KR102052142B1 - Air cleaner - Google Patents

Abstract

The present invention relates to an anion module and an air purifier having the same, the present invention is provided with a suction hole in the front plate, the exhaust plate is provided in each of the side plates, partition plate for partitioning the suction hole and the exhaust hole therein A casing provided with a through hole in the partition plate; An anion module positioned in a space on the suction hole side of the casing to face the suction hole of the casing and forming a discharge film when power is applied; A fan motor positioned in a space on an exhaust hole side of the casing so as to face a partition plate through hole of the casing and generating air flow into the suction hole and exhausted into the exhaust hole; Ultraviolet lamps positioned at both sides of the fan motor; Photocatalyst filters positioned adjacent to the ultraviolet lamp; Activated carbon filters positioned adjacent to the photocatalyst filter; And dust removal filters positioned adjacent to the activated carbon filter. According to the present invention, it removes harmful viruses in the air, tar, nicotine and harmful substances of tobacco, formaldehyde, benzene and toluene, which causes sick house syndrome, improves the efficiency of removing harmful viruses in the air, and is easy to maintain. .

Description

Anion module and air cleaner equipped with it {AIR CLEANER}

The present invention relates to an anion module and an air cleaner having the same.

In general, air cleaners use various filters and blowers to purify indoor air by removing dust, smoke, and contaminants in the indoor air. In recent years, air cleaners have been introduced to products that not only clean the indoor air using filters, but also have the function of purifying the indoor air using negative ions.

The negative ion generating air cleaner applies a high voltage to the discharge electrode that charges fine particles in the air with a positive polarity (+) or a negative polarity (-), and a grounding electrode opposite to the discharge electrode to a dust collecting electrode where charged dust is collected. It collects various dusts floating in the air.

Republic of Korea Patent Publication No. 10-2012-0112921 (October 12, 2012 publication date) (hereinafter referred to as the prior art) is equipped with an anion generator equipped with a dust collecting plate and a discharge needle inside the casing, the discharge needle is discharged In the meantime, a technique is disclosed in which foreign matters such as dust and dust are charged and attached to the dust collector of the positive electrode to remove foreign matters in the air. However, the prior art is to remove the foreign matter in the air by sticking the foreign matter to the dust collecting plate has a disadvantage in that the performance of the dust collecting plate is deteriorated if a lot of foreign matter stuck to the dust collecting plate, and to solve this problem, the maintenance of the dust collecting plate is often inconvenient Done.

An object of the present invention is to provide an anion module for removing harmful viruses in the air, formaldehyde, benzene, toluene and the like, which cause harmful components of tobacco, tar, nicotine and sick house syndrome, and an air cleaner having the same.

Another object of the present invention is to provide an anion module and an air purifier having the same, which enhances the removal efficiency of harmful viruses in the air.

Still another object of the present invention is to provide an anion module that is easy to maintain and an air cleaner having the same.

In order to achieve the object of the present invention, a plurality of anion cells arranged in a row; A plurality of support shafts for fixing the anion cells to be spaced from each other; And a power supply unit for supplying power to each of the negative ion cells, wherein the negative ion cell comprises: a positive electrode plate having a plurality of circular holes arranged in a lattice shape with a uniform thickness therein and having a uniform thickness therein; It is positioned at equal intervals with the positive electrode plate facing the positive electrode plate, and provided with a plurality of vent holes having a uniform width and a set length at intervals therebetween and formed in the support plate portions formed between the adjacent vent holes A negative electrode plate having discharge pins protruding in one-to-one correspondence with the circular holes of the positive electrode plate; And a plurality of unit support shafts for fixing the positive electrode plate and the negative electrode plate to be spaced apart from each other, wherein the vent holes of the negative electrode plate are located in one-to-one correspondence with the rows of the circular holes of the positive electrode plate, and the length of the vent hole is a circular hole. It has a length corresponding to the length of the row of field, the end of the discharge pin is provided with an anion module, characterized in that located in the center of the circular hole.

Preferably, the vent holes of the negative electrode plate are formed in a quadrangular shape, and the discharge pins protrude from one side of the vent holes.

The discharge pin is preferably a triangular shape having a uniform thickness.

The ratio of the radius of the circular hole of the positive electrode plate and the distance from the end of the discharge pin of the negative electrode plate to the center of the circular hole is preferably 1; 1 to 1; 1.2.

The positive electrode plate and the negative electrode plate are each rectangular, and the unit support shafts are preferably located at each corner of the positive electrode plate and the negative electrode plate.

In addition, a casing having a hexahedron shape, the front plate is provided with suction holes, and both side plates are provided with exhaust holes, and a partition plate for partitioning the suction hole and the exhaust holes is provided therein, and a casing having a through hole in the partition plate. ; An anion module positioned in a space on the suction hole side of the casing to face the suction hole of the casing and forming a discharge film when power is applied; A fan motor positioned in a space on an exhaust hole side of the casing so as to face a partition plate through hole of the casing, and generating air flow into the suction hole and exhausting air to the exhaust hole; Ultraviolet lamps positioned at both sides of the fan motor; Photocatalyst filters positioned adjacent to the ultraviolet lamp; Activated carbon filters positioned adjacent to the photocatalyst filter; Provided is an air purifier comprising; dust removal filters located adjacent to the activated carbon filter.

According to the present invention, a positive electrode plate having a plurality of circular holes in which anion modules are arranged in a lattice form, and are disposed at equal intervals on the positive electrode plate are provided with a plurality of vent holes and discharge pins, and the ends of the discharge pins have circular holes. It is located in the center of the discharge pin and the discharge discharge film of negative ions (electrons) formed on the edge of the circular hole is uniformly formed and the indoor air flows through the vent holes of the negative plate and the circular hole of the positive plate to mix in the indoor air The harmful virus is effectively removed and the indoor air flows smoothly.

In addition, the present invention is to remove the formaldehyde, benzene, toluene and the like causing tar, nicotine and sick house syndrome in the indoor air while the indoor air passes through the ultraviolet region generated from the ultraviolet lamp, photocatalyst filter and activated carbon filter. Therefore, to maintain the health of people living indoors and to prevent secondary smoking by tobacco smoke.

In addition, the present invention smoothly flows through the positive and negative holes through the positive plate circular hole and the negative plate vent hole of the negative ion module, and the dust in the air is filtered through the dust removal filter, so that the amount of dust sticking to the negative ion module By minimizing the maintenance of the anion module is convenient.

In addition, the present invention is to form a plurality of discharge pins provided in the negative electrode plate by bending a portion of the support plate located between the vent holes it is easy to manufacture the discharge pins of the negative electrode plate.

1 is a cross-sectional view showing an embodiment of an air cleaner having an anion module according to the present invention;
Figure 2 is a front view showing an embodiment of an air cleaner having an anion module according to the present invention,
Figure 3 is a rear view showing an embodiment of an air cleaner with an anion module according to the present invention,
4 is a front view showing an anion module according to the present invention;
5 is a plan view showing an anion module according to the present invention;
6 is a plan view showing a bipolar plate constituting an anion module according to the present invention;
7 is a plan view showing a negative electrode plate constituting an anion module according to the present invention;
8 is a front view showing an example of the discharge pin of the negative electrode plate constituting the anion module according to the present invention,
9 is a front view showing another example of the discharge pin of the negative electrode plate constituting the anion module according to the present invention,
10 is a plan sectional view showing an operating state of an air cleaner having an anion module according to the present invention;
11 is a front view showing an operating state of the negative ion module according to the present invention.

Hereinafter, an embodiment of an anion module and an air cleaner having the same according to the present invention will be described with reference to the accompanying drawings.

1 is a cross-sectional view showing an embodiment of an air cleaner having an anion module according to the present invention. Figure 2 is a front view showing an embodiment of an air cleaner having an anion module according to the present invention. Figure 3 is a rear view showing an embodiment of an air cleaner having an anion module according to the present invention.

As shown in Figures 1, 2, 3, one embodiment of the air cleaner with an anion module according to the present invention, the casing 100, anion module 200, fan motor 300, ultraviolet lamp 400 ), Photocatalyst filter 500, activated carbon filter 600, dust removal filter 700.

Inside the casing 100, components such as anion module 200, fan motor 300, ultraviolet lamp 400, photocatalyst filter 500, activated carbon filter 600, dust removal filter 700 and the like are mounted. In one example of the casing 100, the casing 100 is preferably in the shape of a cube. The casing 100 having a hexahedron shape includes a front plate 110, a rear plate 120, an upper plate 130, two side plates 140, and a lower plate 170. The suction plate 111 is provided in the front plate 110, and exhaust holes 141 are provided in both side plates 140, and a partition plate partitioning the suction hole 111 and the exhaust holes 141 therein ( 150 is provided, the through-hole 151 is provided in the partition plate 150. The exhaust hole 141 is positioned adjacent to the rear plate 120 on both side plates 140. The partition plate 150 is located approximately in the middle of the casing 100 to divide the interior into an intake area and an exhaust area. It is preferable that the cover net 160 is provided in the suction hole 111 of the casing 100, and a plurality of the exhaust holes 141 are arranged over the set area. The casing 100 may be implemented in various forms.

The negative ion module 200 is located in the suction region which is a space on the suction hole 111 side of the casing 100 so as to face the suction hole 111 of the casing 100 to form a discharge film while generating negative ions when power is applied. As an example of the anion module 200, the anion module 200 is a plurality of anion cells 210 are arranged in a line and a plurality of support shafts 220 to fix the anion cells 210 to maintain a distance from each other And a power supply unit 230 for supplying power to the negative ion cells 210, respectively.

As shown in FIGS. 4 and 5, the negative ion cell 210 is positioned at a uniform interval from the positive electrode plate 10 to which the positive electrode power of the power supply unit 230 is connected, and the positive electrode plate 10. A negative electrode plate 20 to which the negative electrode power source of the unit 230 is connected, and a plurality of unit support shafts 30 for fixing the positive electrode plate 10 and the negative electrode plate 20 to be spaced from each other.

As an example of the positive electrode plate 10, as shown in Figure 6, the positive electrode plate 10 is arranged in a grid shape with a uniform interval inside the plate having a uniform thickness, each of the plurality of circular holes through which air flows (11) are provided. That is, the circular holes 11 are arranged in a plurality of rows in the horizontal direction and in a plurality of rows in the vertical direction. It is preferable that the spacing between the rows in the horizontal direction is uniform and the spacing between the columns in the longitudinal direction is uniform, and that the number of the horizontal columns and the number of the vertical columns are the same. The positive plate 10 is preferably a rectangular plate. The positive electrode plate 10 preferably includes a stainless material.

As an example of the negative electrode plate 20, as shown in FIG. 7, the negative electrode plates 20 are arranged in a line at a distance from each other inside a plate having a uniform thickness, and each of the plurality of vent holes 21 through which air flows. ) And a plurality of discharge pins 23 protruding in one-to-one correspondence with the circular holes 11 of the positive electrode plate 10 in the support plate portions 22 formed by the vent holes 21. The end of the pin 23 is located at the center of the circular hole 11. The negative electrode plate 20 is preferably a rectangular plate. The vent holes 21 are arranged in a number corresponding to the number of transverse rows of the circular holes 11 in the drawing, and the vent holes 21 are located in one-to-one correspondence with the transverse rows of the circular holes 11. The vent hole 21 is preferably formed in a rectangular shape having a uniform width and length, the length of the vent hole 21 is preferably equal to or slightly larger than the length of the row. Each side of the vent holes 21 is preferably located on the center line of the corresponding horizontal row circular holes 11 or adjacent to the center line, and one side of the vent holes 21 is the horizontal row circular holes 11. When adjacent to the center line of the) is different from the center line is preferably the thickness of the negative electrode plate (20). The support plate portion 22 of the negative electrode plate 20 is formed between the two vent holes 21 by two vent holes 21 adjacent to each other. The support plate part 22 has a uniform width. The support plate portions 22 are arranged in a line at uniform intervals, such as the vent holes 21. The discharge pins 23 are respectively arranged on the support plate parts 22 so as to correspond one-to-one with the circular holes 11 of the positive electrode plate 10. Discharge pin 23 is preferably extended extending in the vertical direction with respect to the support plate portion 22, the end of the discharge pin 23 bent extending from one side of the support plate portion 22 is located in the center of the circular hole (11) do. As an example of the discharge pin 23, as shown in FIG. 8, the discharge pin 23 is an extension portion 1 and its extension portion (1) formed to extend in a uniform width on one side of the support plate portion 22 It includes a triangular portion (2) formed extending in a triangular shape. It is preferable that the thickness of the discharge pin 23 is uniform, and it is preferable that the thickness of the discharge pin 23 is equal to the thickness of the negative electrode plate 20. As another example of the discharge pin 23, as shown in Figure 9, it is formed in a triangular shape. The triangular discharge pins 23 extend from one side of the support plate portion 22, and the thickness of the discharge pins 23 is preferably equal to the thickness of the negative electrode plate 20. The negative electrode plate 20 preferably includes a stainless material. The ratio of the radius of the circular hole 11 of the positive electrode plate 10 and the distance from the end of the discharge pin 23 of the negative electrode plate 20 to the center of the circular hole 11 is preferably 1; 1 to 1; 1.2. . For example, the inner diameter of the circular hole 11 is 13 mm, the distance from the end of the discharge pin 23 to the center of the circular hole 11 is 6 mm and the power applied to the positive electrode plate 10 and the negative electrode plate 20 is DC 12V. In the case of the discharge efficiency is measured very high.

The unit support shafts 30 are positioned at each corner of the positive electrode plate 10 and the negative electrode plate 20, respectively, to connect the positive electrode plate 10 and the negative electrode plate 20.

When the positive electrode power source and the negative electrode power source are respectively supplied to the positive electrode plate 10 and the negative electrode plate 20 of the negative ion cell 210, electrons are discharged from the discharge pins 23 of the negative electrode plate 20, respectively, and the circular hole 11 of the positive electrode plate 10 is formed. Move to the border of). At this time, the discharge pin 23 of the negative electrode plate 20 is positioned in the center of the circular hole 11 of the positive electrode plate 10 so that the discharge film in which electrons move uniformly between the edge of the discharge pin 23 and the circular hole 11. Is formed. Harmful viruses such as bacteria and fungi are decomposed and eliminated by electrons generated in the anion cell 210, that is, some of the anions.

The plurality of support shafts 220 connect the unit support shafts 30 of the anion cell 210 to maintain the uniformity of the anion cells 210 while connecting the anion cells 210.

The negative ion module 200 is positioned adjacent to the front plate suction hole 111 of the casing 100 such that the positive electrode plates 10 and the negative electrode plates 20 are parallel to the front plate 110 of the casing 100.

When air flows through the suction hole 111 of the casing 100, the air flowing therein flows through the circular holes 11 of the positive electrode plate 10 and the vent holes 21 of the negative electrode plate 20 of the anion module 200. Done.

The fan motor 300 is positioned in an exhaust area that is a space of the exhaust hole 141 of the casing 100 so as to face the partition plate through hole 151 of the casing 100, and air is introduced into the suction hole 111 to exhaust the fan motor 300. Generates an air flow that is exhausted into the holes 141. The fan motor 300 includes a fan 310 for generating a flow in which air is introduced to the front and discharged to the side, and a motor 320 for rotating the fan 310. The inlet portion of the fan 310 is located in the through hole 151 of the partition plate 150, and the exhaust portion is located in the exhaust hole 141 side of the casing 100.

Ultraviolet lamps 400 are located on both sides of the fan motor 300, respectively. That is, the ultraviolet lamp 400 is located between the fan motor 300 and the exhaust hole 141 of the casing side plate 140,

The photocatalyst filter 500 is located adjacent to the ultraviolet lamp 400. That is, the photocatalyst filter 500 is located between the ultraviolet lamp 400 and the exhaust hole 141 of the casing side plate 140.

The activated carbon filter 600 is positioned adjacent to the photocatalyst filter 500. That is, the activated carbon filter 600 is positioned between the photocatalyst filter 500 and the exhaust hole 141 of the casing side plate 140.

Ultraviolet lamp 400, photocatalyst filter 500, and activated carbon filter 600 not only remove the harmful components of tar and nicotine, but also formaldehyde, benzene and toluene, which cause sick house syndrome. Remove

The dust removal filter 700 is located adjacent to the activated carbon filter 600. That is, the dust removal filter 700 is located between the activated carbon filter 600 and the side plate exhaust hole 141 of the casing 100. The dust removing filter 700 is preferably a medium filter made of a filter such as a nonwoven fabric.

Hereinafter, the operation and effects of the anion module and the air cleaner having the same according to the present invention will be described.

The air cleaner of the present invention is installed in a room, a smoking booth, or the like of a building. When power is supplied in the state in which the present invention is installed, the negative ion module 200, the fan motor 300, and the ultraviolet lamp 400 operate, respectively. As power is supplied to the negative ion module 200, negative ions which are electrons are generated at the discharge pins 23 of the negative electrode plates 20 of the negative ion cells 210, and the negative ions are formed at the ends of the discharge pins 23 and the positive plate ( A discharge film is formed around the edge of the circular hole 11 of 10). As the air flow is generated by the operation of the fan motor 300, the air in the room is sucked through the suction hole 111 of the casing 100, as shown in FIG. And flows through the through holes 151 of the casing partition plate 150 through the vent holes 21 of the cathode plates 20 and 11. The indoor air flowing into the through hole 151 of the partition plate 150 of the casing 100 is exhausted through the inside of the fan 310, and the ultraviolet region generated from the ultraviolet lamp 400 and the photocatalyst filter 500 and activated carbon While passing through the filter 600 and the dust removing filter 700, the interior of the casing 100 exits through the exhaust holes 141. In the process of repeating this operation, the indoor air flows through the positive electrode plate circular holes 11 of the negative ion module 200 and the vent holes 21 of the negative electrode plate 20, and the discharge pins 23 of the negative electrode plate 20 are rotated. And a discharge film formed as an edge region of the anode plate circular hole 11 to remove harmful viruses such as bacteria and fungi mixed in the indoor air, and mix in air while passing through the ultraviolet region, the photocatalyst filter 500 and the activated carbon filter 600. It not only removes tar and nicotine, which are harmful ingredients, but also removes formaldehyde, benzene, and toluene, which cause sick house syndrome. In addition, while the indoor air passes through the ultraviolet region generated by the ultraviolet lamp 400, the harmful virus mixed with the indoor air is removed once more. Finally, the purified air is introduced into the room while the dust mixed in the room air is filtered while the dust removal filter 700 is filtered. At this time, a part of the anion generated from the anion module 200 is introduced into the room and Reducing the concentration of cations will increase the cleanliness of indoor air.

As described above, the anion module 200 of the present invention is a positive electrode plate 100 having a plurality of circular holes 11 arranged in a lattice form, and are positioned at a uniform interval on the positive electrode plate 10 and a plurality of ventilation holes ( 21 and discharge pins 23 are provided, and as shown in FIG. 11, the ends of the discharge pins 23 are positioned at the centers of the circular holes 11 so that the discharge pins 23 and the circular holes 11 are provided. The discharge discharge film of negative ions (electrons) formed at the edges of the () is uniformly formed, and the indoor air flows through the vent holes 21 of the negative electrode plate 20 and the circular holes 11 of the positive electrode plate 10. Effectively removes harmful viruses mixed in the air and smooth the flow of indoor air.

In addition, the present invention is a form that causes tar, nicotine and sick house syndrome, which are harmful components of cigarette smoke in the indoor air while passing through the ultraviolet region and the photocatalyst filter 500 and the activated carbon filter 600 generated by the indoor air in the ultraviolet lamp 400. It removes aldehydes, benzene and toluene to maintain the health of people living in the room and to prevent secondary smoking by cigarette smoke.

In addition, in the present invention, the indoor air flows smoothly through the positive electrode plate circular holes 11 and the negative electrode plate vent holes 21 of the negative ion module 200 and passes through the dust removal filter 700 to remove dust in the air. Since it is filtered to 700, the maintenance of the anion module 200 is convenient by minimizing the amount of dust adhering to the anion module 200.

In addition, the present invention forms a plurality of discharge pins 23 provided in the negative electrode plate 20 by bending a portion of the support plate 22 positioned between the vent holes 21 to discharge pins of the negative electrode plate 20. 23) It will be easier to produce them.

100; Casing 200; Anion module
300; Fan motor 400; UV lamp
500; Photocatalyst filter 600; Activated carbon filter
700; Dust Removal Filter

Claims (6)

delete delete delete delete delete A casing having a suction hole in the front plate, an exhaust hole in each of the side plates, a partition plate for partitioning the suction hole and the exhaust holes therein, and a through hole in the partition plate;
An anion module positioned in a space on the suction hole side of the casing to face the suction hole of the casing and forming a discharge film when power is applied;
A fan motor positioned in a space on an exhaust hole side of the casing so as to face a partition plate through hole of the casing, and generating air flow into the suction hole and exhausting air to the exhaust hole;
Ultraviolet lamps positioned at both sides of the fan motor;
Photocatalyst filters positioned adjacent to the ultraviolet lamp;
Activated carbon filters positioned adjacent to the photocatalyst filter;
And dust removal filters positioned adjacent to the activated carbon filter.
The anion module,
A plurality of anion cells arranged in a row;
A plurality of support shafts for fixing the anion cells to be spaced from each other;
It includes; a power supply unit for supplying power to each of the negative ion cells,
The negative ion cell, the positive electrode plate having a uniform thickness and a plurality of circular holes to be arranged in a grid shape with a uniform interval therein;
It is positioned at equal intervals with the positive electrode plate facing the positive electrode plate, and provided with a plurality of vent holes having a uniform width and a set length at intervals therebetween and formed in the support plate portions formed between the adjacent vent holes A negative electrode plate having discharge pins protruding in one-to-one correspondence with the circular holes of the positive electrode plate;
And a plurality of unit support shafts for fixing the positive electrode plate and the negative electrode plate to maintain a space therebetween.
Vent holes of the negative electrode plate are located in one-to-one correspondence with the rows of the circular holes of the positive electrode plate, the length of the vent hole has a length corresponding to the length of the row of circular holes, the end of the discharge pin is located in the center of the circular hole ,
Each of the discharge pins is formed to be bent to extend to one side of the vent hole of the negative electrode plate, protruding in a vertical direction with respect to the negative electrode plate, characterized in that the discharge pins are triangular.

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