RU2579088C1 - Dust collector - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention relates to technologies of processing of minerals and structural materials and can be used in aspiration plants during production, sorting and filling of graphite, cement, dry coal. Dust separator comprises vertical prismatic settling chamber with vertical axis of symmetry, ceiling cover with opening and connected to it vertical dust-air mix feed branch pipe with outer and inner surfaces with common vertical axis of symmetry, and cleaned air discharge opening, also having a vertical axis of symmetry, vertical side walls with inner and outer surfaces and adjacent to ceiling covering openings discharge of purified air. In cleaned air discharge windows of the ceiling covering and side walls installed are fabric filters, hot floor with dust discharge window, as well as connected to it gas-tight storage system and connected to the vertical pipe dust-air mix feed horizontal pipeline to feed dust-air mix. Vertical axis of the window and dust-air mix feed branch pipe and the vertical axis of cleaned air discharge opening aligned with vertical axis of symmetry of the dust-collecting chamber, roof opening and dust-air mix feed branch pipe are arranged in the centre of ceiling with abutment to the vertical axis of the chamber and cleaned air discharge opening roof is placed in formed by circular area with limited from outside perimeter of inner surface of side walls of dust-collecting chamber , and inside-perimeter dust-air mix feed branch pipe outer surface. Dust-air mix feed opening inside the chamber is connected to a diffuser with axis of symmetry aligned with that of the chamber, and around side walls at the level of cleaned air discharge windows with a gap for air duct there is a prismatic casing with bottom side window plug and changing into over-the-ceiling area in confuser with branch pipe outlet of cleaned air into atmosphere and opening for passage of horizontal dust-air mix feed pipeline.

EFFECT: technical result is an increased efficiency when used in aspiration systems of fine particles.

1 cl, 3 dwg

Description

The invention relates to technologies for processing minerals and building materials and can be used in suction plants in the production, sorting and pouring of graphite, cement, dry coal.

A known dust collector containing a cyclone dust concentrator with a nozzle system for tangential inlet of gas-ash flows, straight-through windows of cleaned gas flows and hearth windows for dust extraction (Aerodynamic calculation of boiler plants. Normative method. Third edition, edited by S. I. Mochan. Energy, L ., 1977, ch. III - D. Ash collectors, p. 89). The disadvantage of the dust collector is the low efficiency of dust removal from gas streams.

Known dust collector containing a cyclone chamber with a tangential inlet of dust and gas streams, equipped with a water irrigation system, straight-through exhaust gas windows and a batch window for the extraction of dust and water mixture (patent RU No. 2306485; IPC F23J 3/04 dated 05.06.2006, BI No. 26 from 2007). The disadvantage of the dust collector is the low efficiency of dust removal from gas streams, as well as the need for a large flow of water for irrigation, the resulting need for wastewater treatment.

Known dust collector of a fabric type containing a multi-sleeve gas duct with filter elements (Boiler units. Volume 2. Boiler units. Auxiliary devices and operation of boiler plants. KF Roddatis, E.I. Romm, N.A. Semenenko and other Gosenergoizdat, M-L., 1946, p. 464-465, fig.). The disadvantage of the invention is the low reliability and complexity of the operation of the fabric elements when cleaning gaseous products with large and coarse dust particles.

A precipitating type dust collector is known, comprising at least one vortex dust concentrator with an axisymmetric annular channel, a blade swirl integrated therein, a direct-flow gas-dust flow inlet pipe, a direct-flow exhaust gas outlet window, a lateral dusty-saturated flow lateral outlet window, a vertical prismatic quadrilateral prismatic chamber having a frontal wall with at least one input window for dust-saturated flow, a rear wall with a window for the release of purified gas, side walls, ceiling, under with a dust extraction window, an internal cavity with a built-in unit of vertical dust precipitation plates, as well as a flat vertically slit nozzle of a dust-saturated flow connecting a side outlet window of a dust concentrator and a window for entering a dust-saturated flow of a frontal wall of a dust precipitation chamber (Aerodynamic calculation of boiler plants. The Normative Method, Third Edition, edited by S.I. Mochan, Energy, L., 1977, chap. III - D. Ash Collectors, p. 73-78). The disadvantage of this device is the low efficiency of dust collection from gas flows, as well as the need for operational energy consumption to create an electric field in the installation.

The closest analogue dust collector is known, containing a vertical prismatic precipitation chamber with a vertical axis of symmetry, a ceiling with a window and a vertical nozzle for introducing a dust-air mixture with an external and internal surface having a common vertical axis of symmetry, and a cleaned air outlet window also having a vertical axis of symmetry, vertical side walls with external and internal surfaces and adjacent to the ceiling floor windows of the output of cleaned air ha installed in the windows of the cleaned air outlet of the ceiling and side walls are cloth filters, a floor covering with a dust outlet window, as well as a gas-tight bunker system connected to it and a horizontal pipeline for supplying the air-dust mixture connected to the vertical pipe for supplying dust and air mixture (RF patent No. 2373460; F23J 3/04 dated 05/19/2008; BI No. 32, 2009). The disadvantage is a decrease in the efficiency of dust collection when using the device in aspiration systems of fine particles.

The objective of the invention is to increase the efficiency of dust collection when used in aspiration systems of fine particles.

To do this, in a dust collector containing a vertical prismatic precipitation chamber with a vertical axis of symmetry, a ceiling with a window and a vertical inlet of the dust-air mixture connected to it with external and internal surfaces having a common vertical axis of symmetry, and a cleaned air outlet window also having a vertical axis symmetries, vertical side walls with external and internal surfaces and adjacent to the ceiling floor windows of the outlet of purified air installed in the windows exhaust air outlet for ceiling and side walls, cloth filters, underfloor ventilation with a dust outlet window, as well as a gas-tight bunker system connected to it and a horizontal dust-air mixture supply pipe connected to a vertical pipe for supplying dust-air mixture, according to the invention, the vertical axis of the window and the pipe for introducing dust-air mixture and the vertical axis of the cleaned air outlet window are aligned with the vertical axis of symmetry of the dust chamber, the ceiling window and the inlet pipe the air-dust mixture is placed in the center of the ceiling overlapping adjacent to the vertical axis of the chamber, and the ceiling window of the cleaned air outlet is located in its annular area, while the outer surface of the side walls of the dust-collecting chamber is limited by the perimeter, inside the perimeter of the outer surface of the dust-air mixture inlet pipe, in addition, a diffuser having an axis of symmetry combined with the axis of symmetry of the camera is connected to the input window of the dust-air mixture inside the chamber, and around the side walls at the level of the output A prismatic casing is installed with a gap for the air flow, having a plug on the side of the hearth window and passing into the confuser in the overhead region with a pipe for the release of purified air into the atmosphere and a window for the passage of a horizontal pipeline for supplying dust and air mixture, the diffuser height is (0.40-0 , 60) N, and the height of the windows in the side walls (0.05-0.30) N, where N is the distance between the ceiling and the hearth window, m.

By combining the vertical axis of the window and the nozzle of the inlet of the dusty air mixture and the vertical axis of the window of the outlet of the cleaned air with the vertical axis of symmetry of the dust collecting chamber, the placement of the ceiling window and the nozzle of the input of the dust-air mixture in the center of the ceiling, adjacent to the vertical axis of the chamber, and the ceiling window of the outlet of purified air in formed annular area with the restriction from the outside by the perimeter of the inner surface of the side walls of the dust chamber, inside the outer perimeter the surface of the inlet pipe of the dust-air mixture, by connecting to the inlet window of the dust-air mixture inside the diffuser chamber having an axis of symmetry aligned with the axis of symmetry of the chamber, installing around the side walls at the level of the cleaned air outlet windows with a gap for the air duct of the prismatic casing muffled from the side of the hearth window and passing into the overhead region into the confuser with a pipe for the release of purified air into the atmosphere and a window for the passage of a horizontal pipeline for supplying dust-air mixture, as well as by measuring the height of the diffuser Nd = (0.40-0.60) N, the height of the windows in the side walls Nok = (0.05-0.30) N, where N is the distance between the ceiling and the hearth window, m, effective cleaning is achieved air flow from fine dust, its capture in the precipitation chamber and collection in the bunker system, which solves the problem. Even a slight deviation of the Nd and Nok parameters to a greater or lesser extent, as well as the exclusion of other features from the distinctive part of the proposal, lead to a sharp jump-like deterioration in the efficiency of dust collection, an increase in the number of fine dust particles in the air flows discharged into the atmosphere. The combination of the proposed features is optimal.

The essence of the proposal is illustrated by drawings, where in FIG. 1 shows a diagram of the proposed dust collector with connection to an aspiration unit, a longitudinal section; in FIG. 2 is a section AA in FIG. one; in FIG. 3 is a view B in FIG. one.

The dust collector in FIG. 1-3 contains a vertical prismatic precipitation chamber 1 (hereinafter chamber 1) with a vertical axis of symmetry k, a ceiling 2 with a window 3 and a vertical pipe 4 for entering the dust-air mixture 5 with external 6 and internal 7 surfaces having a common vertical axis j symmetry, and the window 8 of the outlet of cleaned air 9, also having a vertical axis of symmetry d, the side walls 10 with the outer 11 and inner 12 surfaces and adjacent to the ceiling 2 windows 13 output of cleaned air 9 (hereinafter windows 13), installed cloth filters 14, 15, windows 14 and 15 of the ceiling 2 and side walls 10, a floor filter 16 with a fine dust outlet 18 and a gas tight bunker system 19 connected to it and connected to a vertical pipe 4 for supplying dust-air mixture 5 are horizontal dust-air mixture supply pipe 20 5. A feature of the dust collector in FIG. 1-3 is the combination of the vertical axis j of window 3 and the nozzle 4 for entering the dusty air mixture 5 and the vertical axis d of the window 8 for cleaning the cleaned air with the vertical axis of symmetry k of chamber 1, the placement of the ceiling window 3 and the nozzle 4 for entering the dust-air mixture 5 in the center of the ceiling 2 adjacent to the vertical axis k of the chamber 1, and the ceiling window 8 of the outlet of purified air 9 - in the formed annular area 21 with the restriction from the outside by the perimeter of the inner surface 12 of the side walls 10 of the chamber 1, inside the perimeter of the outer surface 6 inlet 4 of the dust-air mixture inlet 5. In addition, a diffuser 22 having a symmetry axis f combined with the symmetry axis k of the camera 1 is connected to the dust-air mixture inlet window 3 inside the chamber 1, and around the side walls 10 at the level of the windows 13 with a clearance 23 for a prismatic casing 24 is installed for the air duct, having a plug 25 on the side of the hearth window 17 and passing into the confuser 26 in the above-ceiling region with a nozzle 27 for the release of purified air 9 into the atmosphere and a window 28 for passage of a horizontal pipeline 20 for supplying the dusty air mixture 5; the height of the diffuser 22 is Nd = (0.40-0.60) N, and the height of the windows 13 in the side walls 10 Knock = (0.05-0.30) N, where H is the distance between the ceiling 2 and the hearth window 17 , m. On the pipeline 20 there is a fan 29 with a vacuum and flow regulator 30 and an aspiration system 31 with shutters 32 (in Fig. 1, positions 31, 32 are conditionally indicated), and on the pipe 27 there is a fan 33 with a flow regulator 34. Hopper system 19 equipped with gas-tight nodes output 35 (in Fig. 1 are indicated conditionally).

The operation of the dust collector in FIG. 1-3 is carried out by turning on the fans 29, 33 and the intake into the system 31 through the shutters 32 of fine dust 18 in the local dusty air jets 36, then merged into the stream of dusty air mixture 5 in the pipe 20. The stream of dusty air mixture 5 with fine dust 18 through the pipe 4 and the window 3 of the ceiling 2 enters the diffuser 22; in the diffuser 22, the flow of the dust-air mixture 5 expands with the formation of circulating currents 37, from which particles of fine dust 18 are actively separated; under their own weight they are lowered into the window 17 of the chamber 1 and displayed in the hopper 16, where they are collected and stored until unloading through nodes 35 for disposal or to the consumer. The cleaned air 9 through the filters 14, 15 in the windows 8, 13 is discharged into the gap 23 between the casing and the side walls 10 and into the confuser 26 above the ceiling 2, then into the vertical pipe 27 by the fan 33 is discharged into the atmosphere. An insignificant amount of fine dust with streams 9 settles in the filters 14, 15. The filters are periodically shaken and blown with compressed air (shaking and blowing devices are not shown in Fig. 1-3). Filters 14, 15 are removable, if necessary, they can be replaced with new ones.

By combining the vertical axis j of window 3 and the nozzle 4 for entering the dusty air mixture 5 and the vertical axis d of the window 8 for discharging cleaned air 9 with the vertical axis of symmetry k of chamber 1, placing the ceiling window 3 and pipe 4 for entering the dust-air mixture 5 in the center of the ceiling 2 with adjoining to the vertical axis k of the chamber 1, and the ceiling window 8 of the outlet of purified air in the formed annular area 21 with the restriction from the outside by the perimeter of the inner surface 12 of the side walls 10 of the chamber 1, inside the perimeter of the outer surface 6 the inlet pipe 4 of the dust-air mixture 5, by connecting to the dust-air mixture inlet window 5 inside the chamber 1 of the diffuser 22 having a symmetry axis f combined with the symmetry axis k of the chamber 1, installed around the side walls 10 at the level of the windows 13 of the cleaned air outlet 9 with a gap 23 for the air flow of the prismatic casing 24, muffled from the side of the hearth window 17 and passing in the overhead region to the confuser 26 with a pipe 27 for the release of purified air 9 into the atmosphere and a window 28 for the passage of a horizontal pipeline 20 for supplying a dusty air mixture 5, as well as maintaining the height of the diffuser 22 equal to Nd = (0.40-0.60) N, the height of the windows 13 in the side walls 10, equal to Nok = (0.05-0.30) N, where N is the distance between ceiling 2 and a hearth window 17, m, an effective cleaning of the air flow from fine dust is achieved, its capture in the precipitation chamber and collection in the bunker system, which solves the problem. Even a slight deviation of the Nd and Nok parameters to a greater or lesser extent, as well as the exclusion of other features from the distinctive part of the proposal, lead to a sharp jump-like deterioration in the efficiency of dust collection, an increase in the number of fine dust particles in the air flows discharged into the atmosphere. The combination of the proposed features is optimal.

The practical use of the proposed dust collector is associated with suction plants in the production of graphite, cement, dry coal, in particular, in rooms and at sites for sorting and filling these materials.

Claims (1)

A dust collector containing a vertical prismatic precipitation chamber with a vertical axis of symmetry, a ceiling with a window and a vertical inlet of a dust-air mixture connected to it with external and internal surfaces having a common vertical axis of symmetry, and a cleaned air outlet window also having a vertical axis of symmetry, vertical side walls with external and internal surfaces and adjoining to the ceiling floor windows of the outlet of purified air, installed in the eye outlet windows air of the ceiling and side walls, cloth filters, an under-floor ceiling with a dust outlet window, as well as a gas-tight bunker system connected to it and a horizontal dust-air mixture supply pipe connected to a vertical nozzle for supplying air-dust mixture, characterized in that the vertical axis of the window and the dust-in air inlet pipe mixtures and the vertical axis of the window of the outlet of cleaned air are combined with the vertical axis of symmetry of the dust precipitation chamber, the ceiling window and the inlet pipe of the dusty air the mixture are placed in the center of the ceiling overlapping adjacent to the vertical axis of the chamber, and the ceiling window of the cleaned air outlet is in the formed annular area when the outside surface is limited by the perimeter of the inner surface of the side walls of the dust-collecting chamber, inside the perimeter of the outer surface of the dust-air mixture inlet pipe, in addition, a diffuser having an axis of symmetry combined with the axis of symmetry of the chamber is connected to the input window of the dusty air mixture inside the chamber, and around the side walls at the level of the output windows it is cleaned A prismatic casing is installed with a clearance for the air flow, having a plug on the side of the hearth window and passing into the confuser in the above-ceiling region with a pipe for the release of purified air into the atmosphere and a window for the passage of a horizontal pipeline for supplying dust and air mixture, the diffuser height is (0.40-0 , 60) N, and the height of the windows in the side walls (0.05-0.30) N, where N is the distance between the ceiling and the hearth window, m.

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