SU796411A2 - Dust-trapping unit - Google Patents

Description

(54) DUST ASSEMBLY INSTALLATION

The invention relates to the mining industry and can be used for dust collection in drilling holes. According to the main auth. No. 619640 is a well-known dust removal unit containing a hollow core drill bit, a perforator, hoses, air purification filters and a device for blocking a dust collector with a perforator, made in the form of a cow with mutually perpendicular channels, equipped with a slide valve and an ejection device 1. Disadvantages of this dust removal unit The installations are intensive overcooling of the mixing chamber of the ejection device and the freezing of the ice crust on the internal stacks of the nozzle channel during operation. installation in conditions of negative temperatures, which reduces the efficiency of dust collection. In addition, this installation does not completely trap fine dust, which is emitted through the ejector into the atmosphere of the mine workings. The purpose of the invention is to increase the efficiency of dust collection in conditions of negative temperatures by preventing the nozzle from freezing. The goal is achieved by the fact that the dust removal unit is equipped with a vortex energy separator, the inlet of which is communicated through an additional channel slotted in the housing of the device for blocking the dust collector with a perforator, with a channel supplying compressed air to the ejection device, while the hot flow of the vortex energy separator with an annular chamber formed by the outer surface of the nozzle of the ejection device and the inner surface of the nozzle with which the specified nozzle is provided, and you od cold flow vortex energorazdelitel communicates with an annular chamber which vypo.anena ejection device in the diffuser and the diffuser communicates with the cavity through the annular gap. In addition, the wall of the annular gap, located closer to the exit of the diffuser of the ejection device, is rounded. Fig. 1 shows a dust removal installation, a general view; 2, a device for blocking a dust collector with a perforator and a vortex energy separator.

The pulverizing unit consists of a hollow drill rod 1, a perforator 2, a crane 3 controlling a perforator, hoses 4 and 5, a pneumatic pillar, a barrel 6, filters 7 fine and coarse and a device 8 for blocking a dust collector with a perforator, comprising a housing 9 with a channel 10 and a plug 11, a stopper 12 with an emphasis 13, a spool 14 located in a channel 15 connected to a cannap 10 and a channel

16, supplying compressed air to the ejection device, as well as choke

17, spring 1.8, fitting 19, channels 20 and 21 and fitting 22.

The dust removal unit is equipped with a vortex energy splitter 23, the input of which is communicated via a channel 24 made in the housing of the locking device, with a channel 16. The output 25 of the hot flow of the vortex energy separator 23 communicates with the annular chamber 26, the ejector unit 28, communicating with the ejector. the mixing chamber 29. The outlet 30 of the cold flow of the vortex energy separator 23 communicates via a nozzle 31 with an annular chamber 32 in the housing of the diffuser 33 of the ejection device which communicates with the internal cavity 34 of the diffuser through an annular slot 35. made at an angle to the axis of the ejection device 28 close to the direct direction. The wall of the annular slit 35, located closer to the exit of the diffuser 33, is rounded.

The dust removal plant operates as follows.

When the perforator 2 is activated, compressed air from the line, passing through the blocking device 8, creates a vacuum in the channel 20, under the action of which the valve 14, overcoming the force of the spring 18, moves to the right, freeing the passage through channels 10 and 16 to the ejection device 28, and through channel 24 - to the vortex power distributor 23, where the compressed air is divided into hot and cold streams in accordance with the Ranque-Hilsch effect. A stream of warm air from the outlet 25 of the separator 23 enters the annular chamber 26, heating the nozzle 27 of the ejection device 28. From the annular chamber 28 warm air flows into the mixing chamber 29 of the ejection device. Preventing freezing from the nozzle 27 due to continuous (only during installation heat into the mixing chamber from the outer surface of the nozzle portion. - Cold air from outlet 30

the energy separator 23 through the pipe 31 enters. an annular chamber 32, pac-i, placed in the body of the diffuser 33. Then, a stream of cold air, having flowed out at supersonic speed from the annular slot 35 into the cavity 34 of the diffuser, flows in the direction of the convex rounded surface formed by one of the walls of the slot 35, in accordance with with the Coanda effect, the air stream deflects from the slit axis in the direction of exit from the diffuser 33 and creates additional vacuum in it, which contributes to more intensive mixing of the flows of cold and warm air containing fine particles dust, at the outlet of the ejection device. When thermal air flows are displaced, condensation of water vapor occurs, with moisture droplets falling out in the mixing zone. Under negative temperature conditions in the mixing zone, precipitation of crystallized frost is observed. In this case, the fine dust particles contained in the air stream emanating from the diffuser 33 are the centers of crystallization, as a result of which the thin stream is retained in the resulting particles and falls out of the working soil.

When the puncher is disconnected, the pressure in the cavity of compressed air canaps $ 20 and 15 is equalized, and the spool under the force of the spring 18 closes the channel 16, automatically turning off the dust removal unit.

Claims (1)

1. Dust removal unit by av. 619640, characterized in that, in order to increase the efficiency of dust collection under conditions of negative temperatures by preventing the ejection device from freezing, it is equipped with a vortex power distributor, the input of which is communicated through an additional channel made in the case of the device for blocking the dust collector with a perforator, a channel supplying compressed air to the ejection device, with the hot flow of the vortex energy separator communicating with the annular chamber formed externally s ejection surface of the nozzle device and the inner surface of the nozzle, which is provided with said nozzle, and the output of the cold flow vortex energorazdelitel communicates with an annular chamber which is formed in the diffuser ejection device and communicates with the cavity of the diffuser through the annular gap. 2s Installation according to claim 1, characterized by the fact that the wall of the annular gap, located closer to the exit of the diffuser of the ejection device, is rounded. Sk.Yuh, w ffm / m / i // m / M // im // / m / m // i ffj // m // i /// § // i // k W Information sources taken into account during the examination 1. USSR author's certificate 619640, class, E 21 C 7/02, 1974. ig. W 2B az.2