KR20150077776A - Dehumidifier - Google Patents

Abstract

Disclosed is a dehumidifier capable of separating and discharging cold air and warm air.
The disclosed dehumidifier includes a housing having an air intake portion, a first air discharge portion, and a second air discharge portion; A condenser provided inside the housing; An evaporator provided inside the housing; A suction fan provided inside the housing for sucking the air having passed through the condenser to one side and discharging the air to the second air discharger and sucking the air having passed through the evaporator to the other side; And a second flow path through which the air having passed through the evaporator is discharged to the first air discharging portion and the air having passed through the evaporator is discharged to the second air discharging portion, And a flow path switching member for switching the flow path.
According to such a dehumidifier, it is possible to separate the cold air and the warm air and blow air according to the environment and conditions in which the product is used.

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 capable of separating and discharging cold air and warm air.

Generally, a dehumidifier of a refrigeration cycle type including an evaporator and a condenser exchanges heat with the condenser through the condenser while air passing through the evaporator discharges the air at a temperature about 5 ° C higher than the normal temperature.

Therefore, there is a problem that the room temperature is increased when the dehumidifier is driven.

As described above, a dehumidifier having a structure in which air passes through an evaporator and then passes through a condenser is disclosed in Korean Patent Laid-Open Publication No. 2013-0003432.

It is an object of the present invention to provide a dehumidifier capable of separating and discharging cold air and hot air as necessary as one aspect of the present invention.

According to an aspect of the present invention, there is provided an air conditioner comprising: a housing having an air inlet, a first air outlet, and a second air outlet; A condenser provided inside the housing; An evaporator provided inside the housing; A suction fan provided inside the housing for sucking the air having passed through the condenser to one side and discharging the air to the second air discharger and sucking the air having passed through the evaporator to the other side; And a second flow path through which the air having passed through the evaporator is discharged to the first air discharging portion and the air having passed through the evaporator is discharged to the second air discharging portion, And a flow path switching member for switching the flow path.

In one embodiment, the flow path switching member constitutes the first flow path by opening the first air discharge portion, and constitutes the second flow path by closing the first air discharge portion.

Further, in one embodiment, the both suction fans include a first centrifugal fan disposed at one side; A second centrifugal fan disposed on the other side and rotating integrally with the first centrifugal fan; And a rotating plate for separating the first centrifugal fan and the second centrifugal fan from each other.

Further, in one embodiment, the double suction fan may be housed in the scroll casing, and the scroll casing may guide the air discharged from the double suction fan to the first air discharge unit and the second air discharge unit.

In one embodiment, the scroll casing includes a separation membrane formed along the peripheries of the first centrifugal fan and the second centrifugal fan so that air discharged from each of the first centrifugal fan and the second centrifugal fan is separated from each other can do.

In one embodiment, the scroll casing is separated from each other by the separation membrane, and the first discharge opening through which the air blown by the first centrifugal fan is discharged and the air blown by the second centrifugal fan are discharged And a second discharge opening may be provided.

In one embodiment, the scroll casing may include a guide duct portion formed on an outer side of the both suction fans to guide the air having passed through the evaporator to the second centrifugal fan.

In one embodiment, the scroll casing may include a guide vane that guides air flowing to the guide duct portion toward the center of the second centrifugal fan.

Also, in one embodiment, the housing may be provided with a partitioning portion for guiding air passing through the evaporator to the guide duct portion.

In one embodiment, the flow path switching member is connected to an end of the separation membrane that separates the first discharge opening and the second discharge opening when the first air discharge unit is opened, and the first discharge opening and the second discharge opening The openings can be configured to separate from each other.

Further, in one embodiment, the flow path switching member may have a dew condensation preventing pad on its inner surface.

Further, in one embodiment, the second air discharging portion may be provided with a wind direction adjusting member.

Also, in one embodiment, the first air discharging portion may be provided on the front surface of the housing, and the air suction portion and the second air discharging portion may be provided on the rear surface of the housing.

Further, in one embodiment, the condenser and the evaporator may be vertically disposed on the air suction unit side.

According to the embodiment of the present invention having such a configuration, it is possible to separate cold air and hot air according to the environment and conditions in which the product is used and to blow air.

1 is a front perspective view of a dehumidifier according to an embodiment of the present invention.
2 is a rear perspective view of the dehumidifier shown in Fig.
3 is a front perspective view showing the internal structure of the dehumidifier shown in Fig. 1 with the housing removed. Fig.
FIG. 4 is a rear perspective view showing the internal structure of the dehumidifier shown in FIG. 1 with the housing removed. FIG.
FIG. 5 is a cross-sectional perspective view of the flow path switching member of the dehumidifier shown in FIG. 1 in a state in which the first air discharging portion is closed;
Fig. 6 is a side cross-sectional view of the flow path switching member of the dehumidifier shown in Fig. 1 in a state in which the first air discharging portion is closed;
FIG. 7 is a cross-sectional perspective view of the air passage switching member of the dehumidifier shown in FIG. 1, with the first air discharging portion opened.
8 is a side cross-sectional view of the air passage switching member of the dehumidifier shown in Fig. 1 in a state in which the first air discharging portion is opened.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. Furthermore, the singular forms "a", "an," and "the" include plural referents unless the context clearly dictates otherwise.

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

1 to 8, a dehumidifier according to an embodiment of the present invention will be described.

1 to 8, a dehumidifier 100 according to an embodiment of the present invention includes a housing 110, a condenser 120, an evaporator 130, both suction fans 140 and 150, A flow dividing unit 170, a flow path switching member 180, and a wind direction adjusting member 190.

The housing 110 constitutes an outer appearance of the dehumidifier 100 according to an embodiment of the present invention and includes an inner space in which a condenser 120, an evaporator 130 and a scroll casing 160 to be described later can be installed can do.

The housing 110 has an air intake part 114 through which external air can be sucked into the housing 110 by driving both suction fans 140 and 150 to be described later, The first air discharging portion 112 and the second air discharging portion 117 may be provided.

1 to 8, the first air discharging part 112 may be provided on the rear surface of the housing 110, and the first air discharging part 112 may be provided on the rear surface of the housing 110, And the second air discharging part 117 may be provided on one side of the air suction part 114 from the rear surface of the housing 110. However, the present invention is not limited thereto.

3 and 4, the second air discharging portion 117 includes a discharge duct portion 116 for guiding the air inside the housing 110 to the second air discharging portion 117, May be provided.

In addition, a wind direction adjusting member 190 capable of adjusting the wind direction of the air discharged from the second air discharging portion 117 may be provided at the outlet side of the discharge duct portion 116.

In addition, the condenser 120 is provided inside the housing 110 and may be configured to allow a part of the air sucked into the housing 110 to pass therethrough.

The evaporator 130 may be disposed inside the housing 110 so that the remaining portion of the air sucked into the housing 110 passes through the evaporator 130.

In one embodiment, the condenser 120 and the evaporator 130 may be disposed within the housing 110, as shown in FIGS. 1 to 8, but are not limited thereto.

Further, in one embodiment, the condenser 120 and the evaporator 130 may be arranged vertically. That is, the evaporator 130 may be disposed below the condenser 120.

The air sucked into the air suction unit 114 can pass through neither the condenser 120 nor the evaporator 130 without passing through the condenser 120 and the evaporator 130.

That is, a part of the air sucked into the air suction part 114 can be discharged after passing through the condenser 120, and a part of the air can be discharged after passing through the evaporator 130.

The both suction fans 140 and 150 may be a centrifugal blower fan provided inside the housing 110 and capable of sucking air into both sides and discharging the same in a circumferential direction.

The two suction fans 140 and 150 can suck the air having passed through the condenser 120 to one side and discharge the air to the second air discharger 117.

The both suction fans 140 and 150 can suck the air having passed through the evaporator 130 to the other side and selectively discharge the air to either the first air discharging unit 112 or the second air discharging unit 117 .

In one embodiment, both suction fans 140 and 150 include a first centrifugal fan 150 disposed on one side, a second centrifugal fan 140 disposed on the other side, and a first centrifugal fan 150, And a rotating plate 145 separating the fans 140 from each other.

Here, the first centrifugal fan 150 and the second centrifugal fan 140 are provided on one surface and the other surface of the rotating plate 145 and can rotate integrally with each other.

The separation of the first centrifugal fan 150 and the second centrifugal fan 140 by the rotation plate 145 prevents the intake air from joining into the first centrifugal fan 150 and the second centrifugal fan 140 It means to separate.

In this configuration, the first centrifugal fan 150 can suck air passing through the condenser 120, and the second centrifugal fan 140 can suck air that has passed through the evaporator 130.

The driving motor 155 may be provided to drive the both suction fans 140 and 150 as described above. The driving motor 155 may include a rotary plate 145 as shown in FIGS. 5 to 8 And may be installed to rotate.

The scroll casing includes two suction fans 140 and 150. The air discharged from the suction fans 140 and 150 is supplied to the first air discharger 112 and the second air discharger 117).

The scroll casing 160 is configured to surround the peripheries of the first centrifugal fan 150 and the second centrifugal fan 140 so that the first centrifugal fan 150 and the second centrifugal fan 140 Can be guided to the first air discharging portion 112 and the second air discharging portion 117 side.

The scroll casing 160 includes a first suction opening 164 through which air is sucked by the first centrifugal fan 150 and a second suction opening 164 through which the air is sucked by the second centrifugal fan 140, And may include a suction opening 161.

The scroll casing 160 may include a first centrifugal fan 150 and a second centrifugal fan 140 so that the air discharged from the first centrifugal fan 150 and the second centrifugal fan 140 are separated from each other, And a separation membrane 165 formed along the periphery of the centrifugal fan 140.

5 to 6, the separation membrane 165 includes a first centrifugal fan 150 and a second centrifugal fan 140 at the boundary between the first centrifugal fan 150 and the second centrifugal fan 140, In the form of an annular plate extending radially along the periphery of the annular plate.

In one embodiment, the scroll casing 160 includes a first discharge opening 163 through which air blown by the first centrifugal fan 150 is discharged, and air blown by the second centrifugal fan 140, The second discharge opening 162 may be provided.

The first discharge opening 163 and the second discharge opening 162 may be formed in the same direction in the scroll casing 160 as shown in Figs. 5 to 6, Respectively.

However, the present invention is not limited thereto, and the first discharge opening 163 and the second discharge opening 162 may be formed in different directions in the scroll casing 160.

In this configuration, when the first centrifugal fan 150 and the second centrifugal fan 140 are driven, the air sucked into the first centrifugal fan 150 through the first suction opening 164 of the scroll casing 160 The air sucked into the second centrifugal fan 140 through the second suction opening 161 can be discharged to the second discharge opening 162. [

At this time, the air sucked into the first centrifugal fan (150) and the air sucked into the second centrifugal fan (140) do not join together through the separation membrane (165).

The scroll casing 160 may include guide duct portions 167 formed at the outer sides of the two suction fans 140 and 150 to guide the air having passed through the evaporator 130 to the second centrifugal fan 140. [ ).

The guide duct portion 167 has a duct-shaped structure formed at one side of the scroll casing 160. The guide duct portion 167 has a structure in which the air passing through the evaporator 130 is not sucked into the first centrifugal fan 150, So that air can be guided to be sucked into the second centrifugal fan 140.

5 to 8, the guide duct portion 167 may be provided at the lower end of the scroll casing 160 in correspondence with the structure in which the evaporator 130 is disposed below the condenser 120 But is not limited thereto.

In one embodiment, the scroll casing 160 may include a guide vane 169 for guiding air flowing into the guide duct portion 167 toward the center of the second centrifugal fan 140.

The guide vane 169 may facilitate the flow of air flowing from the guide duct portion 167 to the second centrifugal fan 140.

6 and 8, the air flowing into the guide duct portion 167 strikes against the inner wall of the housing 110 and vortexes may not flow smoothly into the second centrifugal fan 140 The guide vanes 169 protrude from the scroll casing 160 toward the inner wall of the housing 110 and extend in the direction of the center of the second centrifugal fan 140 to prevent the generation of vortices, 140).

The scroll casing 160 may have a second suction opening 161 and an outer guide portion 168 formed to surround the outer periphery of the guide duct portion 167. In this embodiment,

The outer guide part 168 functions to trap the air so that the air from the guide duct part 167 can be sucked by the second centrifugal fan 140 without being diffused to other parts of the housing 110 .

The partitioning part 170 is provided in the housing 110 to guide the air having passed through the evaporator 130 to the guide duct part 167.

In one embodiment, the partition 170 may comprise an inclined plate extending from the top of the evaporator 130 to the guide duct portion 167 of the scroll casing 160.

On the other hand, the flow path switching member 180 is provided to open and close the first air discharge portion 112, and can switch the first flow path and the second flow path.

Here, the first flow path is a path through which the air having passed through the evaporator 130 is discharged to the first air discharging portion 112, that is, the air blown by the second centrifugal fan 140 as shown in FIG. 8 And the first air discharging unit 112. [0034] FIG.

6, the air that is blown by the second centrifugal fan 140, as shown in FIG. 6, flows through the second air discharging portion 117, And the second air discharging portion 117, respectively.

In this way, in one embodiment, the flow path switching member 180 can constitute the first flow path by opening the first air discharging portion 112, and closes the first air discharging portion 112, .

In one embodiment, the flow path switching member 180 may have a semi-cylindrical shape as shown in FIGS. 1 to 8, and may have a rotation axis coupled to both ends of the first air discharge portion 112 .

The flow path switching member 180 may be manually rotated by a user or may be automatically rotated by connecting a motor to the rotating shaft.

The protruding portion 182 may be provided on the outer surface of the flow path switching member 180 so as to restrict the rotation range of the flow path switching member 180. The protruding portion 182 may protrude from the flow path switching member 180, The flow path switching member 180 may be a handle capable of grasping by the user and rotating the flow path switching member 180 when the flow path switching member 180 is configured to be manually rotated.

8, when the first air discharging portion 112 is opened, the flow path switching member 180 is moved in the direction in which the separation membrane 165 separating the first discharge opening 163 and the second discharge opening 162 And may be configured to separate the first discharge opening 163 and the second discharge opening 162 from each other.

5, a branch opening A may be formed between the end of the separation membrane 165 and the inner wall of the upper side of the housing 110 to branch the first flow path and the second flow path.

Here, when the first air discharging portion 112 is opened, the flow path switching member 180 can close the branch opening A as shown in FIG. 8, and the first air discharging portion 112 can be closed The branch opening A can be opened as shown in Fig.

And, in one embodiment, the flow path switching member 180 may have a dew condensation preventing pad 184 on the inner side.

The condensation preventing pad 184 can prevent condensation water from being generated on the inner surface of the flow path switching member 180 due to the temperature difference between the cold air cooled through the evaporator 130 and the outside air.

7 and 8, when the flow path switching member 180 is opened, cold air passing through the evaporator 130 is discharged to the first air discharge unit 112 And the hot air passing through the condenser 120 can be discharged to the second air discharging portion 117 on the rear surface of the housing 110. [

At this time, the air discharged to the second air discharging part 117 can be discharged to a space desired by the user through a separate discharge duct.

5 and 6, when the flow path switching member 180 is closed, the dehumidifier 100 according to the embodiment of the present invention passes through the refrigerant passing through the evaporator 130 and the refrigerant passing through the condenser 120 One hot air can be combined and the fine air can be discharged to the second air discharging portion 117. [

The dehumidifier 100 according to an embodiment of the present invention is advantageous in that a user can use cold air and hot air separately.

While the present invention has been particularly shown and described with reference to particular embodiments thereof, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art without departing from the spirit and scope of the invention as defined by the following claims I would like to make it clear.

100: dehumidifier 110: housing
112: first air discharging portion 114: air suction portion
116: discharge duct part 117: second air discharge part
120: condenser 130: evaporator
140, 150: Suction suction fan 140: Second centrifugal fan
145: spindle 150: first centrifugal fan
155: drive motor 160: scroll casing
161: second suction opening 162: second discharge opening
163: first discharge opening 164: first suction opening
165: separation membrane 167: guide duct part
168: outer guide portion 169: guide wing
170: partition part 180: flow path switching member
182: protrusion 184: condensation prevention pad
190: Wind direction control member A:

Claims (14)

A housing having an air intake part, a first air discharge part and a second air discharge part;
A condenser provided inside the housing;
An evaporator provided inside the housing;
A suction fan provided inside the housing for sucking the air having passed through the condenser to one side and discharging the air to the second air discharger and sucking the air having passed through the evaporator to the other side; And
A first flow path through which the air having passed through the evaporator is discharged to the first air discharge portion and a second flow path through which air passing through the evaporator is discharged to the second air discharge portion, ;
.
The method according to claim 1,
Wherein said flow path switching member constitutes said first flow path by opening said first air discharge portion and closes said first air discharge portion to constitute said second flow path.
The method according to claim 1,
Wherein the suction fan
A first centrifugal fan disposed at one side;
A second centrifugal fan disposed on the other side and rotating integrally with the first centrifugal fan; And
A rotary plate for separating the first centrifugal fan and the second centrifugal fan from each other;
Wherein the dehumidifier is a dehumidifier.
The method of claim 3,
Further comprising a scroll casing for accommodating the both suction fans therein and guiding the air discharged from the both suction fans to the first air discharge unit and the second air discharge unit.
5. The method of claim 4,
In the scroll casing,
And a separation membrane formed along the peripheries of the first centrifugal fan and the second centrifugal fan such that air discharged from each of the first centrifugal fan and the second centrifugal fan is separated from each other.
6. The method of claim 5,
Wherein the scroll casing is separated from each other by the separation membrane and has a first discharge opening through which air blown by the first centrifugal fan is discharged and a second discharge opening through which air blown by the second centrifugal fan is discharged Wherein the dehumidifier is a dehumidifier.
5. The method of claim 4,
Wherein the scroll casing includes a guide duct portion formed on an outer side of the both suction fans so as to guide the air having passed through the evaporator to the second centrifugal fan.
8. The method of claim 7,
Wherein the scroll casing includes guide vanes for guiding air flowing into the guide duct portion toward the center of the second centrifugal fan.
8. The method of claim 7,
Wherein the housing is provided with a partitioning portion for guiding air passing through the evaporator to the guide duct portion.
The method according to claim 6,
And the flow path switching member is connected to an end of the separation membrane that separates the first discharge opening and the second discharge opening to separate the first discharge opening and the second discharge opening from each other when the first air discharge portion is opened Wherein the dehumidifier is a dehumidifier.
The method according to claim 1,
Wherein the flow path switching member includes a condensation preventing pad on an inner surface thereof.
The method according to claim 1,
Wherein the second air discharging portion is provided with a wind direction adjusting member.
The method according to claim 1,
Wherein the first air discharging portion is provided on a front surface of the housing, and the air sucking portion and the second air discharging portion are provided on a rear surface of the housing.
The method according to claim 1,
Wherein the condenser and the evaporator are vertically disposed on the side of the air intake part.

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