SU1484970A1 - Arrangement for suction airing of blind workings - Google Patents

Description

The invention relates to the mining industry, the Purpose is to increase the efficiency of ventilation dead-end mine workings. The device contains a hard ventilation pipe (ЖВТ), a fan, the main telescopic link 5. The ЖВТ has additional telescopic links 8 and 9 located on it mutually

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opposite to each other. Links 5, 8 and 9 are installed perpendicular to the HWT which is made with a side opening 2 for communication with link 5 and has longitudinal 7 and transverse 4 rail guides. They are installed on the outer surface of the liquid fuel cell along its length and along the arc of a circle of its cross section. Links 5, 8 and 9 have carts 3, 6, 10 and 11 with drives 18, 19, 20, 21 mounted on rails. The latter are also located on opposite side surfaces of the link 5. Sections 8 and 9 are made with exhaust ports along the length. At the time of the explosion in the bottom of the device is in the folded position. After the explosion, the link 5 along the guides 4 and 7 slides over the hole 2 and its telescopic sections are moved apart using one of the drives. Then they turn on the drives of the links 8 and 9, which move and move apart, as a result of which the explosive gases are sucked through the holes. 4 il.

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1484970

The invention relates to the mining industry, in particular to the ventilation of blind workings after blasting.

The purpose of the invention is to increase the efficiency of ventilation dead-end mine workings.

FIG. 1 shows a device for suction ventilation of blind workings, horizontal projection, working position; in fig. 2 - the same, vertical projection, non-working position; in fig. 3 is a view A of FIG. one; in fig. 4 is a view B in FIG. one.

A device for suction ventilation of blind workings contains a hard ventilation pipe 1 with a side opening 2 and with a trolley 3 installed on it with rail guides 4 located on the outer surface of the hard ventilation pipe 1 along an arc of a circumference of its cross section, the main telescopic link 5 with the trolley 6 and rail guides 7, located on the outer surface of the hard ventilation pipe 1 parallel to its axis, additional telescopic links 8 and 9 with t trolleys 10 and 11. The main telescopic link 5 contains rail guides 12 and 13, located on opposite side surfaces of the main telescopic link, for carriages 10 and 11. The main 5 and additional 8 and 9 telescopic links contain gas outlets 14, drives 15 with installed on there are gears 16 meshed with a rail with straight teeth 17. Drives 18-21 are mounted on carts 3, 6, 10 and 11. The main telescopic link 5 contains additional suction holes 22 and 23 with rubber rims 24. Side opening 2 is intended for connecting the main telescopic link 5 to a rigid vent link.

The device works as follows

Before the explosion, shut off the end hole (not shown) of the rigid ventilation pipe 1, intended to ventilate the mine before blasting, and open the side opening 2. After the explosion, the drive 18 of the cart 3 is turned on and the main telescopic link 5 moves along the hard circular arc ventilation pipe at a distance equal to 1/4 of its circumference, after which the actuator 19 is turned on, the carriage 6 moves along the rails 7 and is installed above the side opening 2, then the actuator 15 is turned on and the telescopic sections of the main telescopic link 5 are moved apart. Then the drives 20 and 21 of the carriages 10 and 11 are turned on and the additional telescopic links 8 and 9 move on them along rail guides 12 and 13, are installed above the holes 22 and 23, and with the help of rubber flanges 24, additional telescopic links 8 and 9 communicate with the main telescopic link 5, after which the drives 15 move the additional telescopic links 8 and 9. As a result, they move and the device for suction ventilation dead-end mine workings takes working position. Explosive gases are sucked through the exhaust ports 14 of the main 5 and additional 8 and 9 telescopic links, which ensures the suction of air along the vertical and horizontal axes of the output section. This contributes to a uniform effective removal of gases over the cross section of generation and reduces the duration of its ventilation.

Claims (1)

Claim A device for suction ventilation of blind workings, including a fan, a hard ventilation pipe connected to the fan and the main telescopic link, characterized in that, in order to increase the efficiency of ventilation of a dead-end mine working, the device is equipped with additional telescopic links and rail guides, while additional telescopic links located on a rigid pipeline mutually opposite to each other, all telescopic links are installed perpe Dicularly rigid ventilation duct, the latter being made with a side opening for communication with the main telescopic link, part of the rail guides is placed on the outer surface of the rigid ventilation duct along its length and along the arc of its cross-sectional circumference, and the other part on opposite side surfaces of the main telescopic link , moreover, the telescopic links are equipped with carriages with drives mounted on rails with the ability to move, and nona with venting holes in length. 1484970 I ^am Fig.z 1484970