KR102014233B1 - Dehumidifier for dress-room - Google Patents

Abstract

The contents disclosed herein may be provided with a dehumidifying drying air optimized for the management of the clothes placed in the dressing room as the room humidity is automatically adjusted to the mounted clothes and mold fungi contained in the humid air and various harmful bacteria are removed. A dehumidifier for a dressing room.
According to an embodiment of the present disclosure, the indoor air sucked from the intake port on the surface of the heat exchanger is formed on the ceiling of the dressing room and the lower surface is provided with the inlet port and the discharge port, and provided in the body and forming a refrigeration cycle A dehumidifying drying unit condensing moisture contained therein to form a dehumidifying dry air, and installed inside the main body at the rear of the dehumidifying drying unit, and indoor air in the dressing room is sucked through the intake port to flow through the dehumidifying drying unit. And an intake fan for generating a suction force to be discharged to the dressing room through the discharge port, and to surround the intake port and the heat exchanger of the dehumidification drying unit in the main body, and the indoor air introduced into the intake port of the dehumidification drying unit. A barrier to guide the heat exchanger uniformly and installed in the main body And a water pump for forcibly transferring the dehumidified condensed water through the dehumidifying drying unit to a bathroom pipe, and a dehumidifier for a dressing room including a controller installed at the main body and controlling a operation of the dehumidifying drying unit, the intake fan, and the water pump. It may include.

Description

Dehumidifier for Dressing Room {DEHUMIDIFIER FOR DRESS-ROOM}

The disclosure disclosed herein relates to a dehumidifier installed indoors to remove indoor moisture.

In general, a dehumidifier is a kind of device that lowers indoor humidity by sucking indoor air to remove moisture contained in the air through heat exchange and discharging the moisture-removed air back into the room.

The dehumidifier removes moisture from the indoor air by sucking the indoor air and passing a heat exchanger consisting of a condenser and an evaporator to exchange heat with the refrigerant flowing through the condenser and the evaporator.

Such dehumidifiers have been mainly used for industrial purposes as part of air conditioning for constant temperature and humidity, but recently, the demand for household dehumidifiers is increasing due to expansion of residential space and environmental changes. In addition, as the use of the dehumidifier is suggested as the best way to solve the condensation problem in the interior of the apartment, the demand for home dehumidifier is increasing more and more.

As an example of such a household dehumidifier, Korean Patent Publication No. 10-2015-0075749 (published on July 6, 2015) discloses a case including an inlet and an outlet, and cooling the air introduced into the case through the inlet. A dehumidifying part for reducing the humidity of the air by condensing water vapor with condensed water, a blower for discharging the air having reduced humidity by the dehumidifying part through the discharge port, and a lower part of the dehumidifying part, A dehumidifier is disclosed that includes a lower tank capable of recovering the condensed water falling from the upper part, and an upper tank disposed above the lower tank and capable of receiving the condensed water recovered in the lower tank by a pump. .

In addition, the Republic of Korea Patent Publication No. 10-2015-0102367 (2015.09.07.) Discloses a body having an inlet and discharge port, a heat exchanger through which a refrigerant circulating heat exchanged with the air introduced into the inlet, the inlet And a bucket assembly for storing condensed water generated during a heat exchange process between the air introduced into the coolant, wherein the bucket assembly has a first storage space in which the condensed water is stored, and a top surface of which is provided with an open upper surface. A second bucket positioned above the first bucket, the second reservoir including a second storage space in which the condensed water is stored, and a moving duct for moving the condensed water to the first bucket; and the second bucket according to the level of the second storage space. Disclosed is a dehumidifier comprising a condensate guide unit having a control lever for selectively guiding condensate into a storage space or said moving duct. The.

The above-mentioned dehumidifier was developed for the purpose of simple dehumidification and drying for the purpose of lowering the humidity of the indoor air to the desired humidity. The dehumidifier automatically adjusts the indoor humidity according to the clothes mounted or mold fungus or various substances contained in the humid air. There was a problem that the function to remove the harmful bacteria is not provided.

Patent Document 1: Republic of Korea Patent Publication No. 10-2015-0075749 (published Jul. 6, 2015) Patent Document 2: Republic of Korea Patent Publication No. 10-2015-0102367 (2015.09.07. Publication)

The dehumidifier for the dressing room, which automatically adjusts the indoor humidity according to the mounted clothes and removes various harmful bacteria, and also provides dehumidifying drying air optimized for the management of the clothes mounted in the dressing room by removing various harmful bacteria. In providing.

In addition, the illumination light is provided to the dressing room, but to provide a dehumidifier for the dressing room that can be provided with a low-light illumination light to minimize damage to the clothing by the light.

According to one embodiment, it is included in the indoor air sucked from the intake port on the surface of the heat exchanger provided in the main body is provided on the ceiling of the dressing room and the lower surface is provided with the inlet and outlet, and formed in the body and forming a refrigeration cycle A dehumidifying drying unit condensing moisture to form a dehumidifying dry air, and installed in the main body at the rear of the dehumidifying drying unit, and indoor air in the dressing room is sucked through the intake port to flow through the dehumidifying drying unit, and An intake fan for generating a suction force to be discharged to the dressing room through a discharge port, and installed inside the main body to surround the heat exchanger of the intake port and the dehumidification drying unit, and the indoor air introduced into the intake port is uniform to the heat exchanger of the dehumidification drying unit. A barrier for guiding it to be provided in a convenient manner; And a water pump for forcibly conveying the condensed water to the dehumidifying pipe bathroom through the tank units can be installed on the main body and a controller for controlling the operation of the dehumidification drying unit, the intake fan and the water pump.

The apparatus may further include an ionizer installed between the dehumidifying drying unit and the intake fan in the main body and providing anion to the dehumidifying drying air flowing through the dehumidifying drying unit.

The apparatus may further include an illumination lamp installed at both sides of the lower surface of the main body and providing illumination light to the dressing room.

According to the disclosed contents, as the humidity provided for the clothes placed in the dressing room is maintained, the state of storage of the clothes is kept in the best state for a long time, and the fungi contained in the air also remove various harmful bacteria. Damage to clothing by bacteria can be prevented and cleanliness of indoor air can be improved.

In addition, the indoor illumination light is provided into the dressing room, and low-light illumination light may be provided, thereby minimizing clothing damage by the light.

Effects of the present invention are not limited to the above-mentioned effects, and other effects not mentioned will be clearly understood by those skilled in the art from the description of the claims.

1 is a state of use of the dehumidifier for a dressing room according to a preferred embodiment.
2 and 3 are bottom perspective views of the dehumidifier for a dressing room according to a preferred embodiment.
4 is a perspective view of a dehumidifier for a dressing room according to a preferred embodiment.
5 is an internal structure diagram of the dehumidifier for the dressing room shown in FIG.

Hereinafter, with reference to the accompanying drawings looks at the configuration, operation and effect of the dehumidifier for a dressing room according to a preferred embodiment. For reference, in the following drawings, each component is omitted or schematically illustrated for convenience and clarity, the size of each component does not reflect the actual size, and the same reference numerals throughout the specification refer to the same component. Reference numerals for the same components will be omitted in the individual drawings.

1 is a state diagram used in the dehumidifier for a dressing room according to a preferred embodiment.

As shown in FIG. 1, a dehumidifier 1 for a dressing room according to a preferred embodiment is installed on the ceiling of a dressing room, and discharges air after inhaling and drying the indoor air in the dressing room through the inlet 11. By discharging the dressing room again through), the humidity is adjusted to suit the clothes in the dressing room and the illumination light is selectively provided onto the dressing room.

2 and 3 are bottom perspective views of a dehumidifier for a dressing room according to a preferred embodiment, FIG. 4 is a perspective view of the dehumidifier for a dressing room according to a preferred embodiment, and FIG. 5 is an internal structure diagram of the dehumidifier for the dressing room shown in FIG. 4.

2 to 5, the dehumidifier 1 for a dressing room according to a preferred embodiment is installed on the ceiling of the dressing room, and the main body 10 having an inlet 11 and an outlet 13 provided on the lower surface thereof; The dehumidification drying unit 20, which forms a dehumidifying dry air by condensing moisture contained in the indoor air sucked from the inlet 11 on the surface of the heat exchanger provided in the main body 10 and forming a freezing cycle, and the main body ( 10) installed in the rear of the dehumidification drying unit 20 and the indoor air in the dressing room is sucked through the intake vent 11 to flow through the dehumidifying drying unit 20 and to be discharged to the dressing room through the discharge port 13. An intake fan 30 for generating a suction force and an indoor air introduced into the intake port 11 to surround the heat exchanger of the intake port 11 and the dehumidification drying unit 20 in the main body 10 and the dehumidification drying unit 20. To ensure uniform delivery to heat exchanger The air 40 and the water pump 50 installed in the main body 10 and forcibly transferring the condensed water dehumidified through the dehumidification drying unit 20 to a bathroom pipe (not shown), and installed in the main body 10 and dehumidified And a controller 60 that controls the operation of the drying unit 20, the intake fan 30, and the water pump 50.

Here, the main body 10 corresponds to the housing of the dehumidifier 1 for a dressing room installed in the ceiling of a dressing room, for example.

The lower surface of the main body 10 is provided with an intake port 11 for forced suction of indoor air in the dressing room, while the dehumidifying and drying process of the dehumidifying and drying process is discharged back to the dressing room while flowing through the dehumidifying drying unit 20 therein. The discharge port 13 is provided. An intake grill is attached to the inlet 11 and a discharge grill is attached to the outlet 13.

In addition, the humidity sensor 15 is installed on the lower surface of the main body 10. The humidity sensor 15 detects the humidity in the dressing room and provides the controller 60 to be described later, so that the humidity in the dressing room can be adjusted to the set humidity. The humidity sensor 15 may be formed of at least one of a known ceramic humidity sensor, a polymer humidity sensor, an electrolyte humidity sensor, an ultrasonic hygrometer, and a thermal conductivity humidity sensor.

In addition, the main body 10 is covered with a rectangular box shape by the upper cover 17, as shown in Figure 4, the upper cover 17 is preferably formed with a heat radiation hole (17a). The heat radiating hole 17a is preferably positioned above the compressor 21 of the dehumidifying drying unit 20 having the highest amount of heat.

The above-described main body 10 is provided with a dehumidifying drying unit 20, which dehumidifying and drying unit 20 flows the air to the heat exchanger (corresponding to the evaporator 27) constituting the freezing cycle included in the air. The condensed moisture is condensed on the tube surface of the heat exchanger (evaporator 27) to form a dehumidifying dry air.

As shown in FIG. 5, the dehumidifying drying unit 20 condenses the refrigerant through heat exchange with a compressor 21 for compressing the refrigerant and indoor air connected to the compressor 21 and sucked from the intake port 11. A condenser 23 for heating and drying the indoor air sucked from the inlet 11 and an expansion valve 25 connected to the condenser 23 and expanding the refrigerant condensed by the condenser 23; The expansion valve 25 and the compressor 21 are connected to each other to evaporate the refrigerant through heat exchange with the indoor air sucked from the inlet 11, and condensate moisture contained in the indoor air sucked from the inlet 11. It includes an evaporator 27.

The configuration of the compressor 21, the condenser 23, the expansion valve 25 and the evaporator 27 to form a refrigeration cycle consisting of compression, condensation, expansion, evaporation in sequence is already known bar redundant description will be omitted. . However, only the operational relationship related to dehumidification and drying of indoor air sucked from the inlet 11 will be described below.

According to the freezing cycle, the surface temperature of the evaporator 27 drops. When indoor air sucked into the main body 10 passes through the evaporator 27, moisture contained in the indoor air is condensed by the temperature difference with the surface of the evaporator 27, and adheres to the tube surface of the evaporator 27. The indoor air flowing through 27) is discharged to the outside, that is, the dressing room again through the discharge unit 13 in the form of a dehumidifying dry air having low humidity, thereby lowering the humidity in the dressing room, thereby producing a pleasant environment.

An intake fan 30 is installed at the rear of the dehumidifying and drying unit 20 in the body 10 described above. The intake fan 30 is a component that generates suction force (negative pressure) so that indoor air in the dressing room is sucked through the intake port 11 to flow through the dehumidifying drying unit 20 and then discharged to the dressing room through the discharge port 13. .

In the body 10 described above, a barrier 40 is provided to surround the heat exchanger of the intake port 11 and the dehumidification drying unit 20. The barrier 40 is a component that guides the indoor air introduced into the inlet 11 to be uniformly provided to the heat exchanger, in particular the evaporator 27 of the dehumidification drying unit 20.

The barrier 40 guides naturally the direction of the indoor air introduced into the inlet 11 to be naturally switched to the heat exchanger side of the dehumidification drying unit 20, and at the same time, the heat exchanger, in particular the evaporator 27 of the dehumidification drying unit 20. It has a form of a case to form a space of the cross-sectional area corresponding to the heat transfer area of the).

As shown in FIG. 5, the water pump 50 is installed in the aforementioned main body 10. The water pump 50 is a constituent member forcibly transferring the condensed water dehumidified through the dehumidifying and drying unit 20 to a bathroom pipe (not shown) or a previously installed drain pipe.

The water pump 50 is provided below the evaporator 27 of the dehumidifying and drying unit 20 to connect a condensate tank (not shown) and a bathroom piping (not shown) to receive condensate falling from the evaporator 27 to the bottom. It is installed on the drainage pipe, it is formed of a conventional fluid pump.

The controller 60 is installed in the main body 10 described above. The controller 60 controls the operation of the dehumidification drying unit 20, the intake fan 30, and the water pump 50 based on, for example, a control signal received from a remote controller and a sensor signal of the humidity sensor 15. to be.

The controller 60 includes a remote control signal receiver 61 exposed to the lower surface of the main body 10 and remotely receiving a control signal from the remote controller.

In addition, as shown in FIG. 5, an ionizer 70 may be installed between the dehumidifying drying unit 20 and the intake fan 30 in the main body 10.

The ionizer 70 removes the fungus or various harmful bacteria included in the indoor air by providing a large amount of negative ions to the dehumidifying drying air flowing through the dehumidifying drying unit 20, and provides a more comfortable environment. It is a constituent member that can be. Operation of ionizer 70 is controlled by controller 60.

The configuration of the ionizer 70 is already known, and details thereof will be omitted here for the sake of simplicity.

As shown in FIGS. 2 and 3, lighting lamps 80 and 80 ′ are installed at both sides of the lower surface of the main body 10 described above. The lighting lamps 80 and 80 'are constituent members that provide illumination light to the dressing room. In particular, the illumination lamps 80 and 80' provide low-light illumination light such that clothing damage is minimized by the light.

The illumination lamps 80 and 80 'may be formed of known LED lamps (corresponding to reference numeral 80) as shown in FIG. 2, and known halogen lamps (shown in FIG. 3). Reference numeral 80 '), and may be formed of one of all known lighting lamps such as fluorescent lamps, although not shown.

The lighting or flashing of the lighting lamps 80 and 80 'is controlled by the controller 60.

The lighting lamps 80 and 80 'are preferably finished by a lighting cover 81 such as a light diffusion cover, and an upper portion thereof has a socket 83 for power connection of the lighting lamps 80 and 80'. , 83 'are provided to correspond to the types of lighting lamps 80 and 80'.

The dehumidifier 1 for a dressing room according to the preferred embodiment is installed on the ceiling of a dressing room where clothes are mounted, and the desiccant drying unit 20 based on a refrigeration cycle by sucking air containing moisture and fungi and various harmful bacteria. By dehumidifying and drying at the same time, sterilization through anion by the ionizer (7) and discharging it into the dressing room, the humidity in the dressing room can be adjusted to suit the storage of clothes, and fungi or various harmful substances contained in the air. It can solve clothing damage or respiratory problems that can be caused by bacteria, and can solve wall condensation and mold occurrence that can easily occur in a confined space.

In addition, the dehumidifier 1 for a dressing room according to the preferred embodiment of the present invention may be utilized as a luminaire that emits indoor illumination light to the dressing room as the lighting lamps 80 and 80 ′ are installed below the main body 10. As the light of the wavelength is discharged, clothing damage due to light as well as soft lighting can be minimized.

Although the preferred embodiments of the present invention have been described with reference to the accompanying drawings, the embodiments described in the specification and the configuration shown in the drawings are only the most preferred embodiments of the present invention and represent all of the technical idea of the present invention. It is to be understood that there may be various equivalents and variations in place of them at the time of the present application. Therefore, the above-described embodiments are to be understood as illustrative and not restrictive in all respects, and the scope of the present invention is indicated by the appended claims rather than the detailed description, and the meaning and scope of the claims and All changes or modifications derived from the equivalent concept should be interpreted as being included in the scope of the present invention.

1: dehumidifier for dressing room
10: main body
11: intake vent
13 discharge port
15: humidity sensor
17: top cover
17a: heat sink
20: dehumidification drying unit
21: compressor
23 condenser
25: expansion valve
27: evaporator
30: intake fan
40: barrier
50: water pump
60: controller
61: remote control signal receiver
70: ionizer
80, 80 ': Lighting lamp
81: light cover
83, 83 ': socket part

Claims (5)

A main body installed on the ceiling of the dressing room and having an inlet and an outlet;
A dehumidification drying unit configured to form dehumidifying dry air by condensing moisture contained in indoor air sucked from the intake port on a surface of a heat exchanger provided in the main body and forming a freezing cycle;
An intake fan installed at the rear of the dehumidifying drying unit in the main body and generating suction force such that indoor air in the dressing room is sucked through the intake vent to flow through the dehumidifying drying unit and discharged to the dressing room through the discharge port;
A barrier installed in the body in a case shape surrounding the intake port and the heat exchanger of the dehumidification drying unit and guiding the indoor air introduced into the intake port to be uniformly provided to the heat exchanger of the dehumidification drying unit;
A water pump installed in the main body and forcibly transferring condensed water dehumidified through the dehumidification drying unit to a bathroom pipe;
A controller installed at the main body and controlling the operation of the dehumidification drying unit, the intake fan, and the water pump;
An ionizer installed between the dehumidifying drying unit and the intake fan in the main body and controlled by the controller and providing negative ions to the dehumidifying drying air flowing through the dehumidifying drying unit;
It is installed on both sides of the lower surface of the main body and controlled by the controller and includes an illumination lamp for providing illumination light to the dressing room,
The illumination lamp is formed of an LED (LED) lamp that provides a low-light illumination light to minimize damage to clothing by light,
On the lower surface of the main body is installed a humidity sensor for sensing the humidity in the dressing room to provide to the controller,
The dehumidifying and drying unit includes a compressor for compressing a refrigerant, a condenser connected to the compressor and condensing the refrigerant through heat exchange with indoor air sucked from the intake port, and simultaneously heating and drying the indoor air sucked from the intake port; An expansion valve connected to a condenser and expanding the refrigerant condensed by the condenser, and connected to the expansion valve and the compressor to evaporate the refrigerant through heat exchange with indoor air sucked from the intake port, And an evaporator for condensing moisture contained in indoor air, wherein the heat exchanger of the dehumidification drying unit is the evaporator.
The barrier has a case shape in which a space having a cross-sectional area corresponding to the heat transfer area of the evaporator is formed so that indoor air introduced into the intake port is uniformly provided to the heat exchanger side.
The water pump is provided in the lower portion of the evaporator is installed on the condensate tank for receiving condensate water falling from the evaporator to the bottom and the drain pipe for connecting the bathroom piping to each other,
The main body is covered by an upper cover of a rectangular box shape, the upper cover is formed with a heat dissipation hole is located on the top of the compressor,
The controller is operated by a control signal of the remote control, the controller is exposed to the lower surface of the main body and includes a remote control signal receiver for remotely receiving a control signal from the remote control,
The lighting lamp is a dehumidifier for a dressing room, characterized in that the finish by the lighting cover. delete delete delete delete

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