SU796458A1 - Dust-trapping unit - Google Patents

Description

(54) DUST ASSEMBLY INSTALLATION

The invention relates to the mining industry and can be used to trap dust when drilling holes at negative temperatures. Known; dust collector, including; its centrifugal fan, sludge trap and means for supplying water 1, The disadvantage of this dust collector is that it cannot be used in conditions of negative temperatures. The known dust removal unit includes a cyclone, a vacuum pump, a water separating tank with inlet and outlet openings, suction and discharge pipes and dust receiving hoses 2. A disadvantage of this installation is the high flow rate of the working fluid and the labor-intensive operation at negative temperatures. In addition, mine water, like drinking water, does not have a sufficiently high dust collection capacity. The purpose of the invention is to reduce the cost of dust collection at negative temperatures by using antifreeze as the working fluid. This is achieved by the fact that the installation is equipped with a fluid pump with suction and discharge channels, a connecting pipe and a water purification tank with an inlet H outlet and discharge windows, in the inner cavity of which perforated partitions are installed perpendicular to the flow of contaminated liquid. the movement of the flow is smaller than the size of the perforation of the previous partition, while the water purification tank through the inlet The pump is connected to the outlet of the water separation tank, the suction channel of the liquid pump is connected to the outlet pipe of the water cleaning tank, and the discharge channel of the liquid pump is connected to the vacuum pump through the connecting pipe. The drawing shows a schematic diagram of the heat catching installation.

3796

The installation consists of Cyclone I, a vacuum pump, 2, a water separation tank 3 with inlet 4 and outlet 5, suction 6 and 7 and discharge 8 pipelines, dust intake hoses 9, a liquid pump 10 with suction 11 and discharge 12 valves, connecting pipe 13 and water purification tank 14 with inlet 15 and outlet 16 nozzles and discharge ports 17, in the internal cavity of which perforated partitions 18 are installed perpendicular to the flow of contaminated liquid with perforation sizes of each subsequent eregorodki downstream movement smaller perforation size, previous partition.

The dust removal plant operates as follows.

The drill fines due to the dilution created by the vacuum pump 2 are transported via the receiving tubing 9 and the suction pipe 6 to the cyclone 1, where the coarse piercing takes place. The air cleared from it enters the suction line 7 into the vacuum pump 2, where the passage through the liquid ring is cleaned of fine dust and, together with the liquid, flows along the discharge line 8 into the water separation tank 3, in which the air flow separates from the working fluid. The air flow is discharged into the atmosphere, and the contaminated working fluid is directed to the water purification tank 14 and the passage through the perforated partitions 18 is cleaned from the dust moistened in it, which in the form of sludge accumulates at the bottom of the water purification tank 14 and is periodically removed from it through discharge windows 17. The cleaned working fluid from the water cleaning tank 14 by the liquid pump 10 through the connecting pipe 13 is supplied to the vacuum pump 2. When the installation is in operation, the control of the vacuum and liquid pump must It is interlocked

The use of a dust removal unit allows a considerable reduction in the flow rate of the working fluid, which is especially important under conditions of negative temperatures, when antifreeze is used as the last.

Claims (2)

Invention Formula Dust removal unit including cyclone, vacuum, pump, water separating tank with inlet and outlet openings, suction and discharge piping and dust receiving hoses, in order to reduce dust collection costs under conditions of negative temperatures by using as a working liquid antifreeze, the installation is equipped with a fluid pump with suction and discharge channels, connecting pipe and water purification tank with inlet and outlet nozzles and discharge windows, in the internal cavity of which are installed perpendicular to the flow of contaminated liquid, perforated partitions with perforation size of each subsequent partition in the course of flow are smaller than the size of perforation of the previous partition, while the water purification tank through the inlet pipe connected to the outlet of the water cleaning tank, suction channel of the liquid pump through a connecting pipe connected to a vacuum pump. Sources of information taken into account in the examination 1.: Means of combating dust in coal mines. Directory Directory, M., 1970, p. .74. 2. Sip Gin, VA and others. Dust removal of the atmosphere of mines. M., 1958, p. 266-268, fig. 125 (prototype).