KR20090004020A - A dust-collector - Google Patents

Abstract

A dust collecting apparatus is provided to increase dust collecting efficiency substantially and increase life and replacement cycle of the bag filters by primarily collecting dust flowing into the apparatus using gravity and inertial force and uniformly dispersing the primarily filtered dust, thereby secondly collecting the primarily filtered dust by bag filters. A dust collecting apparatus comprises: a housing(30); on which a dust inflow port(32) and an air exhaust port(33) are formed, and in which a plurality of bag filters(40) filtering dust are embedded; a hopper(31) which is integrally formed on a bottom part of the housing, and in which dust is accumulated; a dedusting unit spraying air into the bag filters to remove dust adsorbed onto the surface of the bag filters; side plates(52) positioned at both sides of the dust inflow port and vertically extended within the housing; a blocking plate(53) positioned on a top part of the dust inflow port between the side plates; and a settling chamber(50) formed in an inner space formed by the side plates and blocking plate to guide dust flown in through the dust inflow port to the hopper.

Description

Dust collector {A dust-collector}

The present invention relates to a dust collector that can filter harmful dust, and more particularly to a dust collector that can increase the dust collection efficiency by collecting the dust flowing into the dust collector in multiple stages.

In general, dust collectors are used to prevent environmental pollution caused by exhaust gases, fine dust, and industrial wastes produced during manufacturing or processing in manufacturing plants such as cement, textiles, chemicals, and metal processing plants. The dust collector is mainly used by a cyclone centrifugal force collector or a filter bag by a filter bag. In particular, the bag filter is provided with a bag filter for collecting the dust to dust the harmful particles contained in the exhaust gas or dust to discharge only the clean air, such a bag filter is usually a waste containing exhaust gas or dust during manufacturing or processing It is connected by ducts so that the exhaust gas or waste is transported to one side or a separate place in the industrial site, including the generated factory.

Referring to such a conventional bag filter as an example in more detail as follows. As shown in FIG. 1, the conventional bag filter is provided with a hopper 10 having an inlet 11 formed at one side of the filter bag, and a cylindrical bag filter positioned vertically in the hopper 10. 12) is built in a number. The upper end of the bag filter 12 is fixedly installed by a diaphragm 13 that partitions the inside of the hopper 10, and the upper portion of the diaphragm 13 injects high pressure air into the bag filter 12. The blower tube 14 is provided with a spray nozzle for releasing dust adsorbed on the surface of the bag filter 12. In addition, the lower end of the hopper 10 is formed with a dust outlet 15 for discharging the dust accumulated therein, the upper end is formed with an air outlet 16 to discharge the dust is clean air.

Due to the above configuration, the dust introduced into the hopper 10 through the inlet 11 is collected by the bag filter 12, and the high pressure air is sprayed into the bag filter 12 periodically. Dedusting will occur. However, the dust introduced into the hopper 10 is composed of particles of various sizes, and the dust is directly adsorbed to the bag filter 12 in the process of being introduced into the hopper 10, so that the bag filter is made by relatively large particles. (12) The blockage of the mesh is generated, and particularly, the blockage phenomenon occurs more severely in some bag filters 12 adjacent to the inlet 11, thereby reducing the overall dust collection efficiency of the bag filter 12. In addition, there is a disadvantage in that the lifespan and replacement cycle of the bag filter 12 itself, which are built by the dust that is not evenly distributed, are shortened.

The present invention is to solve the problems as described above, and the dust flowing into the inside of the apparatus is primarily collected by gravity and inertia force, the first filtered dust is evenly dispersed and secondary by the bag filter The dust collection is performed to significantly increase the dust collection efficiency, and to provide a dust collector that can increase the life and replacement cycle of the bag filter.

According to a feature of the present invention, a dust inlet 32 and an air outlet 33 are formed and a housing 30 in which a plurality of bag filters 40 for filtering dust are built-in, and at the bottom of the housing 30. And a dust extraction device configured to exhaust dust adsorbed on the surface of the bag filter 40 by injecting air into the bag filter 40, the hopper 31 being formed in the upper portion of the housing 30 and accumulated in the housing 30. In the dust collecting apparatus including a 60, Between the side plate 52 extending in the vertical direction in the housing 30 so as to be located on both sides of the dust inlet 32, and the side plate 52 The blocking plate 53 is provided to be positioned above the dust inlet 32, and the dust introduced through the dust inlet 32 is formed in the inner space formed by the side plate 52 and the blocking plate 53. It is characterized in that the settling chamber 50 to guide the hopper 31 side The dust collector is provided.

According to another feature of the present invention, the settling chamber 50 is formed in a box shape having a relatively long length compared to the width, and the plurality of bag filters 40 are disposed on both sides of the settling chamber 50. A dust collector is provided, characterized by the above.

According to another feature of the present invention, the dust inlet 32 is provided with a dust collecting device, characterized in that formed in a position close to the middle or middle of the vertical length of the housing (30).

According to another feature of the invention, the blocking plate 53 is coupled downwardly inclined from the dust inlet 32 or a portion of the blocking plate 53 is formed with a settling surface 54 inclined downward. A dust collecting device is provided.

According to another feature of the present invention, the sedimentation chamber 50 is provided with a dust collecting device, characterized in that the injection nozzle 55 which is capable of injecting powder, liquid or gas containing slaked lime, water is further provided. .

As described above, according to the present invention, by having the sedimentation chamber 50 communicated with the dust inlet 32 in the housing 30, the incoming dust is settled stably, so that the relatively large dust particles Firstly settled directly in the hopper 31 by the inertia force, relatively small particles can be secondary collected by the bag filter 40 to further increase the dust collection efficiency of the bag filter 40 as well as As a result, the dust of the bag filter 40 may be easily exhausted, and the life and replacement cycle of the bag filter 40 may be extended.

In addition, by forming the dust inlet 32 in the middle portion of the housing 30, not only can give sufficient time for the dust to sink stably, but also the pressure loss due to the length of the settling chamber 50 becomes longer. There is an advantage that can be minimized.

In addition, the settling chamber 50 is formed in a box shape having a relatively narrower width than a length, and a blocking plate having a settling surface 54 inclined downward from the dust inlet 32 on the upper surface of the settling chamber 50 ( 53) is provided, the dust flowing into the housing 30 at a high pressure and high pressure hits the settled surface 54, while the velocity at the time of inflow decreases and passes through a narrow passage to the hopper 31 in a more compact and stable state There is an advantage that can be settled.

In addition, the front end portion of the sedimentation chamber (01) is further provided with an injection nozzle (55) for injecting lime or water into the incoming dust, it is possible to remove harmful gases such as hydrochloric acid gas or sulfuric acid gas contained in the dust In addition, by cooling the hot gas to remove the risks such as ignition or explosion, and also has the advantage of reducing the scattering of dust particles.

The objects, features and advantages of the present invention described above will become more apparent from the following detailed description. Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

Figure 2 is a perspective view of the cutaway showing a preferred embodiment according to the present invention, Figures 2 to 5 are cross-sectional views showing the internal configuration and operating state according to various embodiments. As shown in FIG. 2, the present invention includes a housing 30 formed at a position where the dust inlet 32 and the air outlet 33 face each other, and dust is accumulated at the lower end of the housing 30. The hopper 31 is formed integrally. In addition, the interior of the housing 30 is partitioned by a diaphragm 34 located close to the upper end, a pair of side plates 52 in the lower portion of the diaphragm 34 is vertically downward to the hopper 31 Extend to the side; The blocking plate 53 is coupled to an approximately middle portion between the side plates 52 so as to be positioned above the dust inlet 32, and a part of the blocking plate 53 is downward from the dust inlet 32. An inclined settling surface 54 is formed. In addition, the upper and lower ends of the side plate 52 is provided in an open state, and in the upper and lower spaces formed by the side plate 52 and the blocking plate 53, respectively, the air chamber 51 and the settling chamber 50. This is formed, the air chamber 51 and the settling chamber 50 is to form a movement path of the dust and the dust, respectively. In addition, a plurality of bag filters 40 are built in the housing 30 so as to be located at both sides of the settling chamber 50, and the bag filters 40 penetrate the diaphragm 34 so that an upper end thereof is formed. It is coupled to be located on the upper surface of the diaphragm 34. In addition, the upper end of the bag filter 40 is open, the air is injected into the inside by the dust extraction device 60 to be described later to dedust dust. In addition, reference numerals denote the dust cover 39 located at the lower end of the roof cover 38 and the hopper 31 covering the upper surface of the housing 30, and the dust outlet 39 is a hopper ( A separate device for collecting or transporting the dust accumulated in 31 may be combined.

Referring to the drawings the operating state of the present invention by such a configuration as follows. As shown in FIG. 3, the side plate 52 penetrated through the diaphragm 34 extends toward the hopper 31 in the housing 30 of the present invention. A plurality of bag filters 40 penetrate the diaphragm 34 on both sides thereof. By this configuration, the dust introduced into the housing 30 through the dust inlet 32 is moved downward through the settling chamber 50, wherein the settling chamber 50 is the width of the top and bottom And relatively narrower than the left and right lengths, the dust becomes more dense and gradually settles in a stable state. In addition, since the lower end of the sedimentation chamber 50 is open and the length extending downward is longer than the bag filter 40, the dust that has passed through the sedimentation chamber 50 has relatively large dust particles. Due to the over-inertia force is settled to the hopper 31 as it is, relatively small particles are collected by the bag filter 40. In addition, the air filtered by the bag filter 40 is discharged to the air outlet 33 through the air chamber 51 formed through the diaphragm 34 through the interior of the bag filter 40. In addition, the upper part of the diaphragm 34 is provided with a blower tube 61 and a nozzle to the inside of the housing 30 extending to the inside of the exhaust device 60, which is periodically or necessitated by the dust removal device 60 Accordingly, the high pressure air is injected into the bag filter 40 to dedust dust collected on the surface of the bag filter 40. In the present invention, relatively large dust particles are hoppers by the settling chamber 50. Directly accumulated in the 31, dust of relatively small particles are evenly distributed and the dust is collected by the bag filter 40, so that the dust removal of the bag filter 40 by the dust removal device 60 is not only easy, but also part of the dust. Dust collection is prevented from being biased to the bag filter 40 of the.

In addition, as shown in Figure 4, between the side plate 52 is provided with a blocking plate 53 for partitioning its interior up and down, the blocking plate 53 is the air from the dust inlet 32 The settling surface 54 is formed to be inclined downward toward the discharge port 33 side, and the speed is reduced by the collision of the dust flowing into the settling chamber 50 at high speed through the dust inlet 32 by the settling surface 54. It is gradually settled by gravity and inertia. In addition, the dust inlet 32 is preferably installed in the middle portion of the upper and lower lengths of the housing 30. As such, the dust inlet 32 is formed in the middle portion of the housing 30, so that the dust settles more stably. If the position of the dust inlet 32 is formed too low or too high, the dust is not sufficiently stabilized and does not settle to the hopper 31 or the duct length is long, resulting in a pressure loss. There is concern. In addition, the blocking plate 53 may be coupled to the side plate 52 directly inclined downward without forming a separate settled surface 54, the air outlet 33 is in the middle of the housing 30 Although shown as being formed in the part, this is not particularly limited in position, and on one side of the air chamber 51 formed by the side plate 52 and the blocking plate 53 or inside the housing 30. When the air chamber 51 is not formed, the air chamber 51 may be formed to communicate with one side of the housing 30 of the upper portion of the diaphragm 34.

In addition, as shown in Figure 5, the sedimentation chamber 50, the injection nozzle 55 that can inject the harmful gas removing material, cooling or extinguishing material, such as powder, liquid or gas components including slaked lime or water, etc. It may be further provided, this injection nozzle 55 is preferably installed downward in the settling chamber 50 in a position close to the dust inlet (32). In addition, the injection nozzle 55 may select a material to be sprayed according to the place where the dust collector of the present invention is installed and the components of the dust, by removing harmful gases such as hydrochloric acid gas or sulfuric acid gas or by cooling the hot gas This can eliminate risks such as fire and explosion.

The present invention described above is not limited to the above-described embodiment and the accompanying drawings, and various substitutions, modifications, and changes are possible within the scope without departing from the technical spirit of the present invention. It will be evident to those who have knowledge of.

1 is a cross-sectional view showing an example of a conventional dust collector.

Figure 2 is a perspective view of the cut in accordance with an embodiment of the present invention

Figure 3 is a side cross-sectional view according to an embodiment of the present invention

4 is a front cross-sectional view according to an embodiment of the present invention.

5 is a front sectional view according to another embodiment of the present invention.

Claims (5)

A dust inlet 32 and an air outlet 33 are formed, and a housing 30 in which a plurality of bag filters 40 for filtering dust are built-in is formed integrally with the lower end of the housing 30 to accumulate dust. And a dust extraction device 60 installed above the hopper 31 and discharging dust adsorbed on the surface of the bag filter 40 by injecting air into the bag filter 40. In the dust collecting apparatus, the side plate 52 extending in the vertical direction in the housing 30 so as to be located at both sides of the dust inlet 32, and the dust inlet 32 between the side plate (52) A blocking plate 53 is provided to be positioned at an upper portion thereof, and the dust introduced through the dust inlet 32 is disposed in the inner space formed by the side plate 52 and the blocking plate 53 toward the hopper 31. Dust collecting device, characterized in that the settling chamber 50 to guide. The method of claim 1, wherein the settling chamber 50 is formed in a box shape having a relatively long length compared to the width, characterized in that a plurality of bag filters 40 are arranged on both sides of the settling chamber 50. Dust collector made with. The dust collecting device according to claim 1, wherein the dust inlet (32) is formed at a position near or in the middle of the upper and lower lengths of the housing (30). The dust collector of claim 1, wherein the blocking plate 53 is coupled downwardly inclined from the dust inlet 32, or a part of the blocking plate 53 is formed with a settling surface 54 inclined downward. Device. The dust collector according to claim 1 or 2, further comprising an injection nozzle (55) capable of injecting powder, liquid or gas including slaked lime and water in the settling chamber (50).

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