KR102157681B1 - Air clenaning device - Google Patents

Abstract

An air purification device according to an embodiment of the present invention is a device connected to a moving body to purify air introduced by the movement of the moving body, and connected to the moving body, forming an arrangement space, and air from the outside to the arrangement space. A case forming an inlet through which air is introduced and an outlet through which air flows out from the arrangement space; A movement changing unit disposed on the arrangement space and changing a movement direction of air introduced into the arrangement space from the outside; And a purification unit disposed on the arrangement space and purifying air whose movement direction has been changed by the movement changing unit, wherein the air introduced into the arrangement space by the moving body is a movement direction by the movement changing unit. This is changed to pass through the purification unit, and may be discharged to the outside through the outlet.

Description

Air clenaning device

The present invention relates to an air purification device, and more particularly, to an air purification device connected to a moving body to purify air introduced by the movement of the moving body without power.

Fine dust is a micro-destructive weapon made by humans and a fine heavy metal.

In foreign countries, if the diameter is less than 10㎛ (PM 10), it is called fine dust (suspended particles), and it is subdivided into dust less than 2.5㎛ (PM 2.5) and dust less than 1㎛ (PM1) in diameter. In, floating dust is called fine dust (PM10), fine dust is called ultrafine dust (PM2.5), and PM1 is also classified as ultrafine dust.

Fine dust consists of ionic components such as nitrates, ammonium ions, and sulfates, carbon compounds, and metal compounds.

The World Health Organization (WHO) has designated BC (black carbon) emitted from diesel among fine dust as a first-class carcinogen.

In the future, there will be more people in Korea who suddenly die or become sick because of this fine dust. According to a paper reported in the international medical journal The Lancet, fine dust is the second most important risk factor for death after high blood pressure, smoking, diabetes, and obesity.In 2015 alone, about 4.2 million people were prematurely due to PM2.5-sized fine dust. Said he died. In addition, Koreans are particularly vulnerable to fine dust, and it is estimated that 20,000 people will die prematurely from fine dust a year.

As such, fine dust has serious adverse effects on human health.

On the other hand, Korean Patent Registration No. 10-1919440 (registered on November 12, 2018) discloses an air purifier installed at the rear of a vehicle to purify air through a filter means.

However, there is a problem in that energy to operate the air pump is required in that there must be an air pump forcibly sucking air in order to purify the air.

The present invention has been made to solve the above problems, and an object of the present invention is to provide an air purification apparatus that purifies air introduced by movement of a moving body without power.

The problem to be solved by the present invention is not limited to the above-described problems, and problems that are not mentioned will be clearly understood by those of ordinary skill in the art from the present specification and the accompanying drawings. .

An air purification device according to an embodiment of the present invention is a device connected to a moving body to purify air introduced by the movement of the moving body, and connected to the moving body, forming an arrangement space, and air from the outside to the arrangement space. A case forming an inlet through which air is introduced and an outlet through which air flows out from the arrangement space; A movement changing unit disposed on the arrangement space and changing a movement direction of air introduced into the arrangement space from the outside; And a purification unit disposed on the arrangement space and purifying air whose movement direction has been changed by the movement changing unit, wherein the air introduced into the arrangement space by the moving body is a movement direction by the movement changing unit. This is changed to pass through the purification unit, and may be discharged to the outside through the outlet.

According to the air purification apparatus according to an embodiment of the present invention, there is an advantage of purifying air introduced by the movement of a moving body with no power.

The effects of the present invention are not limited to the above-described effects, and effects that are not mentioned will be clearly understood by those of ordinary skill in the art from the present specification and the accompanying drawings.

1 is a schematic exploded perspective view of an air purification apparatus according to an embodiment of the present invention.
2 is a schematic cross-sectional view of an air purification apparatus according to an embodiment of the present invention.

Hereinafter, specific embodiments of the present invention will be described in detail with reference to the drawings. However, the spirit of the present invention is not limited to the presented embodiments, and those skilled in the art who understand the spirit of the present invention can add, change, or delete other elements within the scope of the same idea. Other embodiments included within the scope of the inventive concept may be easily proposed, but it will be said that this is also included within the scope of the inventive concept.

An air purification device according to an embodiment of the present invention is a device connected to a moving body to purify air introduced by the movement of the moving body, and connected to the moving body, forming an arrangement space, and air from the outside to the arrangement space. A case forming an inlet through which air is introduced and an outlet through which air flows out from the arrangement space; A movement changing unit disposed on the arrangement space and changing a movement direction of air introduced into the arrangement space from the outside; And a purification unit disposed on the arrangement space and purifying air whose movement direction has been changed by the movement changing unit, wherein the air introduced into the arrangement space by the moving body is a movement direction by the movement changing unit. This is changed to pass through the purification unit, and may be discharged to the outside through the outlet.

In addition, the purification unit may surround the movement changing unit.

In addition, the movement changing part may include a rotation shaft and a wing part formed on the rotation shaft and rotated by the movement of air.

In addition, the movement changing unit may further include a weight adjusting unit for adjusting the degree of rotation of the rotating shaft by applying weight to the rotating shaft.

In addition, the movement changing unit may further include a friction adjusting unit for adjusting the degree of rotation of the rotating shaft by applying a friction force to the rotating shaft according to the moving speed of the moving body.

In addition, a power generation unit that generates power by rotation of the rotation shaft; may further include.

Components having the same function within the scope of the same idea shown in the drawings of each embodiment will be described with the same reference numerals.

1 is a schematic exploded perspective view of an air purification apparatus according to an embodiment of the present invention, and FIG. 2 is a schematic cross-sectional view of an air purification apparatus according to an embodiment of the present invention.

In the accompanying drawings, in order to more clearly express the technical idea of the present invention, parts that are inferior to the technical idea of the present invention or that can be easily derived from those skilled in the art are simplified or omitted.

As shown in FIGS. 1 and 2, the air purification apparatus 10 according to an embodiment of the present invention may be a device that is connected to a moving object and purifies air introduced by the movement of the moving object without power.

For example, the moving object may be a bus, a car, or a train.

For example, the air purification device 10 may be attached and detached to a predetermined position of the moving object, and when connected to the moving object, it may be moved in conjunction with the movement of the moving object.

For example, the air purification device 10 may be connected to the roof of the bus.

Here, as an example, the air purification device 10 is connected to the moving body, forms an arrangement space (S), and an inlet (H1, H3) through which air is introduced into the arrangement space (S) from the outside, and the arrangement It may include a case 100 forming an outlet (H2, H4) through which air flows out from the space (S).

As an example, the case 100 may be a configuration that protects components such as the movement change unit 200 to be described below from an external environment.

For example, the case 100 may be attached to and detached from the moving body by a connecting member (not shown) such as a bracket or a bolt.

For example, the case 100 may include a body portion 110 forming the arrangement space S, and cover portions 120 and 130 covering the arrangement space S.

For example, the body portion 110 may be in the shape of a tube forming a hollow.

For example, the cover parts 120 and 130 include a first cover part 120 that is attached to and detached from one side of the body part 110 and a second cover part 130 that is attached to and detached from the other side of the body part 110. Can be equipped.

For example, the first cover part 120 may form the inlets H1 and H3, and the second cover part 130 may form the outlet ports H2 and H4.

Further, each of the first cover part 120 and the second cover part 130 includes a first fixing part 140 and a purification part 300 capable of fixing the movement changing part 200 to be described below. A second fixing part 150 that can be fixed may be provided.

Here, as an example, the air purification device 10 is disposed on the arrangement space (S), and further includes a movement change unit 200 that changes the movement direction of air introduced into the arrangement space (S) from the outside. Can include.

For example, the movement changer 200 is disposed on the arrangement space S and flows of air introduced into the arrangement space S from the outside through the inlets H1 and H3 according to the movement of the moving object It may be a configuration that changes the direction.

Here, as an example, the air purification device 10 is disposed on the arrangement space S, and further includes a purification unit 300 for purifying air whose movement direction has been changed by the movement changing unit 200. I can.

For example, the purification unit 300 may be a purification filter disposed on the arrangement space S to purify air whose movement direction has been changed by the movement change unit 200.

For example, the purification unit 300 may be made of a material such as fiber, paper, or synthetic resin forming fine pores.

That is, as the air passing through the purification unit 300 passes through the purification unit 300, fine dust may be trapped in the purification unit 300.

That is, the air introduced into the arrangement space (S) by the movement of the moving body is changed to the direction in which the purification unit 300 is disposed by the movement change unit 200 so that the purification unit 300 As it passes through and passes through the purification unit 300, fine dust is filtered, and may be discharged to the outside through the outlets H2 and H4.

Here, as an example, the purification unit 300 may surround the movement change unit 200.

For example, the purification unit 300 may surround the movement change unit 200 disposed in the arrangement space S.

For example, the purification unit 300 may have a hollow tube shape.

As a result, air whose movement direction is changed by the movement change unit 200 may pass through the purification unit 300 disposed around the movement change unit 200, and a passage area may be large.

Therefore, it is possible to implement purification for a large amount of air.

Here, as an example, the movement changing part 200 may include a rotation shaft 210 and a wing part 220 formed on the rotation shaft 210 and rotated by the movement of air.

As an example, the air introduced into the arrangement space S by the movement of the moving body may collide with the wing part 220 and the movement direction may be changed to the direction of the purification part 300.

The wing part 220 may be rotated by air resistance, and as a result, the rotation shaft 210 may be rotated in a clockwise and/or counterclockwise direction.

For example, the wing part 220 may be formed in plural on the rotation shaft 210.

As an example, one side of the rotation shaft 210 may be attached to and detached from the first fixing part 140 formed on the first cover part 120, and the other side of the rotation shaft 210 is the second cover part 130 ) May be attached to or detached from the first fixing part 140 formed in the).

The rotation shaft 210 is positioned at a predetermined position on the arrangement space S by the first fixing part 140, and may be rotated on the first fixing part 140.

For example, the purification part 300 may be disposed in the arrangement space S so as to surround the blade part 220 around the blade part 220 with respect to the rotation shaft 210.

As a result, the arrangement space (S) is an inner arrangement space (S) formed on the inside of the purification unit (300) based on the purification unit (300) and an outer arrangement formed outside the purification unit (300). It can be divided into space (S).

As an example, one side of the purification unit 300 may be attached to and detached from the second fixing unit 150 formed on the first cover unit 120, and the other side of the purification unit 300 is the second cover unit. It may be attached to and detached from the second fixing part 150 formed at 130.

When the purification unit 300 needs to be replaced, the operator separates the first cover unit 120 from the body unit 110 to externally remove the purification unit 300 located on the arrangement space S. Can be easily separated by.

Here, as an example, the first cover part 120 has a first inlet H1 for introducing air into the inner arrangement space S from the outside, and a first inlet port H1 for introducing air into the outer arrangement space S from the outside. A second inlet port H3 may be formed.

To explain this in more detail, the first inlet (H1) is formed at a position communicating with the inner arrangement space (S), and the air passing through the first inlet (H1) from the outside is the movement change unit 200 May be introduced into the inner arrangement space (S), and the second inlet (H3) is formed at a position communicating with the outer arrangement space (S), and passes through the second inlet (H3) from the outside. The air may be introduced into the outer arrangement space S in which the movement change part 200 is not disposed.

As a result, it is introduced into the inner arrangement space (S) through the first inlet (H1) and passed through the purification unit 300 by the movement change unit 200 and moved to the outer arrangement space (S). Air may be moved in the direction of the outlets H2 and H4 without a vortex by the flow of air that passes through the second inlet H3 and moves on the outer arrangement space S.

Here, as an example, the second cover part 130 has a first outlet port H4 for discharging the air moving on the inner arrangement space S to the outside and the outer arrangement space S. A second outlet H2 may be formed to discharge air to the outside.

To explain this in more detail, the first outlet (H4) is formed at a position communicating with the inner arrangement space (S), and the air moving on the inner arrangement space (S) passes through the first outlet (H4) The second outlet (H2) is formed at a position communicating with the outer arrangement space (S), and the air moving on the outer arrangement space (S) is discharged to the outside, and the second outlet (H2) It can be discharged to the outside by passing through.

Here, as an example, the movement change unit 200 may further include a weight adjustment unit 230 for adjusting the degree of rotation of the rotation shaft 210 by applying weight to the rotation shaft 210.

If the moving body moves at a high speed and the speed of air flowing into the arrangement space S is high, the rotation shaft 210 can be rotated at a high speed by the wing unit 220, as a result As the rotation shaft 210 rotates at an unintended high speed, damage may occur.

To solve this, the weight adjustment unit 230 may control the rotation speed of the rotation shaft 210 by applying weight to the rotation shaft 210.

For example, in a high-speed railway having a relatively fast moving speed, the weight adjusting unit 230 having a relatively large weight may be installed on the rotating shaft 210, and in a city bus having a relatively slow moving speed, the weight adjusting unit 230 The weight adjustment unit 230 may be installed on the rotation shaft 210.

Accordingly, the operator may select the weight of the weight adjustment unit 230 according to the characteristics of the moving body and connect it to the rotation shaft 210.

For example, the weight adjustment unit 230 may be attached to or detached from the rotation shaft 210.

As an example, although not shown in the drawing, the movement changing unit 200 further includes a friction adjusting unit for adjusting the degree of rotation of the rotating shaft 210 by applying a friction force to the rotating shaft 210 according to the moving speed of the moving object. You may.

For example, the friction control unit may adjust the degree of rotation of the rotation shaft 210 by applying a friction force to the rotation shaft 210 in the same and/or similar manner as the friction pad of the brake.

For example, in response to the moving speed of the moving body that changes every moment, the friction control unit applies a relatively large friction to the rotating shaft 210 when the moving body is moved at a relatively high speed, and the moving body is relatively When moving at a slow speed, relatively small friction and/or friction may not be applied to the rotating shaft 210.

For example, the friction control unit may be electronically and mechanically driven by a control unit that senses the speed of the moving body and adjusts the friction level of the friction control unit.

In addition, although not shown in the drawings, the air purification device 10 may further include a power generation unit that generates power by rotation of the rotation shaft 210.

For example, the power generation unit may be configured to convert rotational kinetic energy of the rotation shaft 210 into electrical energy.

For example, the power generation unit may be a device that converts thermal energy generated by rotational motion on the first fixing unit 140 into electric energy.

In addition, the power generation unit may be a device that converts the rotational motion of the rotation shaft 210 into electrical energy, such as wind power generation.

As described above, the air purification apparatus 10 according to an exemplary embodiment of the present invention is connected to the moving object and moves in conjunction with the movement of the moving object, thereby purifying air without power.

In the above, the configuration and features of the present invention have been described based on the embodiments according to the present invention, but the present invention is not limited thereto, and various changes or modifications can be made within the spirit and scope of the present invention. It will be apparent to those skilled in the art, and therefore, such changes or modifications are found to belong to the appended claims.

100: case
200: move change unit
300: purification unit

Claims (6)

An air purification device connected to a moving body and purifying air introduced by the movement of the moving body,
A case connected to the moving body, forming a placement space, and forming an inlet through which air flows into the arrangement space from the outside and an outlet through which air flows out from the arrangement space;
A movement changing unit disposed on the arrangement space and changing a movement direction of air introduced into the arrangement space from the outside; And
A purification unit disposed on the arrangement space and purifying air whose movement direction has been changed by the movement changing unit; and
Air introduced into the arrangement space by the moving body,
The movement direction is changed by the movement change unit, passes through the purification unit, and is discharged to the outside through the outlet,
The purification unit,
Enclosing the movement changing unit and dividing the arrangement space into an inner arrangement space in which the movement change unit is disposed and an outer arrangement space outside the purification unit based on the purification unit,
The movement change unit,
Rotating shaft and
It is formed on the rotation shaft and has a wing portion rotated by the movement of air,
The case,
Forming a first inlet through which air is introduced into the inner arrangement space from the outside and a second inlet through which air flows into the outside arrangement space from the outside,
Air introduced into the inner arrangement space from the outside through the first inlet and moved to the outer arrangement space through the purification unit by the movement change unit,
It is moved in the direction of the outlet by the flow of air introduced into the outer arrangement space from the outside through the second inlet,
Air filter.
delete delete The method of claim 1,
The movement change unit,
Further comprising a weight control unit for adjusting the degree of rotation of the rotation shaft by adding weight to the rotation shaft,
Air filter.
The method of claim 1,
The movement change unit,
Further comprising a friction control unit for adjusting the degree of rotation of the rotation shaft by applying a friction force to the rotation shaft according to the moving speed of the moving body,
Air filter.
The method of claim 1,
Further comprising a; power generation unit for generating power by the rotation of the rotation shaft,
Air filter.

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