JP4005902B2 - Union type dust collector - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a combined dust collector that includes a dust collection filter, a dust collection electrode, and a discharge electrode, and that simultaneously performs filtration dust collection and electric dust collection. More specifically, the present invention relates to a dust collection device for a dust collection device. The present invention relates to a combined dust collector that allows the performance to be maintained at a higher level while at the same time significantly increasing the performance and life of the dust filter.
[0002]
[Prior art]
In general, where a large amount of combustion gas is discharged as in a pulverized coal-fired power plant, an electrostatic precipitator is mainly used. Mainly uses dust equipment.
[0003]
However, as the fuel used for combustion is replaced by low-sulfur fuel, the discharged dust will have a large electrical resistivity, which causes the collection efficiency phenomenon and the reverse ionization phenomenon. Due to the occurrence, it becomes impossible to maintain conditions suitable for electrostatic dust collection, and there is a problem that the dust collection performance due to electrostatic dust collection is remarkably lowered.
[0004]
In addition, unlike the electric dust collector, the filtration dust collector can maintain stable and high dust collection efficiency without depending on the electrical characteristics of the dust, but the filtration operation proceeds. As the dust layer collected by the filter becomes thicker, the pressure loss of the filter increases, and there is a problem that normal operation becomes impossible.
[0005]
Due to the above-mentioned problems, dust collected on the surface of the filter by periodic dusting operation (cleaning) will be expelled. If the dust concentration is high or the filtration speed is fast, the dust layer does not drop well due to the nature of the dust itself, or the dropped dust reattaches to the adjacent filter, which reduces the dust collection performance. There is.
[0006]
Furthermore, in order to maintain the operation of the dust collector while preventing the re-adhesion phenomenon by the dust removal operation as described above, excessive dust removal such as increasing the frequency of dust removal operation or increasing the dust removal strength. As a result of the operation, there is a problem that the filter pores become large and the dust collection efficiency is lowered, or the filter itself is worn and damaged, and the life of the filter is shortened.
[0007]
In addition, in order to complement the problems of the electrostatic dust collector and the filtration dust collector as described above, a combined dust collector constructed by combining the electrostatic dust collector and the filtration dust collector was developed. There is a problem in that the dust collecting filter is easily damaged by the discharge spark generated from the discharge electrode of the electrostatic precipitator, making it impossible to operate the apparatus.
[0008]
[Problems to be solved by the invention]
Therefore, the present invention has been devised to solve the above-mentioned problems of various boards, and its purpose is to simultaneously collect dust while maintaining the dust collection performance of the dust collector higher. An object of the present invention is to provide a combined dust collector that combines the principle of electrostatic dust collection and filtration dust collection so that the performance and life of the dust filter are significantly extended.
[0009]
Another object of the present invention is to provide a combined dust collecting device that makes it possible to more easily drop the desorbed dust while preventing the dust collecting filter from being damaged.
[0010]
Another object of the present invention is to provide a combined dust collector that allows the inflowing dust-containing gas to uniformly spread inside the dust collector.
[0011]
Another object of the present invention is to provide a combined dust collector that allows the filtered clean gas to uniformly gather and be discharged.
[0012]
Another object of the present invention is to provide a combined dust collecting device that allows dust-containing gas to flow more appropriately to a dust collecting filter and a dust collecting electrode.
[0013]
Another object of the present invention is to provide a combined dust collector that allows dust collected and dedusted to be easily collected in the lower part of the dust collector.
[0014]
[Means for Solving the Problems]
In order to achieve the above object, the present invention provides a combined type comprising a main body having an inlet and an outlet, a discharge electrode mounted inside the main body, a dust collecting electrode, and a dust collecting filter. In the dust collector, a dividing plate is horizontally provided in the main body between the inlet and the outlet, and a plurality of mounting holes are formed in the dividing plate at regular intervals, and one end of each of the mounting holes is provided. A large number of cylindrical dust collecting filters to be inserted are vertically provided at the lower part of the dividing plate, and the dust collecting electrodes are formed in a plate shape, but a large number of the dust collecting electrodes are provided. Is attached to the lower surface of the dividing plate so as to be arranged in a straight line at regular intervals along both sides of the dust collecting filter with an inclination when viewed in a horizontal cross section, and the outer side of the dust collecting electrode. Installed separately from the dust collection electrode, and installed inside and above the main body In addition, a plurality of discharge electrodes are attached, and guide vanes for guiding the dust-containing gas flowing in through the inflow port between the dust collecting electrodes are provided on the lower surface of the divided plate, The outlet is provided and configured on one side of the upper body.
[0015]
In addition, a dust removal nozzle is provided on the upper side of the main body corresponding to the mounting hole of the dividing plate, the dust removal nozzle is connected to a pipe, and an air injection portion connected to the pipe is on the outside of the main body. It is characterized by being provided .
[0016]
In addition, an inflow expansion pipe is provided between the inflow port and the main body.
[0017]
Further, an outflow reduction pipe is provided between the outflow port and the main body.
[0018]
In addition, a rear guide vane is provided on the lower surface of the dividing plate to guide the dust-containing gas that has flowed into the dust collecting electrode after being removed from the dust collecting electrode after flowing in through the inlet. It is characterized by that.
[0019]
In addition, a hopper having an inclined surface and a discharge port is provided at a lower portion of the main body.
[0020]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.
[0021]
As shown in FIG. 1, when the configuration of the present invention is seen in a partially cut perspective view of the dust collector according to the present invention, the dust collector is provided with a square main body 10, and one of the main bodies 10. An inflow port 11 having an inflow expanding pipe 13 is connected to the lower part on the side, and an outflow port 12 having an outflow reducing pipe 14 is connected to the upper part on the other side of the main body 10.
[0022]
The dust collector is provided with a dividing plate 50 having a large number of mounting holes 51 horizontally inside the main body 10, and dust collecting filters 40 are respectively provided vertically below the mounting holes 51. A large number of dust collecting electrodes 30 attached to the lower surface of the dust collecting device are inclined and arranged on both sides of the dust collecting filter 40, and a large number of discharge electrodes 20 are perpendicular to the mounting ring 60 outside the dust collecting electrode 30. It is attached and equipped.
[0023]
Further, the dust collector is provided with a hopper 15 having an inclined surface 16 and a discharge port 17 at a lower portion of the main body 10, and a plurality of dust removing nozzles 80 corresponding to the dust collecting filter 40 at an upper portion of the dividing plate 50. The dust removing nozzle 80 is connected to a pipe 81 and connected to an air injection part 82 provided outside the main body 10.
[0024]
Here, the inlet 11 serves as a passage through which dust-containing gas flows into the main body 10, and the outlet 12 becomes a clean gas after the dust-containing gas is filtered and discharged to the outside. It acts as a passageway.
[0025]
The inflow expansion pipe 13 spreads the dust-containing gas flowing in through the inflow port 11 so as to be uniformly moved to the dust collection electrode 30 and the dust collection filter 40.
[0026]
Further, the outflow reduction pipe 14 is configured to allow the clean gas formed by filtering the dust-containing gas to appropriately gather at the outlet 12 and move.
[0027]
Further, the hopper 15 plays a role of collecting a lump of dust generated at the time of filtration or dust falling at the time of dedusting, and is moved to the lower portion along the inclined surface 16 and collected. The liquid is discharged to the outside through the discharge port 17.
[0028]
The discharge port 17 is more preferably provided with a rotary pump, a rotary valve, or the like so as to forcibly discharge the dust collected on one side thereof.
[0029]
Further, the discharge electrode 20 and the dust collection electrode 30 are applied with a high voltage so that the discharge electrode 20 and the dust collection electrode 30 are arranged in a row, and the discharge spark can be generated when the high voltage is applied. The discharge electrode 20 is provided outside the dust collection electrode 30 so that the dust collection filter 40 is not damaged.
[0030]
The discharge electrode 20 is preferably configured in the form of a long wire, a bar with a needle, a saw plate, or the like so that electrical characteristics can be more appropriately realized.
[0031]
Further, the dust collecting electrodes 30 are arranged in a large number so as to be inclined slightly so that the dust-containing gas that flows in is in contact with a wider cross-sectional area.
[0032]
The dust collecting electrode 30 is inclined to about 135 degrees so that the cross-sectional area where the dust-containing gas abuts on the dust collecting electrode 30 is maximized, and the dust collecting effect by the inertia force of the dust is obtained. More preferably, it is maximized.
[0033]
Further, the dust collection filter 40 is provided perpendicular to the shape of a cylindrical bag or cartridge, and the dust-containing gas collected by the discharge electrode 20 and the dust collection electrode 30 is filtered more precisely while passing. It is what you want to do.
[0034]
The dividing plate 50 serves to separate the dust-containing gas and the clean gas at the same time while appropriately providing the dust collecting filter 40.
[0035]
In other words, the partition plate 50 functions to closely separate the dust-containing gas and the clean gas by filtering the dust-containing gas at the lower portion thereof and moving the clean gas to the upper portion thereof.
[0036]
In addition, the mounting hole 51 serves as a passage through which the dust collecting filter 40 is firmly mounted and at the same time the filtered gas moves to the upper part of the dividing plate 50, and is ejected by the dust removing nozzle 80. This serves as a passage through which gas flows into the dust collection filter 40.
[0037]
In addition, the mounting ring 60 is configured such that a pair of upper and lower electrodes are separated from each other on the lower surface of the dividing plate 50 inside the main body 10 so that a large number of discharge electrodes 20 are appropriately provided.
[0038]
In addition, it is more preferable that the mounting ring 60 is insulated from the main body 10 to prevent a high voltage from flowing out.
[0039]
In addition, the guide vanes 70 are configured to uniformly flow between the dust collecting electrodes 30 provided in a large number so as to guide and incline the dust-containing gas flowing through the inlet 11. Accordingly, the dust-containing gas flows more evenly between the dust collection electrode 30 and the dust collection electrode 30 by the guide blades 70, and the dust collection of dense and precise dust occurs.
[0040]
In addition, the dust removal nozzle 80 is configured so that the outside air formed by the air injection part 82 is injected through the pipe 81 and dispersed from the upper part to the lower part of the dust collection filter 40.
[0041]
The outside air jetted in this manner easily removes dust from the dust collecting filter 40, and also collects dust attached to the dust collecting electrode 30 together with the hopper 15. It is intended to maximize the dust collection efficiency.
[0042]
On the other hand, FIG. 2 is a schematic plan sectional view of the dust collector according to the present invention, FIG. 2 (a) is an overall plan sectional view of the dust collector, and FIG. 2 (b) is a main part of the dust collector. FIG.
[0043]
Referring to FIG. 2, when the filtration process according to the present invention is seen, the dust-containing gas containing dust that flows in through the inlet 11 spreads uniformly through the inflow expansion pipe 13 and guides through the guide vanes 70. In other words, the air flows between a large number of dust collecting electrodes 30.
[0044]
As described above, when it flows into the dust collecting electrode 30, the dust collecting action by the discharge electrode 20 causes the electric dust to be collected in the dust collecting electrode 30, which filters the dust contained in the dust-containing gas. It is.
[0045]
At this time, the dust-containing gas that has been removed from the dust collecting electrode 30 and moved to the rear thereof is again guided to the outside of the dust collecting electrode 30 by the rear guide vanes 90 and flows into the inclined dust collecting electrode 30. It is done.
[0046]
Further, as shown in FIG. 2B, the dust-containing gas flows in at a high speed, bends while colliding with the inclined dust collecting electrode 30, and flows into the dust collecting electrode 30. At this time, the dust in the dust-containing gas moves to the dust-collecting electrode 30 without being able to follow the streamlines of the dust-containing gas due to its own inertial force, so that more precise dust collection occurs. It becomes.
[0047]
At this time, since a high voltage is applied to the discharge electrode 20, a discharge spark can be generated, but the dust collection electrode 30 and the discharge electrode 20 are sequentially formed on the outside of the dust collection filter 40. As a result, the dust collecting filter 40 is completely prevented from being damaged by the discharge spark.
[0048]
The dust-containing gas collected by the dust collection electrode 30 and the discharge electrode 20 as described above moves to the inside of the dust collection electrode 30 and flows into the inside from the outer peripheral surface of the dust collection filter 40. It is filtered.
[0049]
In this way, the dust-containing gas is precisely filtered to become a clean gas and moves upward through the mounting hole 51 of the dividing plate 50, and the clean gas thus moved flows through the outflow reduction plate 14. It is discharged to the outside through the outlet 12 in a state where the increase in resistance is minimized.
[0050]
On the other hand, as shown in FIG. 3, when viewing a schematic longitudinal sectional view showing a dust collection state of the dust collector according to the present invention, the arrow shown in FIG. 3 indicates the flow of the dust-containing gas. It is shown.
[0051]
The dust-containing gas that flows in through the inlet 11 of the main body 10 spreads widely through the inflow expansion tube 13 and is charged by the discharge electrode 20 fixed to the mounting ring 60 while flowing in from the outside of the dust collection electrode 30 to the inside. As a result, electrical dust collection occurs at the dust collection electrode 30.
[0052]
As described above, the dust-containing gas that has undergone electrical dust collection and is finely filtered flows into the dust collecting electrode 30 and is located in the center of the dust collecting electrode 30 and the dust collecting electrode 30. Then, it moves to the upper part of the main body 10 through the mounting hole 51 of the dividing plate 50.
[0053]
At this time, the dust-containing gas is once again densely filtered while passing through the dust collection filter 40, and a clean gas is formed.
[0054]
The clean gas thus generated is discharged to the outside through the outlet 12 provided at the upper part of the main body 10.
[0055]
In addition, since the discharge spark that can be generated from the discharge electrode 20 is generated outside the dust collection filter 40, the dust collection filter 40 is not damaged, and thus the life of the dust collection filter 40 is significantly extended. is there.
[0056]
On the other hand, as shown in FIG. 4, when a vertical sectional view showing the dust removal state of the dust collector according to the present invention is seen, the arrow in FIG. 4 indicates the outside air injected through the air injection portion 82. It shows the flow.
[0057]
When the dust-containing gas is filtered by the discharge electrode 20, the dust collecting electrode 30, and the dust collecting filter 40, dust is bound to the outer peripheral surfaces of the dust collecting electrode 30 and the dust collecting filter 40 to form a dust layer. As a result, the dust collection efficiency of the dust-containing gas is significantly reduced.
[0058]
When the dust collection efficiency is reduced in this way, the dust is removed from the upper part of the dust collection filter 40 by spraying the outside air to the dust removal nozzle 80 via the air injection part 82 and the pipe 81, and the attached dust layer is dropped. It will be an operation.
[0059]
Here, the outside air injected through the dust removal nozzle 80 is injected from the upper surface of the dust collection filter 40 to the lower portion thereof, moves to the outer peripheral surface while passing through the inside of the dust collection filter 40, and collects the air. The dust filter 40 passes between the dust collecting electrodes 30 on the outer peripheral surface.
[0060]
As described above, the outside air passing between the dust collection filter 40 and the dust collection electrode 30 is crushed and dropped from the dust layer formed by being bound to the dust collection filter 40 and the dust collection electrode 30, and thus dropped. The dust that has been moved moves along the inclined surface 16 to the hopper 15 at the lower part of the main body 10 and is discharged to the outside through the discharge port 17.
[0061]
Here, most of the dust dropped from the dust collection filter 40 by the dust removal operation moves to the dust collection electrode 30 and is collected by the dust collection electrode 30, so that the dust dropped from the dust collection filter 40 is collected. The reattachment phenomenon which is collected again by itself or the dust collecting filter 40 near phosphorus is greatly reduced.
[0062]
As described above, the present invention relates to a combined dust collector that includes a dust collection filter, a dust collection electrode, and a discharge electrode, and that simultaneously performs filtration dust collection and electric dust collection. The present invention relates to a combined dust collecting device that enables the dust collecting performance of a dust collecting filter to be maintained at a higher level, and at the same time, the performance and life of the dust collecting filter to be significantly extended.
[0063]
In the combined dust collector comprising a main body having an inlet and an outlet, a discharge electrode mounted in the main body, a dust collecting electrode, and a dust collecting filter, the inlet and the outlet The cylindrical dust collecting filter is provided with a dividing plate horizontally inside the main body, a plurality of mounting holes are formed in the dividing plate at regular intervals, and one end of each is fitted into the mounting hole. A large number of the dust collecting poles are vertically provided at the lower part of the divided plate, and the dust collecting electrodes are formed in a plate shape, and a plurality of the dust collecting electrodes are inclined when viewed in a horizontal section. Attached to the lower surface of the dividing plate so as to be arranged in a straight line at regular intervals along both sides of the dust collecting filter, and installed on the outside of the dust collecting electrode so as to be separated from the dust collecting electrode. A large number of the discharge electrodes are attached to the mounting rings provided at the top and bottom of the inside And a guide wing for guiding the dust-containing gas flowing in through the inlet between the dust collecting electrodes is provided on a lower surface of the dividing plate, and the main body on one side of the dividing plate is disposed on one side of the main body. An outlet is provided and configured.
[0064]
By providing the combined dust collector as described above, an increase in pressure loss of the dust collecting filter is suppressed, the filtration speed is remarkably improved, the collection efficiency for fine dust is remarkably increased, and the high voltage discharge spark. This has the effect of preventing damage to the dust collection filter.
[0065]
【The invention's effect】
As mentioned above, the present invention allows the pressure loss of the dust collection filter by allowing the dust collection device to maintain higher dust collection performance while at the same time significantly increasing the performance and life of the dust collection filter. The increase in the pressure is suppressed, the filtration rate is remarkably improved, the collection efficiency for fine dust is remarkably increased, and the dust collection filter is prevented from being damaged by the high voltage discharge spark.
[0066]
In addition, the present invention significantly reduces dust removal efficiency by removing the desorbed dust more easily while preventing damage to the dust collection filter, and is reattached to the dust collection filter during the dust removal operation. This significantly reduces the amount of dust, thereby reducing the pressure loss of the dust collecting filter and reducing the number of dust removal times.
[0067]
In addition, the present invention has an effect that the dust-containing gas that flows in is uniformly spread inside the dust collector, so that more uniform dust collection is achieved, thereby improving the dust collection performance.
[0068]
Further, the present invention makes it possible to uniformly collect and discharge the filtered clean gas, so that the discharge of the clean gas to the dust collection filter is not hindered, so that the dust collection efficiency and performance are significantly increased. Has an effect.
[0069]
Further, the present invention has an effect that dust collection performance is improved by allowing dust-containing gas to flow more appropriately to the dust collection filter and the dust collection electrode, thereby improving dust collection performance. .
[0070]
In addition, the present invention makes it possible to easily discharge the collected dust after the dust removal operation by allowing the dust collected and dedusted to be easily collected in the lower part of the dust collector. It has an effect.
[Brief description of the drawings]
FIG. 1 is a partially cut perspective view of a dust collector according to the present invention.
FIG. 2 is a schematic plan sectional view of a dust collector according to the present invention, (a) is an overall plan sectional view of the dust collector, and (b) is an enlarged plan sectional view of a main part of the dust collector. is there.
FIG. 3 is a schematic longitudinal sectional view showing a dust collection state of the dust collector according to the present invention.
FIG. 4 is a longitudinal sectional view showing a dust removal state of the dust collector according to the present invention.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 10 Main body 11 Inlet 12 Outlet 13 Inflow expansion pipe 14 Outflow reduction pipe 15 Hopper 16 Inclined surface 17 Outlet 20 Discharge electrode 30 Dust collection electrode 40 Dust collection filter 50 Dividing plate 51 Mounting hole 60 Mounting ring 70 Guide feather 80 Dedusting Nozzle 81 Piping 82 Air inlet 90 Back guide vane

Claims (6)

A main body (10) having an inlet (11) and an outlet (12), a discharge electrode (20), a dust collecting electrode (30) and a dust collecting filter (40) mounted in the main body (10). In a combined dust collector comprising:
A dividing plate (50) is horizontally provided in the main body (10) between the inlet (11) and the outlet (12),
A number of mounting holes (51) are formed in the divided plate (50) at regular intervals,
A plurality of cylindrical dust collection filters (40) each having one end fitted into the mounting hole (51) are vertically provided at the lower part of the dividing plate (50),
The dust collecting electrodes (30) are plate-shaped, but are provided in a large number, and when the plate-shaped dust collecting electrodes (30) are viewed in a horizontal section, the dust collecting filters ( 40) are attached to the lower surface of the dividing plate (50) so as to be arranged in a straight line at regular intervals along both sides of
A large number of discharge electrodes (20) are mounted on a mounting ring (60) which is installed outside the dust collection electrode (30) and spaced apart from the dust collection electrode (30) and which is provided inside and below the main body (10). )
Guide vanes (70) for guiding the dust-containing gas flowing in through the inlet (11) between the dust collecting electrodes (30) are provided on the lower surface of the dividing plate (50),
The combined dust collector, wherein the outlet (12) is provided on one side of the main body (10) above the divided plate (50).   A dust removal nozzle (80) is provided on the upper side of the main body (10) corresponding to the mounting hole (51) of the dividing plate (50), and the dust removal nozzle (80) is connected to the pipe (81). The combined dust collector according to claim 1, wherein an air injection part (82) connected to the pipe (81) is provided outside the main body (10).   The combined dust collector according to claim 1 or 2, wherein an inflow expanding pipe (13) is provided between the inlet (11) and the main body (10).   The combined dust collector according to claim 1 or 2, wherein an outflow reduction pipe (14) is provided between the outlet (12) and the main body (10).   A rear guide vane (90) for guiding the dust-containing gas that has flowed through the inlet (11) and moved to the rear of the main body from the dust collecting electrode (30) to the dust collecting electrode (30) again. ) Is provided on the lower surface of the dividing plate (50).   The combined dust collector according to claim 1 or 2, wherein a hopper (15) having an inclined surface (16) and a discharge port (17) is provided at a lower portion of the main body (10).

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