WO2013065925A1 - Dehumidifier having a drying compartment for garments - Google Patents

Abstract

The present invention relates to a dehumidifier having a drying compartment for garments. The technical aim of the present invention is to provide a dehumidifying unit and a drying unit in one apparatus in order to promote dehumidification and further use hot air generated by the heat exchanger during dehumidification to dry garments (underwear, towels, shoes, and the like). The dehumidifier has a separate filter member, which is easy to replace and clean, and which is detachably coupled to the front surface thereof so as to make maintenance convenient for a user. A two-way pipe-shaped water passage formed at the bottom of the drying compartment is capable of making a selection for condensed liquid processing from between tank holding-type and continuous discharge-type processing according to the amount of condensed liquid stored. A primary and secondary water level adjusting sensor formed inside a water tank accurately determine the amount of condensed liquid that is stored, and can prevent accidents from occurring. In particular, an anion generator, a lamp for generating ultraviolet rays, and/or an LED device for generating far infrared rays is further installed on the drying unit formed on one side of the dehumidifying unit so as to promote the sterilization, disinfection, deodorization, and cleaning of a wide variety of garments that are hung or placed thereon.

Description

Dehumidifier with drying chamber for coatings

The present invention is to provide a dehumidifying unit and a drying unit as a device to facilitate the dehumidification and to dry the coatings (underwear, towels, shoes, etc.) by using hot air generated during dehumidification by heat exchange. The dehumidifying unit is detachably attached to a separate filter member that is easy to replace and clean, so that the user can easily manage the product afterwards, and the 2WAY-pipe type channel formed in the lower part of the dehumidifying chamber is stored in accordance with the amount of water stored in the condensate. Condensate treatment can be selected by formula and continuous drainage, as well as the 1st and 2nd level control sensors formed in the reservoir tank to accurately identify the state of the condensate and prevent accidents, especially on one side of the dehumidifying unit. The drying unit includes one or more of anion generator, ultraviolet ray lamp device, and LED device for far infrared ray generation. It relates to a dehumidifier having a drying chamber for pibokryu characterized in that to enable the device to be made more bactericidal, antibacterial, deodorizing, purification of mounting the laying or the various seating pibokryu.

The general dehumidifier is based on the dehumidification by supersaturating the humid air in the room in contact with the cold evaporator, this conventional dehumidifier is in the high dew point or high humidity region.

Thus, as shown in Figure 14, the prior art Korean Patent Application No. 10-2005-62384 (name: home dehumidification apparatus using a thermoelectric element) and the suction port 711 and the front surface of the outer portion 710 to implement a domestic dehumidifier The humidity sensor 712 and the control unit 713 are provided, the dry air outlet 714 and the hanger 715 and the control plate 716 is provided on the rear surface, the heat sink 721 and the thermoelectric element 722 therein And the thermoelectric element assembly 720 coupled to the cooling plate 723 in turn are spaced apart from the front surface by a predetermined distance, and the diaphragm 717 and the water collecting tank 718 are provided on the upper surface of the thermoelectric element assembly 720. It is a configuration.

These conventional dehumidifiers are merely provided with a function of keeping the indoor humid environment comfortably for the purpose of dehumidification, and cannot implement hybrid complex functions (for example, laundry drying, etc.) that have recently been revived in the well-being era. There is a problem that requires the consumer to release a functional dehumidifier.

The present invention is to solve the above-described problems, the technical gist of the dehumidifying unit and the drying unit is provided as a unit of integral or divided assembly type to achieve dehumidification and at the same time using hot air generated during dehumidification by heat exchange It is an object of the present invention to provide something that allows drying of clothing (underwear, towels, shoes, etc.).

Therefore, the dehumidifying part of the present invention is coupled to the detachable filter member which is easy to replace and clean on the front part to be detachably attached to the user for convenient after-care, and the 2-way-pipe type channel formed in the lower part of the dehumidification chamber of the condensate It is possible to select the condensate treatment by tank drainage and continuous drainage according to the low water supply, and the 1st and 2nd level control sensor formed in the water storage tank provides accurate understanding of the condensate storage condition to prevent safety accidents. Has its purpose.

In addition, the drying unit formed on one side of the dehumidifying unit of the present invention is sterilized, antibacterial, deodorization of various coatings placed or seated by any one or two or more of the anion generator, UV lamp device, LED device for far-infrared light generation Its purpose is to provide for the purpose of purifying.

In order to achieve the above object, the dehumidifier of the present invention has a dehumidification chamber 110 in which the evaporator 111 and the condenser 112 are arranged in an air flow order in the upper front of the enclosure, and the lower portion of the dehumidification chamber 110 is provided. The channel 120 is formed so that the condensate generated by the evaporator 111 is recruited, and the compressor 160 is formed at the lower portion of the channel 120 to circulate the refrigerant in the evaporator 111 and the condenser 112. In the rear of the dehumidification chamber 110, a circulation driving chamber 140 having a driving fan 143 is formed so that the dehumidified hot air passes through the air passage 141 and is exhausted to the transfer hole 142. A duct 150 having a wind direction control plate 152 is provided at an upper portion of the circulation drive room 140 so that hot air exhausted by the driving fan 143 and the transfer hole 142 is discharged through the discharge groove 151. Is formed, a communication hole 153 is formed on one side of the duct 150, the rear of the compressor 160 And the dehumidifying unit 100 is a low Susilo 130 having a water storage tank 131 so that the generated from dehumidifying the condensate water storage chamber through the channel of the channel 120 is formed; The connector 220 corresponding to the communication hole 153 of the duct is formed on one side of the dehumidifying unit 100 to supply the hot air transferred through the duct 150 to the interior space (G) of the drying chamber 210. Is formed, the drying chamber 210 has a plurality of hangers 231, a cradle 232, a seating table 233 in the interior space (G), the tray 230 that can be opened and closed is formed, the drying chamber ( 210 is a drying unit 200 in which a hot air circulation grill window 240 is formed so as to circulate with the dehumidifying unit 100 by exhausting internal hot air on one side of the front surface; It is made up.

At this time, the dehumidification chamber 110 is preferably a filter member 113 is installed to purify the contaminated air including fine dust in front.

In addition, it is preferable that the filter member 113 has a guide groove 114 corresponding to the outer circumferential shape of the filter member on one side of the dehumidification chamber so that the filter member 113 can be easily replaced and cleaned by a sliding method or an insertion type.

Thus, the channel 120 is formed to be bent and extended from the main channel 121 to extend the first and second channels 122 and 123 to collect the condensate dropped from the evaporator 111, the main channel 121 And the first and second channels 122 and 123 are formed such that the plan view forms a '-' channel toward the rear of the dehumidifying unit, and a longitudinal section of the channel 120 is formed in a '∪' shape. The channel 122 is formed with a rib 124 having a groove 125 so as to prevent continuous flow before the condensate drops into the water storage tank 131, and the second channel 123 is connected to a separate external hose. Preferably, the joint pipe 126 is formed.

In addition, it is preferable that the inclined plate 170 is provided below the evaporator 111 of the dehumidification chamber so as to quickly flow the condensate to the main water channel 121 of the water channel.

Thus, the water storage tank 131 is formed in a shape corresponding to the water storage chamber 130 and the male and female to enable detachable assembly, but a through hole 132 is formed at one end of the water storage tank 131 to recruit condensate from the water channel. It is preferably formed to be able to drain or clean after.

In addition, the water tank 131 is provided with a first level control sensor 133 as a proximity high capacity detection level control sensor on one side of the outer peripheral surface to detect the level of the condensate, the first level control sensor 133 is a reservoir The capacity value detected by detecting the dielectric constant generated from the water in the storage tank with a high capacity while sensing the water level of the water contained in the storage tank 131 in the form of a plate attached to one side of the outer circumferential surface of the tank 131. Thin-film conductor 133-1 for reading a circuit into a circuit, an insulating tape 133-2 for insulated contact with a shape corresponding to an outer circumferential surface of the thin-film conductor, and separation of the thin-film conductor and insulating tape Pressed from the outside to prevent the compression spring (133-3) to maintain a firm attachment state, and fixed to the outer wall of the holding tank fixed to the pressing spring That the supports (133-4) to lock consisting configured are preferred.

At this time, the water storage tank 131 is a buoyancy force of the bure 136 due to the rise of water when the water level exceeds one level on the inner circumference to stop the dehumidifier power to stop the dehumidification operation, thereby preventing safety accidents due to leakage accidents It is preferable that the secondary water level control sensor 137 to be further provided.

That is, the secondary level control device (bure) has an object to block the operation of the dehumidifier when the primary level sensor does not operate in a malfunction.

In addition, a transfer duct 250 corresponding to the duct 150 of the dehumidifying unit is formed at an upper end of the drying chamber 210 of the drying unit, and at least one forced driving fan 260 is formed at the bottom of the transfer duct 250 to dehumidify the chamber. It is preferable to allow the hot air generated from the 110 to be introduced into the drying chamber 210 quickly.

Accordingly, the heating coil unit 270 is formed at the lower portion of the forced driving fan 260 to auxiliary heating the hot air to be introduced into the drying chamber 210.

In addition, the inside and the other side of the drying chamber 210 is made of any one or two or more of the anion generator, ultraviolet light generating device, LED device for generating far infrared rays 211 to promote sterilization, antibacterial and deodorization of the coating. The device is provided, and when the tray 230 is opened, the lighting device 212 irradiated from the inside to the outside is preferably formed on the inner wall of the drying chamber 210.

On the other hand, the bottom surface of the drying chamber 210 is preferably provided with a separate water pedestal 280 to temporarily store the water flowed down from the coating and then drain.

In addition, the dehumidifying unit 100 and the drying unit 200 is formed of any one of the integral or detachable prefabricated detachable type, the detachable prefabricated detachable type so that the duct 150 of the dehumidification unit and the transfer duct 250 of the drying unit side by side communication. It is preferable to be detachable by the male and female joint pipes 155 and 255.

In this case, the detachable assembly type split type connecting the female and male joint pipes 155 and 255 spaced apart when the duct 150 of the dehumidifying unit and the transfer duct 250 of the drying unit are detached by the female and male joint pipes 155 and 255. It is preferable that the bellows 300 for connection be provided to be driven in a state.

In addition, the dehumidifier is a control panel 400 is formed on one side of the outer peripheral surface is formed to drive the control unit 500 to dehumidify, drying, the control unit power control, air volume control, wind direction control, operating time setting, temperature display, Control panel 400 allows operation of any one or two or more combinations of wetness display, primary level control sensor sensing, lighting and anion generator in the drying room, lamp unit for generating ultraviolet rays, and LED unit for generating far infrared rays. It is desirable to be able to control.

Thus, the control unit 500 is a temperature sensor 510 and the humidity sensor 520 is formed in the drying chamber to check the temperature and the degree of wet saturation of the drying chamber 210, the air volume control and the wind direction control is the temperature and wetting degree of the drying chamber According to the control of the speed of the drive fan as well as to operate the drive of the movable motor 180 of the wind direction control fan 152 is preferred.

At this time, the dehumidifying unit 100 and the drying unit 200 is a detachable decor plate 600 is formed on the front surface of the housing, one side of the decor plate 600, LED lighting 610 is coupled to one or more controllers It is desirable to cause the 500 to emit light at random or continuously upon power up.

As described above, the present invention provides a dehumidifying unit and a drying unit as an integrated or divided assembly type device to promote dehumidification and at the same time to cover clothes (underwear, towels, shoes, etc.) by using hot air generated during dehumidification by heat exchange. The dehumidifier which allows to dry, the dehumidifying unit is coupled to the detachable filter member that is easy to replace and clean on the front portion to be detachably attached to the user for convenient after-care, 2WAY- formed in the lower part of the dehumidification chamber In addition to the condensate treatment of the condensate system, the condensate can be selected according to the low volume of the condensate, as well as the 1st and 2nd level control sensors formed in the water storage tank to accurately identify the condensate and prevent safety accidents. The drying unit formed on one side of the dehumidifying unit may be anion generator, ultraviolet ray lamp device, and far infrared ray. Any one or two or more of the LED device for generating a line is installed to have the effect of promoting the sterilization, antibacterial, deodorization, purification of various coatings mounted or seated.

1 is a schematic perspective view of a dehumidifier according to the present invention,

2 is a rear perspective view of FIG. 1;

3 is an exemplary view showing a state in which the drying chamber of FIG. 1 is opened;

4 is an exemplary view showing a plane with a controller of the present invention,

5 is a rear view of the present invention;

6 is a schematic sectional view showing a state of use of the dehumidifying unit and the drying unit of the dehumidifier according to the present invention;

7 is a cross-sectional view of the dehumidifying part side of FIG. 6;

8 is an exemplary plan view showing a structure of a water channel according to the present invention;

9 is an exemplary view showing a rib and a groove structure formed on the first branch channel side of FIG. 8;

10 is a side cross-sectional view showing that the condensate flows from the condensate of the dehumidifying unit according to the present invention flows through the inclined plate into the waterway

11 is an exemplary view showing a primary level control sensor according to the present invention,

12 to 13 is an exemplary embodiment showing that the dehumidifying unit and the drying unit can be used separately as another embodiment of the present invention,

14 is an exemplary view showing a conventional dehumidifier.

The present invention is the best form for implementation, the dehumidification chamber 110 in which the evaporator 111 and the condenser 112 are arranged in the air flow order in the upper front of the inside of the enclosure, the dehumidification chamber 110 of A water channel 120 is formed in the lower portion so that the condensate generated by the evaporator 111 is recruited, and the compressor 160 is circulated in the lower portion of the water channel 120 to circulate the refrigerant in the evaporator 111 and the condenser 112. The circulation drive chamber 140 having a driving fan 143 is formed at the rear of the dehumidification chamber 110 so that the dehumidified hot air is exhausted through the air passage 141 to the transfer hole 142. In addition, the upper portion of the circulation drive chamber 140, the duct 150 is provided with a wind direction control plate 152 so that hot air exhausted by the driving fan 143 and the transfer hole 142 is discharged through the discharge groove 151. Is formed, the communication hole 153 is formed on one side of the duct 150, the rear of the compressor 160 Dehumidifying unit 100 is formed with a reservoir 130 having a reservoir tank 131 so that the condensate generated from the dehumidification chamber is stored through the pipeline of the water channel 120; The connector 220 corresponding to the communication hole 153 of the duct is formed on one side of the dehumidifying unit 100 to supply the hot air transferred through the duct 150 to the interior space (G) of the drying chamber 210. Is formed, the drying chamber 210 has a plurality of hangers 231, a cradle 232, a seating table 233 in the interior space (G), the tray 230 that can be opened and closed is formed, the drying chamber ( 210 is a drying unit 200 in which a hot air circulation grill window 240 is formed so as to circulate with the dehumidifying unit 100 by exhausting internal hot air on one side of the front surface; It is made up.

In this case, the dehumidification chamber 110 is provided with a filter member 113 to purify the contaminated air including fine dust in the front, the filter member 113 corresponds to the outer peripheral shape of the filter member on one side of the dehumidification chamber It is preferable that the guide groove 114 is formed so that it can be easily replaced and cleaned by a sliding method or an insertion type, and the water channel 120 is bent from the main water channel 121 to recruit condensed liquid dropped from the evaporator 111. The first and second channels 122 and 123 are formed to extend, and the main channel 121 and the first and second channels 122 and 123 are formed such that the plan view forms a '-' channel toward the rear of the dehumidifying unit. The longitudinal section of the channel 120 is formed in a '∪' shape, the first branch channel 122 has a groove 125 to prevent the continuous flow before the condensate falls into the reservoir tank 131. Ribs 124 are formed and the second channel 123 is formed. ) Is preferably formed with a joint pipe 126 to be connected to a separate external hose.

In addition, an inclined plate 170 is provided at a lower portion of the evaporator 111 of the dehumidification chamber so that the condensate can be quickly flowed to the main water channel 121 of the water channel, and the water storage tank 131 is provided with the water storage chamber 130. The male and female are formed in a corresponding shape so as to be detachable and assembled, but a through hole 132 is formed at one side of the upper end of the water storage tank 131 so that the condensate may be recruited from the water channel or may be formed to be drained and cleaned afterwards.

In addition, the water tank 131 is provided with a first level control sensor 133 as a proximity high capacity detection level control sensor on one side of the outer peripheral surface to detect the level of the condensate, the first level control sensor 133 is a reservoir The capacity value detected by detecting the dielectric constant generated from the water in the storage tank with a high capacity while sensing the water level of the water contained in the storage tank 131 in the form of a plate attached to one side of the outer circumferential surface of the tank 131. Thin-film conductor 133-1 for reading a circuit into a circuit, an insulating tape 133-2 for insulated contact with a shape corresponding to an outer circumferential surface of the thin-film conductor, and separation of the thin-film conductor and insulating tape Pressed from the outside to prevent the compression spring (133-3) to maintain a firm attachment state, and fixed to the outer wall of the holding tank fixed to the pressing spring That the supports (133-4) to lock consisting configured are preferred.

At this time, the water storage tank 131 is a buoyancy force of the bure 136 due to the rise of water when the water level exceeds one level on the inner circumference to stop the dehumidifier power to stop the dehumidification operation, thereby preventing safety accidents due to leakage accidents A secondary water level control sensor 137 is further provided, and a transfer duct 250 corresponding to the duct 150 of the dehumidifying unit is formed at the top of the drying chamber 210 of the drying unit, and is provided on the bottom surface of the transfer duct 250. At least one forced driving fan 260 may be formed so that hot air generated from the dehumidification chamber 110 may be rapidly introduced into the drying chamber 210.

Accordingly, a heating coil 270 is formed at the lower portion of the forced driving fan 260 to auxiliary heat the hot air to be introduced into the drying chamber 210, and sterilize the coating on one side and the other side of the drying chamber 210. In order to achieve antibacterial and deodorization, an anion generator, an ultraviolet lamp device, an LED device for far infrared light generation 211 or any combination of two or more devices are provided. It is preferable that the lighting device 212 irradiated to the outside is formed on the inner wall of the drying chamber 210.

On the other hand, the bottom surface of the drying chamber 210 is provided with a separate water pedestal 280 to temporarily store the water flowed down from the coating and drainage treatment, the dehumidifying unit 100 and the drying unit 200 is integral Alternatively, the detachable prefabricated detachable type may be formed by any one of the detachable prefabricated detachable types such that the duct 150 of the dehumidifying part and the transfer duct 250 of the drying part may be detached by the female and male joint pipes 155 and 255 so as to communicate in parallel. .

In this case, the detachable assembly type split type connecting the female and male joint pipes 155 and 255 spaced apart when the duct 150 of the dehumidifying unit and the transfer duct 250 of the drying unit are detached by the female and male joint pipes 155 and 255. Connection bellows 300 is provided to be driven in a state, the dehumidifier is formed on the outer peripheral surface control panel 400 is formed to drive the control unit 500 to dehumidify, drying, the control unit is a power control One or more of air volume control, wind direction control, operation time setting, temperature display, wet degree display, primary level control sensor sensing, lighting and anion generator in the drying room, lamp unit for UV generation, LED device for far infrared generation It is desirable to allow the control panel 400 to control the operation of the combined device.

Thus, the control unit 500 is a temperature sensor 510 and the humidity sensor 520 is formed in the drying chamber to check the temperature and the degree of wet saturation of the drying chamber 210, the air volume control and the wind direction control is the temperature and wetting degree of the drying chamber According to the control of the speed of the drive fan as well as to operate the drive of the movable motor 180 of the wind direction control fan 152, the dehumidification unit 100 and the drying unit 200 is removable on the front surface of the enclosure Decopan 600 is formed, it is preferable that one or more LED lighting 610 is coupled to one side of the decopan 600 to allow the control unit 500 to emit a random setting or continuously at power supply.

The following describes the present invention in more detail with reference to the accompanying drawings.

First, as shown in Figures 1 to 13, the dehumidifier of the present invention is largely made of a dehumidifying unit 100 and the drying unit 200 is configured in an integrated or divided assembly type.

Such dehumidifiers are generally classified according to dehumidification principles and are generally cooled, adsorbed, or absorbed, but the present invention uses a cooled dehumidifying principle using a refrigerant. In other words, the cooling dehumidification is a method of cooling the wet air to a saturation state to condense moisture in the air to lower the absolute humidity, and to dehumidify the wet air by cooling it to below its dew point temperature.

Thus, the dehumidifying unit 100 of the present invention is formed in the dehumidification chamber 110 in which the evaporator 111 and the condenser 112 are arranged in the air flow order in the upper front of the inside of the enclosure, the lower portion of the dehumidification chamber 110 The channel 120 is formed so that the condensate generated by the evaporator 111 is recruited, and the compressor 160 is formed at the lower portion of the channel 120 to circulate the refrigerant in the evaporator 111 and the condenser 112. In the rear of the dehumidification chamber 110, a circulation driving chamber 140 having a driving fan 143 is formed so that the dehumidified hot air passes through the air passage 141 and is exhausted to the transfer hole 142. A duct 150 having a wind direction control plate 152 is provided at an upper portion of the circulation drive room 140 so that hot air exhausted by the driving fan 143 and the transfer hole 142 is discharged through the discharge groove 151. Is formed, a communication hole 153 is formed on one side of the duct 150, the rear of the compressor 160 from the dehumidification chamber Bottled water condensate is made as low Susilo 130 is formed having a water storage tank 131 to the water storage through the channel of the channel 120.

At this time, the dehumidification chamber is formed so that the front portion is opened so that the indoor air can be introduced, the filter member 113, which will be described later, is mounted on the opened front to filter contaminants.

In addition, it is preferable that the hot air dehumidified by the dehumidification chamber achieves a 40 to 60% wet state in the range of 40 to 50 ° C.

Thus, the circulation drive chamber is a space in which a drive fan (for example, a kind of blower) rotated by the drive motor allows the dehumidification chamber to suck the dehumidified air. It is formed to inject (discharge) hot air.

At this time, the dehumidification chamber 110 is preferably a filter member 113 is installed to purify the contaminated air including fine dust in front.

The filter member is preferably a plate filter capable of cleaning and recycling water, including an electrostatic demister, an adsorption filter, a fiber filter, and the like.

In addition, it is preferable that the filter member 113 has a guide groove 114 corresponding to the outer circumferential shape of the filter member on one side of the dehumidification chamber so that the filter member 113 can be easily replaced and cleaned by a sliding method or an insertion type.

That is, it is preferable that a guide groove is formed on one outer circumferential surface of the dehumidifying unit so that the filter member can be attached or detached by a sliding method or an insertion type, so that the user can easily and simply clean and replace every set cycle. .

Thus, the channel 120 is formed to be bent and extended from the main channel 121 to extend the first and second channels 122 and 123 to collect the condensate dropped from the evaporator 111, the main channel 121 And the first and second channels 122 and 123 are formed such that the plan view forms a '-' channel toward the rear of the dehumidifying unit, and a longitudinal section of the channel 120 is formed in a '∪' shape. The channel 122 is formed with a rib 124 having a groove 125 so as to prevent continuous flow before the condensate drops into the water storage tank 131, and the second channel 123 is connected to a separate external hose. Preferably, the joint pipe 126 is formed.

That is, the condensate flowed down to the main channel by the evaporator is branched into the first and second channels, but the first channel of the first and second channels is blocked by the ribs to prevent continuous flow. Thereafter, the condensate flowing over the upper groove of the rib is dropped to the water storage tank so as to prevent the overflow of the water storage tank (while the water level control sensor is sensing) during the operation of the dehumidifying unit and the drying unit.

In addition, the second channel is connected to a separate hose is formed so that the condensate can be continuously drained to the outside even during operation of the dehumidifying unit and the drying unit.

In addition, it is preferable that the inclined plate 170 is provided below the evaporator 111 of the dehumidification chamber so as to quickly flow the condensate to the main water channel 121 of the water channel.

That is, the inclined plate is formed in the lower portion of the evaporator is located above the main water channel is formed so that the condensate generated from the condenser through the water channel more quickly and stored or drained to the storage tank and the outside.

Thus, the water storage tank 131 is formed in a shape corresponding to the water storage chamber 130 and the male and female to enable detachable assembly, but a through hole 132 is formed at one end of the water storage tank 131 to recruit condensate from the water channel. It is preferably formed to be able to drain or clean after.

In other words, it is preferable that the water storage tank and the water storage chamber are manufactured in a shape of male and female unevenness in consideration of the detachable assembling property to provide convenience to the user when detachable.

In addition, the water tank 131 is provided with a first level control sensor 133 as a proximity high capacity detection level control sensor on one side of the outer peripheral surface to detect the level of the condensate, the first level control sensor 133 is a reservoir The capacity value detected by detecting the dielectric constant generated from the water in the storage tank with a high capacity while sensing the water level of the water contained in the storage tank 131 in the form of a plate attached to one side of the outer circumferential surface of the tank 131. Thin-film conductor 133-1 for reading a circuit into a circuit, an insulating tape 133-2 for insulated contact with a shape corresponding to an outer circumferential surface of the thin-film conductor, and separation of the thin-film conductor and insulating tape Pressed from the outside to prevent the compression spring (133-3) to maintain a firm attachment state, and fixed to the outer wall of the holding tank fixed to the pressing spring That the supports (133-4) to lock consisting configured are preferred.

In other words, the inside of the water storage tank becomes a state where the condensate gradually rises. At this time, the outside of the water storage tank is made of aluminum foil, which is attached to the thin film in the form of a wide rectangular plate, forming a conductor. While the water tank (plastic) is an insulator, the inner condensate (water) has an electrode as one conductor, and the outer thin film conductor (silver foil) also has an electrode as one conductor. Delivered rate) will be formed.

At this time, the thin film type conductor in the form of silver foil starts to detect the dielectric constant from the condensate (water) filling in the reservoir tank, which is a dedicated chip (capacity sensing electronic chip which is generally widely used in the market) that reads the capacitance value formed on the substrate PCB circuit. ) To read the corresponding capacitance value onto the circuit.

That is, the thin film type conductor formed by silver foil reads the dielectric constant (electric field value) generated from the water but does not directly contact the condensate (water) in the reservoir tank, and it is known that the dielectric constant of air is 1 (F). / m), and the dielectric constant of water is about 20-30 (F / m), which is 20-30 times that of air.

In the case of the conventional water level sensor, in response to the fine dielectric constant (a slight increase in the dielectric constant due to contamination or foreign matter in the reservoir tank), the water does not rise to the proper level, but an error that is determined to be already filled by other environments in the reservoir tank occurs. According to the present invention, the detection value (capacity value-dielectric constant) is read as a silver foil (thin film conductor) in the form of a wide rectangular plate, and does not react to the fine dielectric constant, and the thin film type conductor in the shape of a rectangular plate has a large area, that is, a high dielectric constant. When detected, the set water level is checked and, unlike the previous water level sensor, is formed to accurately detect the actual water level. This means that the medium of water will be detected over a large area.

At this time, the water storage tank 131 is a buoyancy force of the bure 136 due to the rise of water when the water level exceeds one level on the inner circumference to stop the dehumidifier power to stop the dehumidification operation, thereby preventing safety accidents due to leakage accidents It is preferable that the secondary water level control sensor 137 to be further provided.

On the other hand, the drying unit 200 is formed on one side of the dehumidifying unit 100 to communicate the hot air transferred through the duct 150 to the interior space (G) of the drying chamber 210 (communication hole of the duct ( A connector 220 corresponding to the 153 is formed, and the drying chamber 210 has a plurality of hangers 231, a holder 232, and a seating table 233 in the inner space G, which can be opened and closed. 230 is formed, the drying chamber 210 is formed in the air flow circulation grill window 240 to be circulated with the dehumidifying unit 100 by exhausting the internal hot air on one side on the front surface.

In other words, the grill window for circulation of air flow corresponds to an outer window (path) which causes gas generated after drying the coating in the drying chamber to be discharged to the outside to circulate to the drive fan of the dehumidifying unit.

In this case, a transfer duct 250 corresponding to the duct 150 of the dehumidification unit is formed on the upper part of the drying chamber 210 of the drying unit, and one or more forced driving fans 260 are formed on the bottom surface of the transfer duct 250. It is preferable to allow the hot air generated from the 110 to be introduced into the drying chamber 210 quickly.

That is, the forced drive fan is a low power low noise drive fan is formed to suck the hot air generated from the dehumidifying unit to the drying chamber more quickly.

Accordingly, the heating coil unit 270 is formed at the lower portion of the forced driving fan 260 to auxiliary heating the hot air to be introduced into the drying chamber 210.

In addition, the inside and the other side of the drying chamber 210 is made of any one or two or more of the anion generator, ultraviolet light generating device, LED device for generating far infrared rays 211 to promote sterilization, antibacterial and deodorization of the coating. The device is provided, and when the tray 230 is opened, the lighting device 212 irradiated from the inside to the outside is preferably formed on the inner wall of the drying chamber 210.

On the other hand, the bottom surface of the drying chamber 210 is preferably provided with a separate water pedestal 280 to temporarily store the water flowed down from the coating and then drain.

Such, the water pedestal preferably forms a plate + rail structure in a sliding manner to the lower portion of the drying unit to be detachable from the outside of the drying chamber.

In addition, the dehumidifying unit 100 and the drying unit 200 is formed of any one of the integral or detachable prefabricated detachable type, the detachable prefabricated detachable type so that the duct 150 of the dehumidification unit and the transfer duct 250 of the drying unit side by side communication. It is preferable to be detachable by the male and female joint pipes 155 and 255.

That is, the female and male joint pipes are formed as groove pipes in the case of female joint pipes, and in the case of male joint pipes, they are formed as protrusions to facilitate the removal and detachment due to the irregularities formed on the outer circumferential surface. It is desirable to encourage internal and external closure.

In this case, the detachable assembly type split type connecting the female and male joint pipes 155 and 255 spaced apart when the duct 150 of the dehumidifying unit and the transfer duct 250 of the drying unit are detached by the female and male joint pipes 155 and 255. It is preferable that the bellows 300 for connection be provided to be driven in a state.

In other words, the connecting bellows are separated from each other in an environment in which the dehumidifying unit and the drying unit cannot be integrally connected, and then connected to each other by a flexible synthetic resin tube to maximize the ease of use.

In addition, the dehumidifier is a control panel 400 is formed on one side of the outer peripheral surface is formed to drive the control unit 500 to dehumidify, drying, the control unit power control, air volume control, wind direction control, operating time setting, temperature display, Control panel 400 allows operation of any one or two or more combinations of wetness display, primary level control sensor sensing, lighting and anion generator in the drying room, lamp unit for generating ultraviolet rays, and LED unit for generating far infrared rays. It is desirable to be able to control.

Thus, the control unit 500 is a temperature sensor 510 and the humidity sensor 520 is formed in the drying chamber to check the temperature and the degree of wet saturation of the drying chamber 210, the air volume control and the wind direction control is the temperature and wetting degree of the drying chamber According to the control of the speed of the drive fan as well as to operate the drive of the movable motor 180 of the wind direction control fan 152 is preferred.

At this time, the dehumidifying unit 100 and the drying unit 200 is a detachable decor plate 600 is formed on the front surface of the housing, one side of the decor plate 600, LED lighting 610 is coupled to one or more controllers It is desirable to cause the 500 to emit light at random or continuously upon power up.

In this case, when drying the cladding, the front of the drying chamber is pulled through the laundry, and when the door is closed, the blue LED light is turned on when the door is opened, and the blue LED light is turned off when the door is closed.

In addition, when drying the coatings in the drying room, it should be equipped with bacteria suppression or sterilization function by generating negative ion, infrared ray and ultraviolet ray, and when the clothes are hanging and the dehumidifier is in operation, the negative ion generator operates at least 1 minute after the drying function starts. It is preferable not to perform sterilization, antibacterial, or the like on the coating which is not dried.

Therefore, the dehumidifier of the present invention blocks the drying function after a certain time so as to prevent damage or deformation of the laundry or equipment due to excessive drying function, and switches only to the dehumidifying function and then cycles back to the redrying function. It is preferable that it is done.

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by those skilled in the art without departing from the gist of the present invention as claimed in the claims. Of course, such changes will fall within the scope of the claims.

According to the present invention, the dehumidifying unit and the drying unit are provided as an integrated or split assembly type device to promote dehumidification and dry coats (underwear, towels, shoes, etc.) by using hot air generated during dehumidification by heat exchange. It is available to be.

Therefore, the dehumidifying part of the present invention is coupled to the detachable filter member which is easy to replace and clean on the front part to be detachably attached to the user for convenient after-care, and the 2-way-pipe type channel formed in the lower part of the dehumidification chamber of the condensate Depending on the amount of water stored, it is possible to select the condensate treatment by tank drainage and continuous drainage, and the 1st and 2nd level control sensors formed in the reservoir tank can be used to accurately identify the storage state of the condensate to prevent safety accidents. .

In addition, the drying unit formed on one side of the dehumidifying unit of the present invention is sterilized, antibacterial, deodorization of various coatings placed or seated by any one or two or more of the anion generator, UV lamp device, LED device for far-infrared light generation It can be used for purification.

Claims (10)

The dehumidification chamber 110 in which the evaporator 111 and the condenser 112 are arranged in the air flow order is formed in the upper front of the enclosure, and the condensate generated by the evaporator 111 is formed in the lower part of the dehumidification chamber 110. A water channel 120 is formed to be recruited, and a compressor 160 is formed at the lower portion of the water channel 120 to circulate refrigerant in the evaporator 111 and the condenser 112, and at the rear of the dehumidification chamber 110. A circulation drive chamber 140 having a driving fan 143 is formed so that the dehumidified hot air passes through the air passage 141 and then is exhausted to the transfer hole 142, and the upper portion of the circulation drive chamber 140 is driven. A duct 150 having a wind direction control plate 152 is formed so that hot air exhausted by the fan 143 and the transfer hole 142 is discharged through the discharge groove 151, and an inner side of the duct 150 is formed. The communication hole 153 is formed in the rear of the compressor 160, the condensate generated from the dehumidification chamber 110 is the A dehumidifying unit (100) having a reservoir (130) having a reservoir tank (131) to store water through a pipeline; The connector 220 corresponding to the communication hole 153 of the duct is formed on one side of the dehumidifying unit 100 to supply the hot air transferred through the duct 150 to the interior space (G) of the drying chamber 210. Is formed, the drying chamber 210 has a plurality of hangers 231, a cradle 232, a seating table 233 in the interior space (G), the tray 230 that can be opened and closed is formed, the drying chamber ( 210 is a drying unit 200 in which a hot air circulation grill window 240 is formed so as to circulate with the dehumidifying unit 100 by exhausting internal hot air on one side of the front surface; In the dehumidifier which has a drying chamber for coatings comprised, The dehumidification chamber 110 is provided with a filter member 113 to purify the contaminated air including fine dust in the front, the filter member 113 is a guide groove corresponding to the outer peripheral shape of the filter member on one side of the dehumidification chamber A 114 is formed to be easily exchanged and cleaned by a sliding method or an insertion type, and the water channel 120 is bent and extended from the main water channel 121 to collect condensed liquid dropped from the evaporator 111. First and second channels 122 and 123 are formed, and the main channel 121 and the first and second channels 122 and 123 are formed such that the plan view forms a '-' channel toward the rear of the dehumidifying unit. Longitudinal section of the 120 is formed in a '∪' shape, the first branch channel 122 is a rib 124 having a groove (125) to prevent continuous flow before the condensate falls into the reservoir tank 131 Is formed, and the second channel 123 has a separate outer arc. A dehumidifier having a drying chamber for coverings, characterized in that the joint pipe (126) is formed so as to be connected to the switch. According to claim 1, wherein the lower portion of the evaporator 111 of the dehumidification chamber is provided with an inclined plate 170 so as to quickly flow the condensate to the main water channel 121 of the water channel, the water storage tank 131 is a reservoir 130 is formed in a shape corresponding to the male and female, so as to be detachable assembly, the upper end of the reservoir tank 131 is formed with a through-hole 132 is formed to recruit condensate from the water channel or to be drained and cleaned afterwards. A dehumidifier having a drying chamber for coatings. According to claim 2, wherein the reservoir tank 131 is provided with a first level control sensor 133 as a near-capacity high capacity detection level control sensor on one side of the outer circumference to detect the level of condensate, the first level control sensor ( 133 is attached to one side of the outer circumferential surface of the water storage tank 131 while sensing the water level of the water contained in the water storage tank 131 in the form of a plate while sensing the dielectric constant generated from the water in the water storage tank at a high capacity A thin film conductor 133-1 for reading out the detected capacitance value on a circuit, an insulating tape 133-2 for insulated by being in close contact with a shape corresponding to an outer circumferential surface of the thin film conductor, the thin film conductor and A compression spring 133-3 pressurizes from the outside to prevent separation of the insulating tape and maintains a firm attachment state, and fixes the compression spring to support the outer wall of the water storage tank. Dehumidifier having a drying chamber for coatings, characterized in that the support (133-4) is configured to be fixed to. According to claim 3, The water storage tank 131 rises to the buoyancy of the bure 136 due to the rise of water when the water level exceeds one side on the inner circumferential surface to stop the dehumidifier power to stop the dehumidification operation, due to leakage accident A secondary water level control sensor 137 is further provided to prevent a safety accident, and a transfer duct 250 corresponding to the duct 150 of the dehumidifying unit is formed at an upper end of the drying chamber 210 of the drying unit. At least one forced driving fan 260 is formed on the bottom of the bottom surface so that hot air generated from the dehumidification chamber 110 can be quickly introduced into the drying chamber 210, and a heating is provided at a lower portion of the forced driving fan 260. Dehumidifier having a drying chamber for coverings, characterized in that the coil portion 270 is formed to auxiliary heating the hot air to be introduced into the drying chamber (210). The method of claim 4, wherein one or two of the negative ion generating device, the ultraviolet generating lamp device, and the far infrared generating LED device 211 are disposed on one side and the other side of the drying chamber 210 to promote sterilization, antibacterial and deodorization of coatings. The above-described combination device is provided, and the dehumidifier having a drying chamber for coverings, characterized in that the lighting device 212 irradiated from the inside to the outside when the tray 230 is opened is formed on the inner wall of the drying chamber 210. 6. The dehumidifier having a drying chamber for coatings according to claim 5, wherein the bottom surface of the drying chamber (210) is provided with a separate water support (280) for temporarily storing and draining the water flowing down from the coating. According to claim 6, The dehumidifying unit 100 and the drying unit 200 is formed of any one of the integral or detachable prefabricated detachable type, The detachable prefabricated detachable type is the duct 150 of the dehumidification unit and the transfer duct 250 of the drying unit Detachable by the male and female joint pipes (155, 255) to communicate side by side, the detachable prefabricated detachable type when the duct 150 of the dehumidification unit and the transfer duct 250 of the drying unit is detached by the male and female joint pipes (155, 255). The dehumidifier having a drying chamber for coverings, characterized in that the connecting bellows (300) is provided to connect the spaced female and male joint pipes (155, 255) to be driven in a divided state. The method of claim 7, wherein the dehumidifier is a control panel 400 is formed on one side of the outer circumferential surface is formed to drive the control unit 500 to dehumidify, drying, the control unit power control, air volume control, wind direction control, operating time setting , Temperature display, wet degree display, primary water level sensor sensing, drying room lighting and anion generator, UV light lamp device, LED device for far-infrared light generation or any combination of two or more of the control panel ( Dehumidifier having a drying chamber for the coating, characterized in that 400) to be controlled. The method of claim 8, wherein the control unit 500 is a temperature sensor 510 and the humidity sensor 520 is formed in the drying chamber to check the temperature and the degree of wetting degree of the drying chamber 210, the air volume control and the wind direction control of the drying chamber The dehumidifier having a drying chamber for coatings, characterized in that to control the speed of the drive fan according to the temperature and degree of saturation, to operate the drive of the movable motor 180 of the wind direction control fan (152). 10. The method of claim 9, wherein the dehumidifying unit 100 and the drying unit 200 is a detachable decor plate 600 is formed on the front surface of the housing, one side of the decor plate 600 is an LED light 610 one The dehumidifier having a drying chamber for coatings, characterized in that coupled to the control unit 500 to emit light randomly or continuously at the time of power supply.

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