KR102449163B1 - Electric dust filter that collects fine dust - Google Patents

Abstract

An electrostatic precipitation filter collecting fine dust comprises: a first charging unit to which a first voltage is applied; and a second charging unit which is arranged on the first charging unit and to which a second voltage different from the first voltage is applied. The first charging unit includes: a first charging frame having a rectangular frame shape; a plurality of first charging electrodes which are coupled to the first charging frame and to which the first voltage is applied; and a first outer frame to which one end portions of the plurality of first electrodes are coupled. The first charging frame includes: a first frame and a fourth frame extending in a first direction; and a second frame and a third frame extending in a second direction intersecting the first direction. The first charging electrode extends in the second direction and has a round rod shape. Particles electrically charged by a charging unit set can be completely collected.

Description

Electric dust filter that collects fine dust

The present invention relates to an electric dust collecting filter for collecting fine dust.

A conventional air sterilization apparatus includes an inlet chamber into which harmful particles such as viruses or bacteria propagated in the form of droplets and air are introduced and harmful particles such as viruses or bacteria propagated from an inlet in order to filter harmful particles such as viruses or bacteria and air. A filter unit located at the rear of the chamber and connected to the inlet chamber through which the harmful particles and the air are introduced from the outlet of the inlet chamber to the inlet, and a filter unit including a filter member for filtering the harmful particles and the air. did.

Although harmful particles such as viruses or bacteria propagated through the filter member in the form of droplets are filtered by the filter member and attached to the filter member, the harmful particles are removed. Harmful particles increased, resulting in a situation in which the filter member had to be replaced.

In addition, since the harmful particles reach the filter member without any resistance until they are filtered through the filter member, the accumulated amount of the attached harmful particles has to be remarkably increased.

In addition, in order to increase the durability and efficiency of the air sterilization apparatus, the demand for various sterilization methods is increasing.

Accordingly, the present invention has been devised to solve the above problems, and the problem to be solved by the present invention is to collect fine dust in which the particles charged by the charging unit set can be completely collected by the upper dust collecting unit. The purpose is to provide a filter.

The problems of the present invention are not limited to the problems mentioned above, and other technical problems not mentioned will be clearly understood by those skilled in the art from the following description.

An electric dust collecting filter for collecting fine dust according to an embodiment for solving the above problems includes: a first charging unit to which a first voltage is applied; and a second charging unit disposed on the first charging unit and to which a second voltage different from the first voltage is applied, wherein the first charging unit includes a first charging frame having a rectangular frame shape, and coupled to the first charging frame and a plurality of first charging electrodes to which the first voltage is applied, and a first outer frame to which one end of the plurality of first charging electrodes are coupled, wherein the first charging frame is each along a first direction a first frame and a fourth frame that extend, and a second frame and a third frame that extend along a second direction crossing the first direction, respectively, wherein the first charging electrode extends along the second direction It is characterized in that it has a round bar shape.

The first frame includes a plurality of first through holes spaced apart along the first direction, the first charging electrode has a first width, the first through hole has a second width, the second The width may be greater than the first width.

Each of the plurality of first charging electrodes may pass through the plurality of first through holes, and the first outer frame may be attached to an outer surface of the first frame.

The fourth frame may include a plurality of first grooves spaced apart from each other in the first direction, and the first groove may have a third width, the third width being smaller than the second width.

Other ends of the plurality of first charging electrodes may be seated in the first grooves, respectively.

The details of other embodiments are included in the detailed description and drawings.

According to the present invention according to an embodiment, it is possible to provide an electric dust collecting filter installed in an air sterilizer in which particles charged by the charging unit set can be completely collected by the dust collecting unit at the top.

Effects according to the embodiments are not limited by the contents exemplified above, and more various effects are included in the present specification.

1 is an exploded perspective view of an electric dust collecting filter according to an embodiment of the present invention.
FIG. 2 is a perspective view of a first charging unit of the electrostatic precipitation filter of FIG. 1 .
3 is an exploded perspective view of the first charging unit of FIG. 2 .
4 is a perspective view illustrating a first frame and a first electrode of the first charging unit of FIG. 2 .
5 is a perspective view illustrating a fourth frame and a first electrode of the first charging unit of FIG. 2 .
6 is an enlarged plan view of area A of FIG. 5 .
FIG. 7 is a perspective view showing a second charging unit of FIG. 1 .
8 is a plan view of the second charging unit of FIG. 7 .
9 is an enlarged plan view of area B of FIG. 8 .
FIG. 10 is an exploded perspective view showing a dust collecting part and a rear cover of the electric dust collecting filter of FIG. 1 .
11 is a plan view showing a case of the electrostatic precipitation filter of FIG. 10 .
12 is an enlarged plan view of region C of FIG. 11 .
13 is a plan view illustrating the dust collecting unit of FIG. 10 in detail.
14 is an enlarged plan view of area D of FIG. 13 .
15 is a plan view illustrating a dust collecting unit according to another exemplary embodiment.
16 is a perspective view illustrating a first charging unit according to another exemplary embodiment.
17 is an exploded perspective view of the first charging unit according to FIG. 16 .

Advantages and features of the present invention and methods of achieving them will become apparent with reference to the embodiments described below in detail in conjunction with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but will be implemented in a variety of different forms, only these embodiments allow the disclosure of the present invention to be complete, and common knowledge in the technical field to which the present invention belongs It is provided to fully inform the possessor of the scope of the invention, and the present invention is only defined by the scope of the claims.

Reference to an element or layer "on" of another element or layer includes any intervening layer or other element directly on or in the middle of the other element or layer. Like reference numerals refer to like elements throughout.

Although the first, second, etc. are used to describe various elements, these elements are not limited by these terms, of course. These terms are only used to distinguish one component from another. Therefore, it goes without saying that the first component mentioned below may be the second component within the spirit of the present invention.

Hereinafter, specific embodiments will be described with reference to the accompanying drawings.

1 is an exploded perspective view of an electric dust collecting filter according to an embodiment of the present invention.

Referring to FIG. 1 , the air sterilization device to which the electrostatic precipitation filter 10 according to an embodiment is applied is used as a small-capacity air sterilization device or a large-capacity air sterilization device, if necessary. The small-capacity air sterilizer may be, for example, an air sterilizer used in an indoor home, or a fan filter unit (FFU), and a large-capacity air sterilizer, for example, an air handling unit (AHU). can be applied as

The small-capacity air sterilizer or the large-capacity air sterilizer differs only in its scale or in the addition and/or omission of some ancillary devices, and since the practical configurations are the same, hereinafter, the small-capacity air sterilizer will be specially distinguished while describing the small-capacity air sterilizer. If there is no need, the description of the large-capacity air sterilizer will be omitted.

As shown in FIG. 1 , the electric dust collecting filter 10 includes a front cover 100 , a rear cover 200 facing the front cover 100 , and a first between the front cover 100 and the rear cover 200 . The charging unit 300, the second charging unit 400 between the first charging unit 300 and the rear cover 200, and the dust collecting unit 500 between the second charging unit 400 and the rear cover 200, may include

The front cover 100 may have a rectangular frame shape. That is, the front cover 100 includes first frames extending along the first direction DR1 , and a second direction DR2 connected to the first frames and intersecting the first direction DR1 . and second frames. Fine dust may be introduced through the front cover 100 . The fine dust introduced through the front cover 100 may be darkly discharged between the first charging unit 300 and the second charging unit 400 and then collected by the dust collecting unit 500 .

FIG. 2 is a perspective view of a first charging unit of the electrostatic precipitation filter of FIG. 1 . 3 is an exploded perspective view of the first charging unit of FIG. 2 . 4 is a perspective view illustrating a first frame and a first electrode of the first charging unit of FIG. 2 . 5 is a perspective view illustrating a fourth frame and a first electrode of the first charging unit of FIG. 2 . 6 is an enlarged plan view of area A of FIG. 5 .

1 to 6 , the first charging unit 300 may include a first charging frame 310 and a first electrode 320 . The first charging frame 310 may have a rectangular frame shape as shown in FIG. 3 . That is, the first charging frame 310 includes a first frame 311 extending in the first direction DR1 , and a fourth frame 314 facing the first frame 311 and extending in the first direction DR1 . ), the second frame 312 extending along the second direction DR2 and connected to the first frame 311 and the fourth frame 314, respectively, and the second frame extending along the second direction DR2 ( 312 , and may include a third frame 313 connected to the first frame 311 and the fourth frame 314 , respectively.

The first frame 311 may include a plurality of first charging holes H_311 , and the fourth frame 314 may include a plurality of first charging grooves H_314 .

A plurality of first electrodes 320 may be provided. The plurality of first electrodes 320 may be arranged along the first direction DR1 and may each extend along the second direction DR2 . One end of the plurality of first electrodes 320 may be coupled to the first charging external frame 330 as shown in FIG. 3 . The plurality of first electrodes 320 may pass through the plurality of first charging holes H_311 described above, respectively. As shown in FIG. 4 , each of the first electrodes 320 may have a first width W1 , and each of the first charging holes H_311 may have a second width W2 . The second width W2 is greater than the first width W1 , so that the plurality of first electrodes 320 may pass through the plurality of first charging holes H_311 described above, respectively. 5 , other ends of the plurality of first electrodes 320 may be embedded in the plurality of first charging grooves H_314 of the fourth frame 314 . The first charging groove H_314 may be formed by being recessed by a predetermined thickness or more from the surface facing the first frame 311 of the fourth frame 314 . The first dagger groove H_314 may have a third width W3 , and the third width W3 may be greater than the first width W1 but smaller than the second width W2 . For this reason, when the other ends of the plurality of first electrodes 320 pass through the outermost portions of the plurality of first charging grooves H_314 and are embedded in the plurality of first charging grooves H_314, the plurality of first charging grooves H_314, respectively. There is an advantage that the flow of the electrodes 320 can be minimized.

Meanwhile, a first magnet body MP1 having a first magnetism may be further disposed inside the fourth frame 314 . In addition, a second magnet body having a second magnetism opposite to the first magnetism may be further formed at the other end of the first electrode 320 . For example, the first magnetism may be an N pole, and the second magnetism may be an S pole, but vice versa. As shown in FIG. 6 , due to the attractive force (the attractive force formed in the second direction DR2 ) formed between the other end of the first electrode 320 having the second magnetism and the first magnet body MP1 , a plurality of The flow of the first electrodes 320 may be minimized.

In some embodiments, the second magnet body may be additionally attached to a surface extending along the first direction DR1 among the other ends of the first electrode 320 . In some other embodiments, the second magnet body includes a first surface extending along the first direction DR1 and a surface extending along the first direction DR1 of the other ends of the first electrode 320 and connected to the second magnet body. It may be formed at the front end (the front end in the direction facing the first magnet body MP1) among the surfaces extending along the two directions DR2.

A first voltage may be applied to the first electrode 320 . The first voltage may be a ground voltage. Alternatively, the first voltage may be a negative voltage. In an embodiment, the first voltage may be a negative voltage. Each of the first electrodes 320 may be a 2mm round bar and may be made of SUS material. The number of first electrodes 320 may be ten. The interval between the first charging holes H_311 may be about 20 mm, the above-described second width W2 may be 2.1 mm, and the number of first charging holes H_311 may be 10. A distance between the first electrodes 320 may be about 20 mm.

FIG. 7 is a perspective view showing a second charging unit of FIG. 1 . 8 is a plan view of the second charging unit of FIG. 7 . 9 is an enlarged plan view of area B of FIG. 8 .

7 to 9 , the second charging unit 400 includes the second frames 410_S1, 410_S2, 410_S3, 410_S4, 410_S5, 410_S6, the second electrode 430, the receiving units 421 and 425, and It may include a locking part 440 .

A planar shape of the second frames 410_S1 , 410_S2 , 410_S3 , 410_S4 , 410_S5 , and 410_S6 may generally have a grid shape.

The second frames 410_S1 , 410_S2 , 410_S3 , 410_S4 , 410_S5 , and 410_S6 extend along the first direction DR1 , the 2-1 frame 410_S1 , and the 2-3th frame 410_S3 , the second direction ( It may include a 2-2nd frame 410_S2 and a 2-4th frame 410_S4 extending along DR2. The 2-1 frame 410_S1 may be directly connected to the 2-2 frame 410_S2 , the 2-2 frame 410_S2 may be directly connected to the 2-3 th frame 410_S3 , and the 2-3 th frame (410_S3) may be directly connected to the 2-4th frame (410_S4). However, the 2-1 frame 410_S1 and the 2-4 frame 410_S4 may be connected through a separate fastening means. For example, although the 2-1 frame 410_S1 and the 2-4 frame 410_S4 are not shown, bolts passing through the outer surface from the inner surface of the 2-1 frame 410_S1 are separately disposed, The bolts may be fastened to each other in such a way that they are fastened to a groove recessed from the outer surface of the second-fourth frame 410_S4. The groove of the 2-4th frame 410_S4 may be formed in a spiral shape so that the bolt is coupled thereto.

In some embodiments, a separate coupling member is disposed between the 2-1 th frame 410_S1 and the 2-4 th frame 410_S4, and the 2-1 th frame 410_S1 and the 2-4 th frame 410_S1 and the 2-4 th frame through the coupling member Frames 410_S4 may be coupled to each other.

The second frames 410_S1, 410_S2, 410_S3, 410_S4, 410_S5, and 410_S6 may further include a 2-5th frame 410_S5 and a 2-6th frame 410_S6. The 2-5th frame 410_S5 and the 2-6th frame 410_S6 may extend along the second direction DR2, respectively. The 2-5th frame 410_S5 may be directly connected to the 2-1th frame 410_S1 , and may be spaced apart from the 2-4th frame 410_S4 in the first direction DR1 . The 2-6 th frame 410_S6 may be directly connected to the 2-1 th frame 410_S1 , and may be spaced apart from the 2-2 th frame 410_S2 in the first direction DR1 . The spaced space between the 2-5th frame 410_S5 and the 2-4th frame 410_S4 and the spaced apart space between the 2-6th frame 410_S6 and the 2-2nd frame 410_S2 have a second charge to be described later, respectively. Fixing parts 440 of the part 400 may be disposed.

According to an embodiment, the 2-1 th frame 410_S1 and the 2-4 th frame 410_S4 are connected through separate fastening means, and the 2-1 th frame ( ) in a symmetrical relationship in the first direction DR1 ( 410_S1 and the second-second frame 410_S2 are integrally connected. This is a high space between the 2-5th frame 410_S5 and the 2-4th frame 410_S4 and the spaced apart space between the 2-6th frame 410_S6 and the 2-2nd frame 410_S2, respectively. There is an advantage in that it is advantageous to replace the tops 440 and/or the second electrode 430 . More specifically, in the spaced space between the 2-5th frame 410_S5 and the 2-4th frame 410_S4 and the spaced apart space between the 2-6th frame 410_S6 and the 2-2nd frame 410_S2 In order to replace the fixing parts 440 and/or the second electrode 430 disposed respectively, the 2-5th frame 410_S5 , the 2-4th frame 410_S4 , and the 2-6th frame 410_S6 and Each of the 2-2 frames 410_S2 must be disassembled. According to an embodiment, the 2-1 frame 410_S1 and the 2-4 frame 410_S4 are connected through separate fastening means, and the first The 2-1 th frame 410_S1 and the 2-2 th frame 410_S2 that are in a symmetrical relationship in the direction DR1 are integrally connected, so that the 2-1 th frame 410_S1 and the 2-4 th frame 410_S4 are integrally connected. Even if only disassembly (or separation) between the 2-1 frame 410_S1 and the 2-4 frame 410_S4 through the removal of the fastening means between the 2-2 frame 410-S2 is Since it is directly connected to the 2-4th frame 410_S4 separated through the frame 410_S3, the 2-2nd frame 410_S2 is naturally separated so that the fixing parts 440 and/or the second electrode 430 are separated. Replacement may be readily possible.

Meanwhile, the second charging unit 400 may further include internal frames 421 and 425 . The inner frames 421 and 425 may extend in the first direction DR1 . A plurality of inner frames 421 and 425 may be provided. That is, one inner frame 421 , 425 may be disposed on one side of the second direction DR2 to be spaced apart from the second-first frame 410_S1 in the second direction DR2 , and the other inner frame 421 may be disposed on one side of the second direction DR2 . , 425 may be disposed on the other side of the second direction DR2 to be spaced apart from the 2-3rd frame 410_S3 in the second direction DR2 . Hereinafter, for convenience of description, one inner frame 421 , 425 disposed on one side of the second direction DR2 is referred to as one inner frame 421 , 425 , and the other inner frame 421 and 425 disposed on the other side of the second direction DR2 is referred to. One inner frame (421, 425) will be referred to as the other inner frame (421, 425).

Each of the inner frames 421 and 425 may include a first inner frame 421 and a second inner frame 425 connected to the first inner frame 421 . As shown in FIG. 7 , the first inner frame 421 completely extends along the first direction DR1 , and the lower end of the adjacent 2-5th frame 410_S5 and the lower end of the 2-6th frame 410_S6 . can be connected with The upper surface of the first inner frame 421 may be directly connected to the second inner frame 425, and the upper surface of the first inner frame 421 may be located on the same line as the lower surface of the second inner frame 425, The upper surface of the first inner frame 421 may be positioned on the same line as the lower surface of the groove portion HP, which will be described later. Unlike the first inner frame 421 , the second inner frame 425 may be formed of a plurality of separated patterns. That is, the plurality of separated patterns may be directly coupled to the upper surface of the first inner frame 421 and may be arranged with a predetermined separation distance along the first direction DR1 . A space between the plurality of separated patterns may be hereinafter defined as a groove HP. That is, the groove portion HP may be a space surrounded by an extension line extending the upper surfaces of the adjacent separated patterns, side surfaces of the adjacent separated patterns, and the upper surface of the first inner frame 421 . A plurality of groove portions HP may be provided. The plurality of grooves HP may provide a space for disposing the second electrode 430 .

One end of the second electrode 430 is fixed to a fixing part 440 disposed in a space between the 2-2 frame 410_S2 and the 2-6 frame 410_S6, and The other end may be fixed to the fixing unit 440 disposed in a space between the 2-4th frame 410_S4 and the 2-5th frame 410_S5. The fixing part 440 may be formed of a spring. That is, the spring is a spaced apart space between the 2-2 frame 410_S2 and the 2-6 frame 410_S6 and the space between the 2-4 frame 410_S4 and the 2-5 frame 410_S5. A first spring portion fixed to a support portion (a member having a circular planar shape in FIG. 9 ), respectively, disposed on the It may include a spring part and a third spring part connected to one end or the other end of the second electrode 430 .

As shown in FIGS. 7 and 8 , one end of the second electrode 430 has a fixing part 440 disposed in a space between the 2-2 frame 410_S2 and the 2-6 frame 410_S6 . is fixed to, is bent and extended between the groove portions HP provided on the other side of the second direction DR2 and one side of the first direction DR1, and then extends again in the second direction DR2, one side in the second direction DR2 And it is bent and extended in the groove part HP provided on one side of the first direction DR1, and again extends in the other side of the second direction DR2. That is, the second electrode 430 is integrally formed, and the integrally formed second electrode 430 is sequentially caught in the grooves HP arranged in a zigzag arrangement and finally the other end of the second electrode 430 . may be fixed to the fixing unit 440 disposed in a space between the 2-4th frame 410_S4 and the 2-5th frame 410_S5.

First, the second electrode 430 according to an embodiment is different from the above-described first electrode 420 in that it is integrally formed (or provided as one). That is, unlike the first electrode 420 , the second electrode 430 is integrally formed (or provided as one), thereby simplifying the design.

A second voltage may be applied to the second electrode 430 according to the present embodiment. The second voltage may be different from the first voltage. The second voltage may be a positive voltage. The second voltage may be a high voltage. The second voltage may have a voltage level for generating dark discharge. The second voltage may be 8.0 to 9.0 kV.

Furthermore, the second voltage, that is, a high voltage, may be applied to the second electrode 430 . The reason that the high voltage is applied to the second electrode 430 is to darkly discharge fine dust flowing into the front cover 100 through the electric field formed between the first charging unit 300 and the second charging unit 400 . because it makes In order to perform dark discharge, the magnitude of the positive voltage must be greater than the magnitude of the negative voltage. However, when a high voltage second voltage is applied to the second electrode 430 , the temperature of the second electrode 430 is temporarily increased, so that the tension (or tension) of the second electrode 430 is reduced and relaxed. . When the tension (or tension) of the second electrode 430 is reduced and relaxed, the arrangement (overlapping or arrangement in the thickness direction) between the first electrodes 320 and the second electrode 430, which will be described later, collapses and the first It is difficult to form an electric field between the electrode 320 and the second electrode 430 , or in the first direction DR1 . And it may be difficult to form an electric field having a uniform intensity along the second direction DR2 . However, according to an embodiment, one end of the second electrode 430 is fixed to the fixing part 440 disposed in a space between the 2-2 frame 410_S2 and the 2-6 frame 410_S6, and , the other end of the second electrode 430 is fixed to the fixing unit 440 disposed in a space between the 2-4th frame 410_S4 and the 2-5th frame 410_S5, respectively, so that the second electrode 430 is fixed to each other. ), there is an advantage in that the second electrode 430 can be designed to have a predetermined tension by promptly responding to relaxation/contraction according to the application of the second voltage.

Meanwhile, in some embodiments, one end of the second electrode 430 is provided with a fixing part 440 and a second- The fixing part 440 disposed in the spaced space between the 4th frame 410_S4 and the 2-5th frame 410_S5 is a sensor (SS) for detecting the tension (or relaxation and contraction) of the second electrode 430 , respectively. may be linked with As described above, the fixing unit 440 may respond promptly to relaxation/contraction of the second electrode 430 according to the application of the second voltage, so that the second electrode 430 has a predetermined tension. Depending on the modulus of elasticity, there may be cases where a minute change in length may not be detected. In this case, the sensor SS detects the changed length (increased or contracted) of the second electrode 430 and controls the fixing part 440 interlocked with the sensor SS, so that the second electrode 430 is It can be made to have a predetermined tension.

The width of the second electrode 430 may be 0.2 mm, and the material may be tungsten.

The fixing part 440 may be provided as a spring (or a tension spring) as described above in order to maintain the tension of the second electrode 430 .

7 and 8 , a separation distance between the second electrodes 430 extending in the second direction DR2 may be 20 mm. The interval between the first electrodes 320 and the interval between the second electrodes 430 may be the same. Furthermore, the first electrodes 320 and the second electrodes 430 may be disposed to overlap each other in the thickness direction (or the third direction DR3 ).

The first voltage may be applied to the first electrode 320 and the second voltage may be applied to the second electrode 430 . When respective voltages of the first electrode 320 and the second electrode 430 are applied, an electric field may be formed between the first electrode 320 and the second electrode 430 . The fine dust introduced into the first charging unit 300 through the electric field may be charged between the first charging unit 300 and the second charging unit 400 so that the surface has a positive polarity. That is, through the electric field formed between the first electrode 320 and the second electrode 430, nitrogen (N) in the air between the electrodes 320 and 430 emits electrons, and the fine dust absorbs the emitted electrons. Through this, the surface is charged to have a positive polarity.

FIG. 10 is an exploded perspective view showing a dust collecting part and a rear cover of the electric dust collecting filter of FIG. 1 . 11 is a plan view showing a case of the electrostatic precipitation filter of FIG. 10 . 12 is an enlarged plan view of region C of FIG. 11 . 13 is a plan view illustrating the dust collecting unit of FIG. 10 in detail. 14 is an enlarged plan view of area D of FIG. 13 .

10 to 14 , the dust collecting unit 500 may include a case 550 and a dust collecting filter 510 disposed on the case 550 .

First, the case 550 will be described. The case 550 includes a first case portion 551 having a circular groove portion formed therein, and is disposed in the circular groove portion of the first case portion 551 and has a circular planar shape. The fourth case part 554 may include a second case part 552 having a line shape and connecting the first case part 551 and the fourth case part 554 . A plurality of second case units 552 may be provided. The plurality of second case parts 552 may be disposed to be spaced apart from each other. Furthermore, the case 550 may further include a third case part 553 connected to the middle part of the second case part 552 and connecting between adjacent second case parts 552 . The third case part 553 may have a shape surrounding the outer surface of the fourth case part 554 disposed in the circular groove part. That is, the third case part 553 may have a curved shape. The case unit 550 may further include a protrusion member 556 and a binding unit 555 disposed on the fourth case unit 554 . The protrusion member 556 has a shape protruding from the upper surface of the fourth case part 554 in the thickness direction and may have a circular planar shape, and the binding part 555 is a The second direction DR2 is adjacent to the three second case parts 552 disposed on one side and the other side in the first direction DR1 and extends so as to be aligned with the outer end of the curved surface of the fourth case part 554 in plan view. A first binding part, a second binding part connected to the first binding part and extending along the second direction DR2, and a center (or fourth case part 554) connected to the second binding part and the second binding part ) may include a third binding part symmetrical to the left and right with respect to the center) of the first binding part. The binding unit 555 may initially bind the film members 511 and 512 of the dust collecting filter 510 to be described later. A plurality of protrusion members 556 may be provided. One protruding member 556 may be positioned above the fourth case part 554 in plan view and the other protruding member 556 may be positioned at a lower plane of the fourth case part 554 .

Each of the protruding members 556 may serve to minimize the flow of the film members 511 and 512 to be described later.

As shown in FIG. 13 , the dust collecting filter 510 includes a first film part 511 attached to the first binding part, a second film part 512 attached to the third binding part, and a first supporter ( 513 ), and a second support 515 . The film parts 511 and 512 may include the same material. 14 , the first film part 511 includes a silver nanofilm part 511a, a first PET film part 511b on one surface of the silver nanofilm part 511a, and the other surface of the silver nanofilm part 511a. It may include a second PET film portion 511c on top. The first PET film part 511b and the second PET film part 511c may include the same material. The PET film parts 511b and 511c may include a PET material. The silver nano-film unit 511a has a low resistance of 9.7 kΩ/m per length for the conventional carbon film, but 28.05 Ω/m for the silver nano-film, so it is possible to apply a voltage equal to the entire area due to low loss when applying electricity to the electrode. . Furthermore, the width of the silver nanofilm portion 511a according to the present embodiment may be about 13 mm, and the width of the PET film portions 511b and 511c may be 8 mm. The PET film portions 511b and 511c, unlike the silver nanofilm portion 511a, include PET as an insulating material. Since the PET film portions 511b and 511c have a width of 8 mm, a predetermined voltage is applied to the dust collecting portion ( 500) while minimizing the deterioration of the dust collecting function of the silver nano-film unit 511a that generates the fine dust and electrostatic attraction, and a short between the first film unit 511 and the second film unit 512. It has the advantage of being able to prevent A first film voltage may be applied to the first film unit 511 , and a second film voltage may be applied to the second film unit 512 . The first film voltage and the second film voltage may have different polarities. For example, the first film voltage may be a positive voltage, and the second film voltage may be a negative voltage. The magnitude of the first film voltage and the magnitude of the second film voltage may be 8 to 9 kV high voltage, respectively.

Meanwhile, the film units 511 and 512 may be disposed by the above-described supports 513 and 515 . The supports 513 and 515 may include an insulating material. The supports 513 and 515 maintain a distance between the electrodes (or film parts 511 and 512) and as a dielectric material, do not conduct electricity, but have polarity in the electric field of the first and second charging parts 300 and 400. The charged fine dust may be collected not only on the film parts 511 and 512 but also on the supports 513 and 515 by electrostatic attraction. The supports 513 and 515 may be processed in a wave pattern to increase the dust collection area. The first support 513 may include a first protrusion 513a protruding outward in plan view, and a first indentation 513b connected to the first protrusion 513a and recessed inward in plan view.

As shown in FIG. 13 , the first film part 511 is attached to the inner surface of the first binding part, surrounds one protruding member 556 on a plane, and comes in contact with one surface of the second binding part, and the first It may be arranged in such a way as to surround the binding part 555 in a planar view while surrounding the outer surface of the binding part.

The second film part 512 is attached to the inner surface of the third binding part, surrounds the other protruding member 556 in plan view, and is in contact with the other surface of the second binding part while surrounding the outer surface of the third binding part. It may be arranged in such a way that it surrounds the binding part 555 .

As described above, the supports 513 and 515 may be disposed to maintain a distance between the film units 511 and 512 . The first protrusion 513a including one end of the first support 513 has one end fixed to one surface of the second binding unit, and the first protrusion 513a supports the second film unit 512 and the first protrusion ( The first recessed portion 513b adjacent to 513a is recessed so that each of the film portions 511 and 512 can be spaced apart with a fourth separation distance d4, and the first film portion 511 (or the first film portion) By contacting the outer surface of the 511), it is possible to maintain the separation distance d4 between the respective film portions 511 and 512. The first support 513, like each of the film parts 511 and 512, is disposed in a planar manner to surround the binding part, and the first protrusion 513a and the first indent 513b of the first support 513 are The arrangement may be alternated with each other along the arrangement direction. The first protrusion 513a serves to support the second film part 512 , and the first indentation part 513b adjacent to the first protrusion 513a has a fourth separation distance d4 from the second film part 512 . ) and spaced apart, it is preferable that the width (W_513a) of the first protrusion (513a) is greater than the width (W_513b) of the first indentation (513b) in order to support the second film part (512). do. For example, the width W_513a of the first protrusion 513a is at least 1.5 times the width W_513b of the first indentation 513b, so that the supporting role of the second film unit 512 is easily performed, 2 By being within the ship, it is possible to easily perform the role of having the second separation distance d4.

The second protrusion 515a including one end of the second support 515 has one end fixed to the other surface of the second binding unit, and the second protrusion 515a supports the first film unit 511 and the second protrusion ( The second recessed portion 515b adjacent to 515a is recessed such that each of the film portions 511 and 512 can be spaced apart with a fourth separation distance d4, and the second film portion 515 (or the second film portion) By contacting the outer surface of the 515), it is possible to maintain the separation distance d4 between the respective film portions 511 and 512. The second support 515 is disposed in a planar manner to surround the binding portion, like each of the film portions 511 and 512, and the second protrusion 515a and the second indent 515b of the second support 515 are The arrangement may be alternated with each other along the arrangement direction. The second protrusion 515a serves to support the first film portion 511, and the second indentation portion 515b adjacent to the second protrusion 515a is formed so that each of the film portions 511 and 512 is separated by a fourth separation distance ( d4) and spaced apart, the width of the second protrusion 515a is preferably greater than the width of the second indentation 515b to support the first film portion 511 . For example, the width of the second protrusion 515a is 1.5 times or more of the width of the second indentation portion 515b to facilitate the supporting role of the first film portion 511, and by being less than 2 times, the second 2 It is possible to easily perform a role of having a separation distance d4.

Meanwhile, the first protrusion 513a and the second indentation 515b may be disposed to overlap each other along the outward direction (the direction facing the outside with respect to the central point of the binding part (or the central point of the second binding part)). . That is, the second indentations 515b are disposed between the first indentations 513b adjacent to each other in plan view, and the first indentations 513b are disposed between the adjacent second indentations 515b. can A second indentation portion 515b is disposed between the first indentations 513b adjacent in plan view, and a first indentation portion 513b is disposed between the adjacent second indentations 515b, so that each film portion ( 511, 512) may be supported.

The first protrusion 513a and the second indentation 515b adjacent in the outward direction are spaced apart along the third separation distance d3, and the first protrusion 513a and the second protrusion 515a adjacent in the outward direction are the second protrusions 515a. The first indentation part 513b and the second protrusion part 515a adjacent in the outer direction may be spaced apart from each other along the first separation distance d1, and may be spaced apart from each other along the second spacing distance d2. The second separation distance d2 may be the same as the width of the first film unit 511 .

The fine dust charged through the charging units 300 and 400 so that the surface has a positive polarity may be collected through the dust collecting filter 500 . That is, as described above, the first film voltage (or positive voltage) is applied to the first film unit 511 , and the second film voltage (or negative voltage) is applied to the second film unit 512 . Therefore, the fine dust charged so that the surface of the second film part 512 to which the negative voltage is applied has a positive polarity may be collected. Furthermore, a predetermined electric field may also be formed between the first film part 511 to which the first film voltage is applied and the second film part 512 to which the second film voltage is applied, which face each other. The surfaces of the supports 513 and 515 between the first film part 511 and the second film part 512 may also have polarity through the electric field. For example, some regions of the supports 513 and 515 adjacent to the first film part 511 have a negative polarity, and other partial regions of the supports 513 and 515 adjacent to the second film part 512 have a positive polarity. may be of Accordingly, the fine dust charged so that the surface has a positive polarity is not collected only on the second film part 512 , but some regions of the supports 513 and 515 adjacent to the first film part 511 . It can also collect dust, which has the effect of expanding the dust collection area.

15 is a plan view illustrating a dust collecting unit according to another exemplary embodiment.

Referring to FIG. 15 , it is different from the dust collecting unit according to FIG. 13 in that one end of each of the film parts 511 and 512 extends to the side surfaces of the first binding part and the third binding part. According to this embodiment, one end of each of the film parts 511 and 512 is extended and attached to the side surfaces of the first binding part and the third binding part, so that the flow of the film parts 511 and 512 can be very minimized. There is an advantage that there is

16 is a perspective view illustrating a first charging unit according to another exemplary embodiment. 17 is an exploded perspective view of the first charging unit according to FIG. 16 .

16 and 17 , the shapes of the first electrodes 320_1 of the first charging unit 300_1 according to the present exemplary embodiment may be different from those of FIG. 4 .

More specifically, the first electrode 320 of FIG. 4 has a round bar shape, while the first electrode 320_1 of FIGS. 16 and 17 extends along the second direction DR2 and extends in the thickness direction (or the first electrode 320_1 ). It may have a plate shape having a predetermined length along the three directions DR3). Meanwhile, the other end of the first electrode 320_1 may be chamfered so that each corner has a curved shape. When each corner of the other end of the first electrode 320_1 has a right angle shape, when an electric field is formed between the first charging unit 300_1 and the second charging unit 400, the other end of the first electrode 320_1 A corona discharge may occur at each corner.

Corona discharge is an electrical discharge that occurs due to the ionization of a fluid around a conductor, and can occur when the potential gradient (strength of an electric field) exceeds a certain value but is insufficient to cause complete dielectric breakdown or arcing. . A corona discharge may be particularly likely to occur in a very pointed portion of the conductor (in this embodiment, the first electrode).

However, according to this embodiment, the other end of the first electrode 320_1 is chamfered so that each corner has a curved shape, so that corona discharge is prevented from occurring at each corner of the other end of the first electrode 320_1 in advance. can be prevented

Although one embodiment of the present invention has been described above with reference to the accompanying drawings, those of ordinary skill in the art to which the present invention pertains may be embodied in other specific forms without changing the technical spirit or essential features of the present invention. You will understand that there is Therefore, it should be understood that the embodiments described above are illustrative in all respects and not restrictive.

10: inlet 11: inlet chamber
13: input unit 20: ultraviolet lamp and filter unit
21: ultraviolet lamp and filter chamber 22: filter element
23: first ultraviolet lamp 24: second ultraviolet lamp
25: thermometer and hygrometer 26: air volume meter
27: first electric field filter 28: second electric field filter
30: fan case part 31: fan case chamber
33: fan member

Claims (5)

a first charging unit to which a first voltage is applied; and
and a second charging unit disposed on the first charging unit and to which a second voltage different from the first voltage is applied,
The first charging part is a first charging frame having a rectangular frame shape, a plurality of first charging electrodes coupled to the first charging frame and to which the first voltage is applied, and one end of the plurality of first charging electrodes are combined Including a first outer frame,
The first charging frame includes a first frame and a fourth frame respectively extending along a first direction, and a second frame and a third frame extending along a second direction crossing the first direction, respectively,
The first frame includes a plurality of first through holes spaced apart along the first direction, the first charging electrode has a first width, the first through hole has a second width, the second The width is greater than the first width,
Each of the plurality of first charging electrodes passes through the plurality of first through holes, and the first outer frame is attached to an outer surface of the first frame,
The fourth frame includes a plurality of first grooves arranged to be spaced apart along the first direction, wherein the first groove has a third width, the third width being smaller than the second width,
The other ends of the plurality of first charging electrodes are respectively seated in the first grooves,
A first magnet body having a first magnetism is further disposed inside the fourth frame, and a second magnet body having a second magnetism opposite to the first magnetism is further formed at the other end of the first electrode, and the An attractive force is formed between the other end of the first electrode formed with a second magnetism and the first magnet body,
The second charging unit includes a second frame, and a second electrode to which the second voltage is applied,
The planar shape of the second frame has a lattice shape,
The second frame includes a 2-1 frame extending in the first direction, a 2-3 frame extending along the second direction, a 2-2 frame extending in the second direction, and a 2-4 frame,
The frame 2-1 may be directly connected to the frame 2-2, the frame 2-2 may be directly connected to the frame 2-3, and the frame 2-3 may be connected to the frame 2-4. is directly connected to, and the 2-1 frame and the 2-4 frame are connected through a separate fastening means,
Bolts passing through the outer surface from the inner surface of the second frame are separately arranged, and the bolts are fastened to a groove recessed from the outer surface of the second frame 2-4, and the second frame is fastened to each other. -The groove of the frame is spirally formed so that the bolt is coupled,
The second frame further includes a frame 2-5, and a frame 2-6,
The 2-5 frame and the 2-6 frame each extend along the second direction,
The frame 2-5 is directly connected to the frame 2-1, spaced apart from the frame 2-4 in the first direction, and the frame 2-6 is directly connected to the frame 2-1. connected and spaced apart from the 2-2 frame in the first direction,
In the spaced space between the 2-5 frame and the 2-4 frame and the space between the 2-6 frame and the 2-2 frame, the fixing parts of the second charging part are further disposed,
The second charging unit further includes inner frames, the inner frames extend along the first direction, and one of the inner frames is disposed on one side in the second direction, the second-first frame and the second direction and the other inner frame is disposed on the other side in the second direction and spaced apart from the second and third frames in the second direction,
each said inner frame comprising a first inner frame and a second inner frame connected to said first inner frame,
The first inner frame extends completely along the first direction and is connected to the lower end of the adjacent frame 2-5 and the lower end of the frame 2-6;
The upper surface of the first inner frame may be directly connected to the second inner frame, the upper surface of the first inner frame may be positioned on the same line as the lower surface of the second inner frame, and the upper surface of the first inner frame may be Located on the same line as the bottom surface of the groove, the second inner frame is made of a plurality of separated patterns, the plurality of separated patterns are directly coupled to the upper surface of the first inner frame, the first direction It is arranged with a predetermined separation distance along the, and the spaced space between the plurality of separated patterns is defined as the groove portion,
The groove portion is a space surrounded by an extension line extending the upper surfaces of the adjacent separated patterns, side surfaces of the adjacent separated patterns, and the upper surface of the first inner frame, and the groove portion is provided in plurality, and the plurality of groove portions are providing space for arranging the second electrodes;
One end of the second electrode is fixed to the fixing part disposed in a space between the 2-2 frame and the 2-6 frame, and the other end of the second electrode is fixed to the 2-4 frame. , and is fixed to the fixing part disposed in the space between the 2-5 frames, the fixing part is made of a spring, and the spring is a space between the 2-2 frame and the 2-6 frame. and a first spring portion fixed to a support portion respectively disposed in a space between the second frame 2-4 and the frame 2-5, and a first spring connected to the first spring portion and relaxed and/or in the second direction. or a second spring part capable of being contracted, and a third spring part connected to one end or the other end of the second electrode,
One end of the second electrode is fixed to the fixing part disposed in a space between the 2-2 frame and the 2-6 frame, and is provided on the other side in the second direction and one side in the first direction. It is bent and extended between the grooves and then extended to one side in the second direction, bent and extended to the grooves provided on one side in the second direction and one side in the first direction, and extends to the other side in the second direction,
The second electrode is integrally formed, and the integrally formed second electrode is sequentially hooked on the grooves arranged in a zigzag arrangement, and finally the other end of the second electrode is the second to fourth frame, and It is fixed to the fixing part disposed in the spaced space between the 2-5 frames,
The second voltage has a voltage magnitude for generating dark discharge, and the second voltage is 8.0 to 9.0 kV,
The fixing part is an electric dust collecting filter for collecting fine dust interlocked with a sensor for detecting the tension of the second electrode.

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