations of methane at the face may occur or the bottom hole will be blocked. If necessary, the length of the suction zone can be increased to 3-4 pipeline diameters due to its fencing from the sides with water curtains using nozzles. The installation of a retractable pipe on the surface of the pipeline and its connection with the tunneling machine allows you to withstand this distance between the pipe end and the face during the operation of the combine and build up the pipeline without disconnecting it and stopping or reversing the fan, which ensures high suction reliability. The sliding pipe is moved to and from the face by a tunneling machine, which eliminates the need for manual labor for these purposes. The device reduces E |

air suction, as the gap between the pipeline and the pull-out pipe is covered by an elastic shell.

The device provides an effective suction of dust and gas mixture from the bottom and is easy to maintain.

The essence of the utility model is illustrated by the drawing, where in FIG. I shows the location of the device for removing dust and gas in a mechanized face; in FIG. 2 is a view of the device in a cross section of a mine.

A device for removing dust and gas from mine workings using roadheaders contains a rigid pipe 1 connected to a fan 2 of the VMTSG type located in the air outlet. Ventilated production 3 is carried out mechanically using a roadheader 4. At the end of the rigid pipe 1, a slide-in pipe 5 is installed, covering the pipe with a gap necessary for free movement. Sliding pipe is equipped with an elastic shell 6, overlapping the above gap. The hard pipe with the help of suspensions 7 is connected to the roof supports or anchors. For mechanized movement of the retractable pipe, the device is equipped with shingles 8 connecting the pipe to the tunneling machine 4. During operation, the combine may deviate from the design position in horizontal and vertical planes, and therefore, to protect the pipe from bends, the rods 8 are provided with hinges 9 with two degrees of freedom famous design.

A device for removing dust and gas during tunneling works as follows:

The fan 2 creates a vacuum in the rigid pipe I. In the initial stage of the driving cycle, the extension pipe 5 is completely

located on the final section of the pipeline and the extraction of dust and gas mixture is carried out directly through the end of the pipeline. As it moves, a roadheader 4 with the help of rods 8 moves the retractable pipe 5 synchronously towards the bottom, while maintaining a constant distance from the bottom of the bottom. When you install 5 nozzles 10 at the end of the pipe and create an annular water curtain around the suction zone, this distance can reach 3-4 pipe diameters. After the pipe 5 extends to the length of the pipe link with the fan running, the pipeline is built up, for which the next link 11 is inserted into the pipe 5 and connected to the pipeline by temporary connection, or as the pipe 5 moves, the link is moved to the end of the pipeline, and when the docking zone appears within elastic shell 6 or after it produce a constant connection of the link with the pipeline.

To clean the air from dust in the pipe 1 can be built dust collector. The device can be used in combination with airing aids, tsfbulizators of air, etc. It provides a constant suction of dust and gas both during the operation of the combine harvester and during stops, while the maximum removal of the end of the suction pipe from the bottom does not exceed the length of the effective suction zone . Deputy Director of VosgNII / L // V.S. Zykov

Claims (3)

1. A device for removing dust and gas during mechanized mining of mine workings, including a fan, a rigid pipe and a pull-out pipe, characterized in that the pull-out pipe is installed on the outer surface of the hard pipe and is equipped with an elastic shell covering the annular gap between the pull-out pipe and the pipe.  2. The device according to claim 1, characterized in that it is equipped with rods with hinges for connecting a retractable pipe with a roadheader. 3. The device according to claim 1, characterized in that the retractable pipe is equipped with nozzles fixed at the end and directed towards the bottom of the mine.