KR102392267B1 - Dehumidifier - Google Patents

Abstract

According to an exemplary embodiment, a dehumidifier includes: a dehumidifier body that sucks air through an inlet and discharges it through an outlet; a heat exchange unit configured to remove moisture in the air sucked in through the suction port and include an evaporator and a condenser; and a blower for guiding the dehumidified air dehumidified by the heat exchanger to the outlet, wherein the outlet is provided on an upper surface and both sides of the dehumidifier body, respectively, and the blower blows the dehumidified air into the blower. It may include a fan guiding toward each outlet in a radial direction from the center.

Description

Dehumidifier {DEHUMIDIFIER}

The present invention relates to a dehumidifier, and more particularly, to a dehumidifier capable of discharging dehumidified air through an upper surface and both sides of a dehumidifier body.

In general, a dehumidifier is a device that removes moisture contained in air, and is manufactured using various dehumidification methods.

In most cases, the dehumidifier is a cooling type dehumidifier that uses a refrigeration cycle to remove moisture by condensing moisture in the air when the air passes through the evaporator.

Such a dehumidifier includes a case forming an external shape, a fan installed inside the case to suck outside air, a dehumidifying means for removing moisture by condensing moisture contained in the sucked air, and a water storage tank in which the water dehumidified by the dehumidifying means is stored. is composed of

The dehumidifying means includes a compressor for compressing a gaseous refrigerant to high temperature and high pressure, a condenser for condensing the high temperature and high pressure refrigerant gas discharged from the compressor, and a low pressure refrigerant passing through a capillary tube (expansion tube) through the condenser to evaporate It consists of an evaporator.

Such a dehumidifier is configured such that the refrigerant is circulated from the evaporator through the compressor to the evaporator through the condenser and the capillary tube.

At this time, when air is sucked into the case due to the rotation of the fan, the sucked air is cooled to below the dew point by the refrigerant as it passes through the evaporator and condensed, and moisture contained in the air is condensed and removed as dew.

As the use of dehumidifiers has become common, research on dehumidifiers has also been actively conducted. For example, Prior Document No. 2011-0098956 filed on September 29, 2011 discloses a home dehumidifier.

An object of the present embodiment is to provide a dehumidifier capable of discharging dehumidified air through an upper surface and both sides of a dehumidifier body using a turbo fan.

An object of the present invention is to provide a dehumidifier capable of discharging dehumidified air at the same flow rate through both sides of a dehumidifier body from a center of a blower unit by a blower unit.

SUMMARY According to an exemplary embodiment, an object of the present disclosure is to provide a dehumidifier capable of adjusting a discharge flow rate of dehumidified air through a discharge port by including a discharge flow rate adjusting member for adjusting a diameter of a discharge port or a flow rate of dehumidified air on a blowing path.

SUMMARY According to an exemplary embodiment, an object of the present invention is to provide a dehumidifier capable of reducing a discharge temperature of dehumidified air and reducing noise.

An object of the present embodiment is to provide a dehumidifier in which a fan of a blower is disposed between a heat exchanger and a motor to increase an intake cross-sectional area of dehumidified air and reduce noise according to a decrease in air discharge speed.

According to an exemplary embodiment, a dehumidifier includes: a dehumidifier body that sucks air through an inlet and discharges it through an outlet; a heat exchange unit configured to remove moisture in the air sucked in through the suction port and include an evaporator and a condenser; and a blower for guiding the dehumidified air dehumidified by the heat exchanger to the outlet, wherein the outlet is provided on an upper surface and both sides of the dehumidifier body, respectively, and the blower blows the dehumidified air into the blower. It may include a fan guiding toward each outlet in a radial direction from the center.

According to one side, a plurality of blowing paths are formed in the dehumidifier body in a radial direction from the center of the fan, and the plurality of blowing paths include a discharge port provided on an upper surface of the dehumidifier body in a radial direction from the center of the fan. a first blowing path extending toward; a second blowing path extending from the center of the fan toward a discharge port provided on a right side of the dehumidifier body in a radial direction; and a third blowing path extending from the center of the fan toward the outlet provided on the left side of the dehumidifier body in a radial direction.

According to one side, when the fan rotates clockwise, an air flow rate greater than the air flow rate of the second blowing path is guided to the third blowing path, and the diameter of the outlet provided on the right side of the dehumidifier body is It may be provided to be larger than a diameter of a discharge port provided on the left side of the dehumidifier body.

According to one side, the first blowing path, the second blowing path, or the third air flow path on the air flow rate or the diameter of the outlet may be individually adjusted by a discharge flow rate adjusting member for controlling the air outlet may be further included.

According to one side, the blower may further include a motor for driving the fan, and the fan may be disposed between the heat exchanger and the motor.

According to an exemplary embodiment, a dehumidifier includes: a dehumidifier body that sucks air through an inlet and discharges it through an outlet; a heat exchange unit configured to remove moisture in the air sucked in through the suction port and include an evaporator and a condenser; and a blower for guiding the dehumidified air dehumidified by the heat exchanger to the outlet, wherein the outlet is provided on an upper surface and both sides of the dehumidifier body, respectively, and outlets provided on both sides of the dehumidifier body; The discharge flow rate of the dehumidified air through the air may be the same.

According to one side, when the lower surface of the dehumidifier body is sealed and the blower rotates clockwise, the diameter of the outlet provided on the right side of the dehumidifier body is greater than the diameter of the outlet provided on the left side of the dehumidifier body. can be large.

According to one side, the central axis of the blower may be eccentric toward the outlet provided on the right side of the dehumidifier body.

According to one side, when the lower surface of the dehumidifier body is sealed and the blower rotates clockwise, the central axis of the blower may be eccentric toward the outlet provided on the left side of the dehumidifier body.

According to one side, the dehumidifier body has a plurality of blowing paths formed in a radial direction from the center of the blower, and a discharge flow control member for individually adjusting the air flow rate on the plurality of blowing paths or the diameter of the discharge port. may include

According to the dehumidifier according to the exemplary embodiment, dehumidification air may be discharged through the upper surface and both sides of the dehumidifier body by using a turbo fan.

According to the dehumidifier according to the exemplary embodiment, the dehumidifying air may be discharged at the same flow rate from the center of the blowing unit through both sides of the dehumidifier body by the blowing unit.

According to the dehumidifier according to the exemplary embodiment, the discharge flow rate adjusting member for adjusting the diameter of the discharge port or the flow rate of the dehumidified air on the blowing path may be provided to adjust the discharge flow rate of the dehumidified air through the discharge port.

According to the dehumidifier according to an embodiment, it is possible to reduce the discharge temperature of the dehumidified air and reduce noise.

According to the dehumidifier according to the exemplary embodiment, the fan of the blower is disposed between the heat exchange unit and the motor to increase an intake cross-sectional area of dehumidified air, and noise may be reduced according to a decrease in the air discharge speed.

1 shows a perspective view of a dehumidifier according to an embodiment.
2 illustrates an exploded view of the dehumidifier according to an embodiment from the front.
3 illustrates an exploded view of the dehumidifier according to an embodiment.
4 illustrates a blower of a dehumidifier according to an embodiment.

Hereinafter, embodiments will be described in detail with reference to exemplary drawings. In adding reference numerals to the components of each drawing, it should be noted that the same components are given the same reference numerals as much as possible even though they are indicated on different drawings. In addition, in the description of the embodiment, if it is determined that a detailed description of a related known configuration or function interferes with the understanding of the embodiment, the detailed description thereof will be omitted.

In addition, in describing the components of the embodiment, terms such as first, second, A, B, (a), (b), etc. may be used. These terms are only for distinguishing the elements from other elements, and the essence, order, or order of the elements are not limited by the terms. When it is described that a component is "connected", "coupled" or "connected" to another component, the component may be directly connected or connected to the other component, but another component is between each component. It will be understood that may also be "connected", "coupled" or "connected".

1 shows a perspective view of a dehumidifier according to an embodiment, FIG. 2 shows an exploded state from the front of the dehumidifier according to an embodiment, and FIG. 3 is an exploded view from the side of the dehumidifier according to an embodiment and FIG. 4 shows a blower in the dehumidifier according to an embodiment.

1 and 2 , the dehumidifier 10 according to the exemplary embodiment may include a dehumidifier body 100 , a heat exchange unit 200 , a blower unit 300 , and a water tank unit 400 .

A heat exchange unit 200 , a blower unit 300 , and a water tank unit 400 may be accommodated in the dehumidifier body 100 .

Therefore, the shape or size of the dehumidifier body 100 may be changed according to the shape or size of the built-in heat exchanger 200 , the blower 300 , and the water tank 400 .

In addition, the dehumidifier body 100 may include an inlet 102 and an outlet 104 .

The suction port 102 and the discharge port 104 may be provided in a structure that can be opened and closed, and although the suction port 102 and the discharge port 104 are shown in a closed state in FIG. 1 , when the dehumidifier 10 is in operation, the suction port 102 and the discharge port 104 may be in an open state.

In particular, referring to FIG. 3 , the suction port 102 may be formed on the rear surface of the dehumidifier body 100 .

However, the position of the suction port 102 is not limited thereto, and it is natural that it may be formed on the front side of the dehumidifier body 100 .

In addition, a replaceable filter is mounted on the suction port 102 to prevent foreign substances such as dust in the outside air from entering the dehumidifier body 100 .

The discharge port 104 may be formed on the upper surface and both sides of the dehumidifier body 100 .

In particular, referring to FIG. 2 , specifically, the outlet 104 includes a first outlet 1042 formed on the upper surface of the dehumidifier body 100 , a second outlet 1044 formed on the right side of the dehumidifier body 100 , and the dehumidifier body ( It may be composed of a third outlet 1046 formed on the left side of the 100). In this case, the right side or the left side is based on when viewed from the front of the dehumidifier body 100 .

Accordingly, the air sucked in through the suction port 102 provided on the rear surface of the dehumidifier body 100 is dehumidified in the heat exchange unit 200 and then through the discharge ports 104 formed on the upper surface and both sides of the dehumidifier body 100 . can be ejected.

In other words, the dehumidified air may be simultaneously discharged through the first discharge port 1042 , the second discharge port 1044 , and the third discharge port 1046 , and a 3-WAY discharge method may be implemented.

The 3-WAY discharge method is related to the blower 300 and will be described in more detail below.

Referring back to FIG. 3 , the heat exchange unit 200 may be disposed inside the dehumidifier body 100 adjacent to the suction port 102 .

The heat exchanger 200 may include an evaporator 210 and a condenser 220 .

The evaporator 210 may reduce the temperature of the air passing through the evaporator 210 by evaporating the refrigerant (not shown) in a liquefied state in the evaporator 210 , thereby taking heat from the air around the evaporator 210 .

Accordingly, the temperature of the air sucked through the suction port 102 of the dehumidifier body 100 is lowered, and dew condensation or dehumidified water may be generated around the evaporator 210 .

In addition, a condenser 220 may be disposed on one side of the evaporator 210 .

The condenser 220 may condense the refrigerant used in the dehumidifier 10 , and the air passing through the condenser 220 may be heated.

For example, the evaporator 210 and the condenser 220 may be disposed between the inlet 102 and the outlet 104 of the dehumidifier body 100, and the condenser 220 is downstream of the evaporator 210 on the blowing path. can be placed on the side.

In this case, the upstream direction on the blowing path may be the suction port 102 side of the dehumidifier body 100 , and the downstream direction may be the discharge port 104 side of the dehumidifier body 100 .

By the heat exchange unit 200 of this structure, the air sucked through the inlet 102 is cooled while passing through the evaporator 210 to remove moisture or moisture, and is heated while passing through the condenser 220 to the outlet 104 ), for example, may be moved toward the first outlet 1042 , the second outlet 1044 , and the third outlet 1046 .

Also, in the dehumidifier body 100 , a blower 300 may be disposed adjacent to the heat exchanger 200 to guide the dehumidified air dehumidified by the heat exchanger 200 to the outlet 104 .

In particular, referring to FIG. 4 , the blower 300 may include a fan 310 and a motor 320 .

The fan 310 may guide the dehumidified air introduced from the heat exchanger 200 in a radial direction from the center of the blower 300 or the fan 310 .

For example, the fan 310 may be a turbo fan.

Specifically, the fan 310 includes a first annular frame 312 disposed adjacent to the front of the dehumidifier body 100 , and a second annular second annular frame disposed spaced apart from the heat exchanger 200 with respect to the first annular frame 312 . It may include a frame 314 and a plurality of blades 316 mounted between the first annular frame 312 and the second annular frame 314 .

At this time, the dehumidified air is sucked from the heat exchange unit 200 through the second annular frame 314, and the fan 310 rotates and may be guided to the outlet 104 through the space between the plurality of blades 316. .

The plurality of blades 316 may be spaced apart from each other at equal intervals between the first annular frame 312 and the second annular frame 314 and may be mounted at an angle.

The dehumidified air introduced from the heat exchanger 200 by the fan 310 is guided in a radial direction from the central space of the blower 300 or the fan 310, and is eventually discharged to the outside through the outlet 104. can

Also, referring back to FIG. 2 , a plurality of blowing paths may be formed in the dehumidifier body 100 in a radial direction from the center of the fan 310 .

The plurality of blowing paths may include a first blowing path W1 , a second blowing path W2 , and a third blowing path W3 .

The first blowing path W1 may extend from the center of the fan 310 in a radial direction toward the outlet 1042 provided on the upper surface of the dehumidifier body 100 .

The second blowing path W2 may extend from the center of the fan 310 in a radial direction toward the outlet 1044 provided on the right side of the dehumidifier body 100 .

The third blowing path W3 may extend from the center of the fan 310 in a radial direction toward the outlet 1046 provided on the left side of the dehumidifier body 100 .

As such, dehumidification air can be discharged through the upper surface and both sides of the dehumidifier body 100, and the dehumidification air of the dehumidifier body 100 is evenly distributed to improve the noise of the dehumidifier 10 and the discharge temperature of the dehumidified air. there is.

In addition, the dehumidifier 10 according to an embodiment may individually measure the air flow rate or the diameter of the outlet 104 on the first blowing path W1, the second blowing path W2, or the third blowing path W3. It may further include a discharge flow rate control member (not shown) to adjust.

The discharge flow rate adjusting member controls the flow rate of the dehumidified air discharged through the discharge port 104 , and may be realized by adjusting the air flow rate on the plurality of blowing paths or the diameter of the discharge port 104 .

For example, the discharge flow rate adjusting member may be provided as a baffle on the plurality of blowing paths or as a shutter capable of adjusting the diameter of the discharge port 104 .

However, the configuration of the discharge flow rate control member is not limited thereto, and the configuration of the discharge flow rate control member may be any as long as it can control the discharge flow rate of the dehumidified air through the discharge port 104 .

In this case, the discharge flow rate of the dehumidified air through the discharge port 104 may also be variously controlled according to the user's request. For example, the discharge flow rate through the discharge ports 1042 provided on the upper surface of the dehumidifier body 100 can be greater or smaller than the discharge flow rate through the discharge ports 1044 and 1046 provided on both sides of the dehumidifier body 100. there is.

In the case of the dehumidifier 10 according to an embodiment, the lower surface of the dehumidifier body 100 is sealed, and according to the rotation of the fan 310, the second blowing path W2 and the third blowing path W3. More air flow can be directed.

In this case, the air flow rate is related to the rotation angle of the fan 310 , and as the rotation angle of the fan 310 increases, more air flow rate may be guided on the blowing path.

In other words, when the fan 310 rotates clockwise, the air flow rate on the third blowing path W3 may be greater than the air flow rate on the second blowing path W2, and through the second blowing path W2 When the air flow rate of A is guided, the air flow rate of approximately 2A may be guided through the third blowing path W3.

At this time, in order to equalize the discharge flow rate of dehumidified air through the discharge port 1044 provided on the right side of the dehumidifier body 100 and the discharge port 1046 provided on the left side of the dehumidifier body 100, the dehumidifier body 100 ), the diameter of the outlet 1044 provided on the right side may be larger than the diameter of the outlet 1046 provided on the left side of the dehumidifier body 100 .

In such a case, the central axis of the blower 300 , particularly the fan 310 , may be eccentrically disposed within the dehumidifier body 100 . For example, when the fan 310 rotates clockwise, the central axis of the fan 310 is eccentrically disposed toward the outlet 1044 provided on the right side of the dehumidifier body 100 in the dehumidifier body 100 . can The eccentricity of the fan 310 may contribute to reducing the noise of the dehumidifier 10 .

In addition, the diameter of the discharge port 1044 provided on the right side of the dehumidifier body 100 and the diameter of the discharge port 1046 provided on the left side of the dehumidifier body 100 may be the same.

At this time, in order to make the discharge flow rate of the dehumidified air the same through the discharge port 1044 provided on the right side of the dehumidifier body 100 and the discharge port 1046 provided on the left side of the dehumidifier body 100, the fan 310 When the fan 310 rotates in the clockwise direction, the central axis of the fan 310 may be eccentrically disposed toward the outlet 1044 provided on the left side of the dehumidifier body 100 in the dehumidifier body 100 .

In addition, the fan 310 may be equipped with a motor 320 for driving the fan 310 .

The motor 320 allows the fan 310 to be disposed between the heat exchanger 200 , in particular the condenser 220 and the motor 320 .

Specifically, the motor 320 may be mounted on the first annular frame 314 of the fan 310 toward the front of the dehumidifier body 100 , and may be disposed to be spaced apart from the heat exchange unit 200 .

The arrangement of the motor 320 may increase the suction cross-sectional area for the dehumidified air of the fan 310 and reduce the noise of the dehumidifier 10 according to a decrease in the flow rate of the dehumidified air.

In addition, the water tank 400 may be disposed on the lower side of the dehumidifier body 100 .

For example, the water tank 400 may be provided to be in fluid communication with the evaporator 210 , and the dehumidified water generated by the heat exchange unit 200 , specifically, the evaporator 210 may be collected.

In addition, the dehumidifier body 100 may be provided with a button element 106 for operating the heat exchange unit 200 , the blower unit 300 , or the water tank unit 300 .

The button element 106 may be provided to be openable and openable, and although the button element 106 is shown in a closed state in FIG. 1 , it may be in an open state when the button element 106 is used.

By means of the button element 106, the user can conveniently select whether to operate the heat exchange unit 200, the blower unit 300, or the water tank unit 400, and can operate it conveniently.

For example, the user may select the desired humidity or air volume, and manually operate it, and the dehumidifier 10 may detect the indoor humidity by itself and automatically operate it.

The discharge flow rate adjusting member described above can also be operated by the button element 106 .

For example, by pressing the button element 106 , the diameter of the outlet 104 may be adjusted or the blowing path may be modified.

As described above, the dehumidifier according to an exemplary embodiment can discharge dehumidified air through the upper surface and both sides of the dehumidifier body by using a turbo fan, and dehumidify at the same flow rate from the center of the blower by the blower through both sides of the dehumidifier body air can be expelled. And a discharge flow control member for adjusting the diameter of the discharge port or the flow rate of the dehumidified air on the blowing path can be provided to adjust the discharge flow rate of the dehumidified air through the discharge port, and the fan of the blower is disposed between the heat exchanger and the motor to control the dehumidification air. The suction cross-sectional area is increased, and noise can be reduced according to the decrease in the air discharge speed.

As described above, in the embodiment of the present invention, specific matters such as specific components, etc., and limited embodiments and drawings have been described, but these are only provided to help a more general understanding of the present invention, and the present invention is limited to the above embodiments Various modifications and variations are possible from these descriptions by those of ordinary skill in the art to which the present invention pertains. Therefore, the spirit of the present invention should not be limited to the described embodiments, and not only the claims to be described later, but also all those with equivalent or equivalent modifications to the claims will be said to belong to the scope of the spirit of the present invention. .

10: dehumidifier
100: dehumidifier body
102: intake
104: outlet
106: button element
200: heat exchange unit
210: evaporator
220: condenser
300: blower
310: fan
312: first annular frame
314: second annular frame
316: multiple blades
320: motor
400: water tank

Claims (10)

a dehumidifier body sucking air through an inlet and discharging it through an outlet;
a heat exchange unit that removes moisture in the air sucked in through the suction port and includes an evaporator and a condenser; and
a blower for guiding the dehumidified air dehumidified by the heat exchanger to the outlet;
including,
The discharge ports are respectively provided on the upper surface and both sides of the dehumidifier body,
When the lower surface of the dehumidifier body is sealed and the blower rotates clockwise, the diameter of the outlet provided on the right side of the dehumidifier body is greater than the diameter of the outlet provided on the left side of the dehumidifier body.
The central axis of the blower is eccentric toward the outlet provided on the right side of the dehumidifier body,
A dehumidifier having the same discharge flow rate of dehumidified air through discharge ports provided on both sides of the dehumidifier body.
a dehumidifier body sucking air through an inlet and discharging it through an outlet;
a heat exchange unit that removes moisture in the air sucked in through the suction port and includes an evaporator and a condenser; and
a blower for guiding the dehumidified air dehumidified by the heat exchanger to the outlet;
including,
The discharge ports are respectively provided on the upper surface and both sides of the dehumidifier body,
When the lower surface of the dehumidifier body is sealed and the blower rotates clockwise, the central axis of the blower is eccentric toward the outlet provided on the left side of the dehumidifier body,
A dehumidifier having the same discharge flow rate of dehumidified air through discharge ports provided on both sides of the dehumidifier body.
According to claim 1,
The dehumidifier body further includes a discharge flow rate adjusting member having a plurality of blowing paths formed in a radial direction from the center of the blower unit, and individually adjusting an air flow rate on the plurality of blowing paths or a diameter of the discharge port. delete delete delete delete delete delete delete

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