KR102423357B1 - Air cleaner - Google Patents

Abstract

An air purifier having an inverter for controlling the operation of the device is disclosed.
The disclosed air purifier includes: a housing having an air suction unit; an air purifying filter provided inside the housing so that the air introduced into the air intake unit passes; an inverter module provided inside the housing and having a heat dissipation fin; and a cooling air flow path configuring an air flow path so that external air exchanges heat with the heat dissipation fin and flows into the air intake unit.
According to such an air purifier, the effect of improving the cooling efficiency of the inverter can be obtained.

Description

Air purifier {AIR CLEANER}

The present invention relates to an air purifier, and more particularly, to an air purifier having an inverter for controlling the operation of the device.

In general, an air purifier is a device that provides fresh air by filtering pollutant dust in the air or harmful substances harmful to the human body by applying various filter systems.

On the other hand, such an air purifier may be provided with an inverter capable of controlling the electronic components installed in the device according to the control signal.

The inverter includes a circuit board capable of outputting control signals of electronic components.

On the other hand, a circuit board provided in the inverter generates a lot of heat during operation. Therefore, there is a need for a method capable of effectively cooling the heat of the circuit board.

However, the air purifier according to the prior art has a structure in which a heat radiation fin is simply mounted on the circuit board of the inverter, and since the heat radiation fin is disposed inside the device housing, air flow is not active around the heat radiation fin, so heat exchange between the heat radiation fin and air is activated. The downside is that it doesn't.

The present invention has been devised to solve at least some of the problems of the prior art as described above, and as an aspect, an object of the present invention is to provide an air purifier capable of smoothly cooling an inverter circuit board installed inside a device.

As an aspect for achieving at least some of the above objects, the present invention provides a housing having an air intake; an air purifying filter provided inside the housing so that the air introduced into the air intake unit passes; an inverter module provided inside the housing and having a heat dissipation fin; and a cooling air flow path that configures an air flow path so that external air exchanges heat with the heat dissipation fin and flows into the air intake unit.

In one embodiment, the cooling air passage is provided in the housing, the inlet portion constituting a passage through which external air is introduced into the housing; and an outlet provided in the housing, located adjacent to the air intake, and constituting a passage through which the air introduced into the housing through the inlet flows out of the housing.

Further, in an embodiment, the inlet may be provided on a bottom surface of the housing, the outlet may be provided above the inlet, and the heat dissipation fin may be disposed between the inlet and the outlet.

Also, in one embodiment, the heat dissipation fins may be disposed parallel to the flow direction of the air flowing from the inlet to the outlet.

In addition, in one embodiment, the housing is airtightly isolated from each other so that the air flow is blocked between the parts installation space in which the inverter module is disposed and the air processing space in which the air purifying filter is disposed. It can be configured in the form

Further, in one embodiment, the housing constitutes a part of one surface of the housing, and includes a cover member having the air intake part, the outlet part is provided in the cover member, and the cover member is the air purifying filter. and a partition rib separating the part installation space and the air processing space.

Also, in one embodiment, a dehumidifying unit provided inside the housing and dehumidifying the air that has passed through the air purification filter may be included.

According to an embodiment of the present invention having such a configuration, it is possible to obtain an effect that the cooling efficiency of the inverter is improved.

1 is a perspective view of an air purifier according to an embodiment of the present invention;
FIG. 2 is an exploded perspective view of the air purifier shown in FIG. 1;
3 is a cross-sectional view taken along line A-A' of the air purifier shown in FIG. 1;
4 is a front view of a cover member included in the air cleaner shown in FIG. 1;
FIG. 5 is an enlarged view of part B shown in FIG. 3 .

The terminology used herein is used only to describe specific embodiments, and is not intended to limit the present invention. Also, in this specification, the singular expression includes the plural expression unless the context clearly dictates otherwise.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

1 to 5 , an air purifier according to an embodiment of the present invention will be described.

1 to 5 , the air purifier 100 according to an embodiment of the present invention includes a housing 110 , a dehumidifying unit 120 , a suction grill 130 , an air purification filter 140 , and an inverter. It may include a module 150 and a cooling air flow path 160 .

The housing 110 constitutes the exterior of the air purifier 100 according to an embodiment of the present invention, and a dehumidifying unit 120 , an air purifying filter 140 and an inverter module 150 to be described later may be installed therein. An internal space may be provided.

In one embodiment, the housing 110 may be configured in an open form, and may include a cover member 115 mounted to cover the open surface.

In one embodiment, the cover member 115 may include an air intake unit 116 in the form of an opening through which air can be sucked into the housing 110 .

In addition, in one embodiment, the housing 110 may include an air discharge unit 111 through which the air sucked into the housing 110 is discharged to the outside at the upper end, but the location of the air discharge unit 111 is specially not limited

The dehumidifying unit 120 is provided inside the housing 110 and can dehumidify the air passing therethrough.

For example, the dehumidification unit 120 includes an evaporator in which the refrigerant evaporates in the internal flow path, and may be configured as a compressor type that cools the air by exchanging air with the evaporator, but is not limited thereto, and desiccant It may be composed of an equation and a condense equation.

As such, the air purifier 100 according to an embodiment of the present invention having the dehumidifying unit 120 may be implemented as a dehumidifying purifier having not only an air purifying function but also a dehumidifying function.

The suction grill 130 may be mounted to cover the air suction part 116 of the cover member 115 . The shape and mounting structure of the suction grill 130 are not particularly limited.

The air purification filter 140 may be disposed on the air flow path inside the housing 110 to purify the air passing therethrough.

In an embodiment, the air purification filter 140 may be mounted on the cover member 115 to be disposed inside the air intake unit 116 , but is not limited thereto.

In this configuration, the air sucked into the air intake unit 116 may be purified through the air purification filter 140 and then flow to the dehumidifying unit 120 to be dehumidified.

The inverter module 150 is installed inside the housing 110 and is connected to various electrical components provided in the dehumidifier according to an embodiment of the present invention to control the operation of the electrical components according to signals.

The inverter module 150 may include a case 152 in which a circuit board is embedded, and a heat dissipation fin 154 for dissipating heat generated in the circuit board.

Here, the heat dissipation fins 154 may protrude to the outside of the case 152 and heat exchange with the fluid to dissipate heat from the circuit board.

The cooling air flow path 160 may configure an air flow path such that external air is heat-exchanged with the heat dissipation fin 154 of the inverter module 150 and flows into the air suction unit 116 of the cover member 115 .

In other words, in the cooling air flow path 160 , the air outside the housing 110 flows into the housing 110 , exchanges heat with the heat dissipation fin 154 , and flows out again to the outside of the housing 110 . It is possible to configure a flow path sucked into the housing 110 through the

To this end, in one embodiment, the cooling air flow path 160 may include an inlet 162 and an outlet 164 .

The inlet 162 is provided in the housing 110 , and may constitute a passage through which external air is introduced into the housing 110 .

As an example, the inverter module 150 may be disposed below the housing 110 as shown in FIG. 2 , and the inlet 162 may be configured as a through hole formed in the bottom surface of the housing 110 . can

In one embodiment, the inlet 162 is preferably formed directly below the heat dissipation fin 154 as shown in FIGS. 3 and 5 in order to make the length of the cooling air flow path 160 as short as possible.

In addition, the outlet 164 is provided in the housing 110 and is located close to the air intake 116 , and the air introduced into the housing 110 through the inlet 162 is provided in the housing 110 . It is possible to configure a passage that flows out to the outside.

In one embodiment, the outlet 164 may be disposed above the heat dissipation fin 154 so that the air introduced into the inlet 162 may flow to the outlet 164 after passing through the heat dissipation fin 154 .

On the other hand, when the heat dissipation fins 154 are disposed diagonally with respect to the flow direction of the air flowing from the inlet 162 to the outlet 164, the heat exchange time and area between the air and the heat dissipation fins 154 are not maximized, so the heat dissipation fins There may be a problem that the cooling performance of (154) is low.

Therefore, in one embodiment of the present invention, the heat dissipation fins 154 are preferably arranged parallel to the flow direction of the air flowing from the inlet 162 to the outlet 164 as shown in FIGS. 3 and 5 . do.

To this end, in one embodiment, the heat dissipation fin 154 is erected to stand upright inside the housing 110, the inlet 162 is directly below the heat dissipation fin 154, and the outlet 164 is the heat dissipation fin 154. may be formed directly above the

Meanwhile, in one embodiment, the housing 110 is installed such that the air flow is blocked between the parts installation space S1 in which the inverter module 150 is disposed and the air processing space S2 in which the air purification filter 140 is disposed. The space ( S1 ) and the air processing space ( S2 ) may be configured to be hermetically isolated from each other.

In other words, in the housing 110 , the air introduced through the inlet 162 of the cooling air flow path 160 flows into the dehumidifying unit 120 and the air outlet 111 without passing through the air purifying filter 140 . It may be configured so that air does not communicate between the air processing space (S2) and the parts installation space (S1).

Through this, the air purifier 100 according to an embodiment of the present invention has an advantage that there is no concern that unpurified air is discharged.

On the other hand, for such an operation, in one embodiment, the outlet 164 may be provided below the air intake 116 in the cover member 115, the cover member 115 is the air intake 116 ) and a partition rib 118 formed between the outlet 164 may be provided.

The partition rib 118 may support the air purification filter 140 and may separate the parts installation space S1 and the air processing space S2 so that air does not communicate with each other.

In one embodiment, the partition rib 118 may extend in the inner direction of the housing 110 along the edge of the air intake unit 116 as shown in FIGS. 2 and 3 . The end of the partition rib 118 is in contact with the dehumidifying unit 120 to isolate the parts installation space S1 and the air processing space S2 from each other.

As described above, when the air purifier 100 according to an embodiment of the present invention is operated and a blowing fan (not shown) is operated, a suction force is generated in the air suction unit 116 , and thereby the bottom of the housing 110 . Some of the air in the can be introduced into the inlet (162).

After the air introduced into the inlet 162 exchanges heat with the heat dissipation fin 154 , it passes through the outlet 164 and is then sucked into the air intake 116 .

Although the present invention has been shown and described with respect to specific embodiments, various modifications and changes can be made to the present invention by those skilled in the art without departing from the spirit and scope of the present invention as set forth in the claims below. Let's make it clear that it can be done.

100: air purifier 110: housing
111: air discharge unit 115: cover member
116: air intake 118: partition rib
S1: Part installation space S2: Air treatment space
120: dehumidification unit 130: suction grill
140: air purification filter 150: inverter module
152: case 154: heat dissipation fins
160: cooling air flow path 162: inlet
164: outlet

Claims (7)

a housing having an air intake;
an air purifying filter provided inside the housing so that the air introduced into the air intake unit passes;
a module provided in the housing and having a circuit board and heat dissipation fins for dissipating heat from the circuit board; and
a cooling air passage configured to form an air flow path such that external air exchanges heat with the heat dissipation fin and flows into the air intake unit;
including,
The cooling air flow path,
an inlet portion provided in the housing and constituting a passage through which external air is introduced into the housing; and
an outlet provided in the housing, positioned adjacent to the air intake, and constituting a passage through which the air introduced into the housing through the inlet flows out of the housing;
including,
The housing comprises a cover member constituting a part of one surface of the housing and having the air suction part,
The outlet is provided in the cover member,
and the cover member includes a partition rib separating the parts installation space in which the module is disposed and the air processing space in which the air purification filter is disposed to block air flow.
delete According to claim 1,
The inlet portion is provided on the bottom surface of the housing,
The outlet is provided above the inlet,
The heat dissipation fin is an air purifier disposed between the inlet and the outlet.
4. The method of claim 3,
The heat dissipation fins are disposed parallel to the flow direction of the air flowing from the inlet to the outlet.
According to claim 1,
The housing is configured in such a way that the parts installation space and the air processing space are hermetically isolated from each other so that air flow is blocked between the parts installation space in which the module is disposed and the air processing space in which the air purifying filter is disposed.
delete According to claim 1,
and a dehumidifying unit provided inside the housing and configured to dehumidify the air that has passed through the air purifying filter.

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