KR101954633B1 - Dehumidifier - Google Patents

Abstract

According to an embodiment of the present invention, there is provided a dehumidifier comprising: a dehumidifier main body having an inlet through which air is sucked and a discharge port from which dehumidified air is discharged to the outside; An evaporator disposed in the dehumidifier main body to remove moisture in the air sucked into the suction port; And a compressor connected to the evaporator in the dehumidifier main body to compress a refrigerant in the evaporator, the refrigerant being heat-exchanged with the air, wherein dehumidification water is generated on the surface of the evaporator, Can be removed from the surface of the evaporator.

Description

Dehumidifier {DEHUMIDIFIER}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a dehumidifier, and more particularly, to a dehumidifier that transmits vibration of a compressor to an evaporator and effectively removes dehumidified water generated on a surface of the evaporator from a surface of the evaporator.

In most cases, the dehumidifier employs a cooling dehumidification mode in which moisture in the air is condensed to remove moisture when the air passes through the evaporator using a refrigeration cycle.

The dehumidifier includes a case having an outer shape, a fan installed inside the case to suck outside air, dehumidifying means for condensing the moisture contained in the sucked air to remove moisture, And a storage tank to store the water.

The dehumidifying means includes a compressor for compressing the gaseous refrigerant at a high temperature and a high pressure, a condenser for condensing the high-temperature and high-pressure refrigerant gas discharged from the compressor, and a condenser for evaporating the low-pressure refrigerant passing through the capillary (expansion tube) .

In such a dehumidifier, the refrigerant is circulated from the evaporator through the condenser and the capillary to the evaporator through the compressor. When the air is sucked into the case by the rotation of the fan, the sucked air passes through the evaporator, And the moisture contained in the air is condensed into dew.

At this time, there is a need to remove moisture at a high rate in order to prevent the heat exchange efficiency of the heat exchanger from being reduced by moisture generated on the surface of the heat exchanger.

Korean Patent Publication No. 2016-0040369

An object of an embodiment is to provide a dehumidifier capable of effectively removing moisture (or dehumidifying water) generated on the surface of a heat exchanger (particularly, a dehumidifier) from the surface of a heat exchanger by using vibration of a compressor.

An object of the present invention is to provide a dehumidifying apparatus which removes moisture (or dehumidifying water) generated on the surface of a heat exchanger (in particular, dehumidifier) at a high speed to improve heat exchange efficiency of the heat exchanger, And to provide a dehumidifier capable of improving the performance of the dehumidifier.

An object of the present invention is to provide a dehumidifier capable of preventing vibration generated in a compressor from being transmitted to a dehumidifier main body and effectively transmitting vibration generated in the compressor to a dehumidifier.

According to an aspect of the present invention, there is provided a dehumidifier comprising: a dehumidifier main body having an inlet through which air is sucked and a discharge port from which dehumidified air is discharged to the outside; An evaporator disposed in the dehumidifier main body to remove moisture in the air sucked into the suction port; And a compressor connected to the evaporator in the dehumidifier main body to compress a refrigerant in the evaporator, the refrigerant being heat-exchanged with the air, wherein dehumidification water is generated on the surface of the evaporator, Can be removed from the surface of the evaporator.

According to one aspect of the present invention, the air conditioner further includes a housing in which the evaporator and the compressor are housed, and the housing can be mounted on a bottom surface of the dehumidifier main body.

According to a first aspect of the present invention, there is provided a damping device comprising: a vibration absorbing member disposed in the dehumidifier main body to absorb vibrations generated in the compressor, the vibration absorbing member comprising: a damper connected between a bottom surface of the housing and a bottom surface of the dehumidifier; A grommet disposed apart from the damper with a lower surface of the housing interposed therebetween; And a fixing element for fixing the compressor in the housing, wherein the vibration can be absorbed by the damper or the grommet.

According to one aspect of the present invention, the compressor further includes a vibration transmitting member for transmitting the vibration generated from the compressor to the evaporator, and the vibration transmitting member may include the refrigerant line or the housing connected between the evaporator and the compressor.

According to one aspect of the present invention, a dehumidifying water tray is disposed in a lower portion of the evaporator in the housing, and the dehumidifying water can be moved from the surface of the evaporator toward the dehumidifying water tray.

According to one aspect of the present invention, the apparatus may further include a condenser disposed in the housing so as to be spaced apart from the evaporator in the blowing direction.

According to an aspect of the present invention, there is provided a dehumidifier comprising: a dehumidifier main body having an inlet through which air is sucked and a discharge port from which dehumidified air is discharged to the outside; A housing mounted in the dehumidifier main body; An evaporator disposed at an upper portion of the housing to remove moisture in the air sucked from the outside; And a compressor disposed at a lower portion of the housing for compressing a refrigerant in the evaporator, the refrigerant exchanging heat with the air, wherein the evaporator and the compressor are connected to each other so that vibration generated in the compressor can be transmitted to the evaporator have.

According to one aspect of the present invention, the dehumidifier main body includes: a damper connected between the bottom surface of the housing and the bottom surface of the dehumidifier-dehumidifier main body; A grommet disposed apart from the damper with a lower surface of the housing interposed therebetween; And a fixing element extending from the inner side of the housing through the grommet toward a side of the compressor, wherein the damper or the grommet can absorb vibration generated by the compressor.

According to one aspect of the present invention, dehumidifying water is generated on the surface of the evaporator, and the vibration of the compressor is transmitted to the evaporator, so that the dehumidifying water can be removed from the surface of the evaporator.

According to the dehumidifier of one embodiment, the moisture (or dehumidifying water) generated on the surface of the heat exchanger (particularly, the dehumidifier) can be effectively removed from the surface of the heat exchanger by using the vibration of the compressor.

According to the dehumidifier of the embodiment, the moisture (or the dehumidifying water) generated on the surface of the heat exchanger (in particular, the dehumidifier) is removed at a high speed to improve the heat exchange efficiency of the heat exchanger, The efficiency can be improved.

According to the dehumidifier of the embodiment, the vibration generated in the compressor can be prevented from being transmitted to the dehumidifier main body, and the vibration generated in the compressor can be effectively transmitted to the dehumidifier.

1 shows a perspective view of a dehumidifier according to an embodiment.
2 shows an internal structure of a dehumidifier according to an embodiment.
3 shows the dehumidifying water removed from the surface of the evaporator.

Hereinafter, embodiments will be described in detail with reference to exemplary drawings. It should be noted that, in adding reference numerals to the constituent elements of the drawings, the same constituent elements are denoted by the same reference numerals even though they are shown in different drawings. In the following description of the embodiments, detailed description of known functions and configurations incorporated herein will be omitted when it may make the best of an understanding clear.

In describing the components of the embodiment, terms such as first, second, A, B, (a), and (b) may be used. These terms are intended to distinguish the constituent elements from other constituent elements, and the terms do not limit the nature, order or order of the constituent elements. When a component is described as being "connected", "coupled", or "connected" to another component, the component may be directly connected or connected to the other component, Quot; may be "connected," "coupled," or "connected. &Quot;

The components included in any one embodiment and the components including common functions will be described using the same names in other embodiments. Unless otherwise stated, the description of any one embodiment may be applied to other embodiments, and a detailed description thereof will be omitted in the overlapping scope.

FIG. 1 shows a perspective view of a dehumidifier according to an embodiment, FIG. 2 shows an internal structure of a dehumidifier according to an embodiment, and FIG. 3 shows a state in which dehumidification water is removed from a surface of an evaporator.

1 and 2, the dehumidifier 10 according to an embodiment may include a dehumidifier main body 100 and a heat exchanger 200.

The humidifier main body 100 is a device for dehumidifying humid air from the outside with dry air. The humidifier main body 100 may include a suction port 102 for sucking humid air from outside, and includes a discharge port 104 for discharging dry air to the outside, Can be provided on the other side. A grill may be disposed on the suction port 102 and the discharge port 104.

1, the suction port 102 is disposed on the upper surface of the front portion of the dehumidifier main body 100 and the discharge port 104 is disposed on the upper surface portion of the dehumidifier main body 100. However, the suction port 102 and the discharge port 104 may be variously changed according to the design conditions and conditions of the dehumidifier 100. [

On the other hand, a wheel 1110 may be mounted on the dehumidifier main body 100. The wheel 110 is disposed at a lower portion of the dehumidifier main body 100, so that the dehumidifier main body 100 can be easily moved. Therefore, since the dehumidifier main body 100 is easily moved along the bottom surface, the dehumidifier main body 100 can be easily and easily moved with less force than the method of directly lifting the dehumidifier main body 100.

The dehumidifier main body 100 may include a display unit 120 for displaying the operating state of the dehumidifier main body 100 to the outside or adjusting the operation of the dehumidifier main body 100.

The display unit 120 may be disposed on the upper surface of the dehumidifier main body 100 in front of the discharge port 104.

For example, the display unit 120 may include a display member and an operation member, and the display member may indicate an operation state of the dehumidifier main body 100. The operation member may include a dehumidifier body 100 or a display unit 120, Can be controlled.

The heat exchanging part 200 may be disposed inside the main body 100 of the dehumidifier.

The heat exchanger 200 may include an evaporator 210, a condenser 220, a blower 230, and a compressor 240.

The evaporator 210 is a heat exchanger that removes moisture from the humid air A sucked through the suction port 102 and may be disposed inside the dehumidifier main body 100 and close to the suction port 102. The evaporator 210 may be provided with a low-temperature refrigerant for heat exchange with the air passing through the evaporator 210.

Accordingly, the humid air A can be cooled to a temperature below the dew point in the process of passing through the evaporator 210, the moisture contained in the humid air A is formed in the form of water droplets on the surface of the evaporator 210, And downward along the surface of the substrate 210.

At this time, a dehumidifying water tray 212 for collecting dehumidifying water may be disposed below the evaporator 210. 3, dehumidified water generated on the surface of the evaporator 210 can be moved toward the dehumidifying water tray 212 from the surface of the evaporator 210. [

A condenser 220 may be disposed at one side of the evaporator 210 to transfer the dehumidified air from the evaporator 210.

The condenser 220 may be disposed between the evaporator 210 and the discharge port 104 and may be spaced apart from the evaporator in parallel with the blowing direction.

The blower 230 is a device for forcedly blowing air and may be disposed on an air passage formed between the suction port 102 and the discharge port 104. For example, the blower 230 may be disposed between the condenser 220 and the rear surface of the dehumidifier main body 100, and air passing through the condenser 220 may be guided by the blower 230 toward the discharge port 104 . At this time, it is needless to say that various kinds of blowing fans can be used for the blower 230 according to the design conditions and conditions of the dehumidifier 10.

The compressor 240 is a device for compressing a refrigerant and may be disposed on a refrigerant flow path through which the refrigerant flows from the evaporator 210 to the condenser 220. For example, the compressor 240 can receive the refrigerant from the evaporator 210 and compress the refrigerant at a high temperature and a high pressure, and can deliver the refrigerant compressed at a high temperature and a high pressure to the condenser 220.

At this time, the dehumidifier 10 according to one embodiment can remove the dehumidifying water generated on the surface of the evaporator 210 from the surface of the evaporator 210 by the vibration of the compressor 240.

The dehumidifier 10 may further include a vibration transmitting member 300 for transmitting the vibration generated from the compressor 240 to the evaporator 210. [

The vibration transmitting member 300 may include a refrigerant line 310 connected between the evaporator 210 and the compressor 220, for example.

One end of the refrigerant line 310 is connected to the compressor 220 and the other end of the refrigerant line 310 is connected to the evaporator 210 so that the vibration generated in the compressor 220 can be transmitted to the evaporator 210 have.

The vibration generated in the compressor 240 is transmitted to the evaporator 210 through the refrigerant line 310 so that dehumidified water generated on the surface of the evaporator 210 as shown in FIG. To the dehumidifying water tray (212). As a result, dehumidified water generated on the surface of the evaporator 210 can be smoothly removed from the evaporator 210 while the dehumidifier 10 is operated.

In addition, the vibration transmitting member 300 may include a housing 320. [

The housing 320 may be disposed in the dehumidifier main body 100, and an evaporator 210 and a compressor 240 may be accommodated therein.

In addition, a condenser 220 may be disposed at one side of the evaporator 210 inside the housing 320. Accordingly, the condenser 220 may be disposed inside the housing 320 or outside the housing 320 as the case may be.

In detail, the evaporator 210 and the condenser 220 may be disposed on the upper portion of the housing 320, and the compressor 240 may be disposed on the lower portion of the housing 320.

At this time, the housing 320 and the compressor 240 may be connected to each other.

The vibration generated in the compressor 240 is transmitted to the housing 320 and transferred to the evaporator 210 disposed in the housing 320 so that the dehumidification generated on the surface of the evaporator 210, The water can be moved from the surface of the evaporator 210 toward the dehumidifying water tray 212. As a result, dehumidified water generated on the surface of the evaporator 210 can be smoothly removed from the evaporator 210 while the dehumidifier 10 is operated.

The configuration of the vibration transmitting member 300 described above is not limited to this, and any one can be used as long as the vibration generated in the compressor 220 can be effectively transmitted to the evaporator 210.

In addition, the dehumidifier 10 according to an embodiment may further include a vibration absorbing member 400 that absorbs vibration generated in the compressor 240.

The vibration absorbing member 400 may be disposed on the bottom surface in the dehumidifier main body 100.

Specifically, the vibration-absorbing member 400 may include a damper 410, a grommet 420, and a stationary element 430.

The damper 410 may be connected between the lower surface of the housing 320 and the bottom surface of the dehumidifier main body 100. The damper 410 may extend in the vertical direction from the bottom surface of the dehumidifier main body 100 to the bottom surface of the housing 320 and the bottom surface of the housing 320 and the bottom surface of the dehumidifier main body 100 They can be fixed apart from each other.

The grommet 420 may be spaced apart from the damper 410 with the lower surface of the housing 320 interposed therebetween. Whereby the grommet 420 may be disposed inside the housing 320 and the damper 410 may be disposed outside the housing. The grommet 420 may be formed to extend along the longitudinal direction of the damper 410 and may be disposed coaxially with the damper 410.

At this time, the compressor 240 can be spaced from the lower surface of the housing 320 by the grommet 420, and the compressor 240 can be prevented from being directly fixed to the housing 320.

The stationary element 420 may secure the compressor 240 within the housing 320 and may extend from the inner side of the housing 320 through the grommet 420 toward the side of the compressor 240. At this time, the number and arrangement of the stationary elements 420 can be any as long as the compressor 240 can be stably fixed in the housing 320.

The vibration generated by the compressor 240 by the damper 410 or the grommet 420 can be effectively absorbed by the vibration absorbing member 400 described above. Therefore, it is possible to prevent the vibration generated in the compressor 240 from being transmitted to the dehumidifier main body 100, and to allow the vibration generated in the compressor 240 to be transmitted only to the evaporator 240.

The structure of the vibration absorbing member 400 is not limited to that described above. Any structure capable of preventing the vibration generated in the housing 320, in particular, the vibration generated in the compressor 240 from being transmitted to the dehumidifier main body 100, It is possible.

Thus, the dehumidifier according to one embodiment can effectively remove the moisture (or dehumidifying water) generated on the surface of the heat exchanger (particularly, the dehumidifier) from the surface of the heat exchanger using the vibration of the compressor, (Or dehumidifying water) generated on the surface of the heat exchanger can be removed at a high speed to improve the heat exchange efficiency of the heat exchanger and improve the dehumidification performance or dehumidification efficiency of the dehumidifier

Although the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, And various modifications and changes may be made thereto without departing from the scope of the present invention. Accordingly, the spirit of the present invention should not be construed as being limited to the embodiments described, and all of the equivalents or equivalents of the claims, as well as the following claims, belong to the scope of the present invention .

10: Dehumidifier
100: dehumidifier body
102: inlet
104:
110: Wheels
120:
200: Heat exchanger
210: Evaporator
212: Dehumidifying water tray
220: condenser
230: blower
240: compressor
300:
310: refrigerant connection line
320: housing
400: vibration absorbing member
410: damper
420: Grommet
430: stationary element

Claims (9)

A dehumidifier main body having a suction port through which air is sucked and a discharge port from which dehumidified air is discharged to the outside;
An evaporator disposed in the dehumidifier main body to remove moisture in the air sucked into the suction port;
A compressor connected to the evaporator in the dehumidifier main body to compress a refrigerant in the evaporator that exchanges heat with the air; And
A vibration transmitting member for transmitting the vibration generated from the compressor to the evaporator;
Lt; / RTI >
Dehumidifying water is generated on the surface of the evaporator,
Wherein the vibration transmitting member includes a housing disposed in the body,
Wherein the housing and the compressor are connected to each other, and the vibration generated by the compressor is transmitted to the evaporator through the housing, whereby the dehumidification is performed by the vibration of the compressor, Wherein the water is removed from the surface of the evaporator.
The method according to claim 1,
And the housing is mounted on a bottom surface of the dehumidifier main body.
3. The method of claim 2,
Further comprising a vibration absorbing member disposed in the dehumidifier main body and absorbing vibration generated in the compressor,
The vibration-
A damper connected between the bottom surface of the housing and the bottom surface of the dehumidifier main body;
A grommet disposed apart from the damper with a lower surface of the housing interposed therebetween; And
A stationary element for securing the compressor within the housing;
Lt; / RTI >
And the vibration is absorbed by the damper or the grommet.
3. The method of claim 2,
Wherein the vibration transmitting member includes a refrigerant line connected between the evaporator and the compressor.
3. The method of claim 2,
A dehumidifying water tray is disposed in a lower portion of the evaporator in the housing,
Wherein the dehumidifying water is moved from the surface of the evaporator toward the dehumidifying water tray.
3. The method of claim 2,
Further comprising a condenser disposed in the housing so as to be spaced apart from the evaporator in the air blowing direction.
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