KR102261531B1 - Small dehumidifier using peltier module and its way of working - Google Patents

Abstract

The present invention relates to a small dehumidifier using a Peltier element and a driving control method thereof, and more particularly, to a small dehumidifier using a Peltier element, comprising: an upper case including a plurality of ventilation holes for sucking outside air at the lower end; a cooling plate disposed inside the upper case to cool the outside air sucked from the ventilation hole below a dew point to condense water vapor contained in the air; a heat sink disposed inside the upper case and positioned above the cooling plate to heat the air cooled by the cooling plate again; a Peltier element disposed inside the upper case and positioned between the cooling plate and the heat sink to absorb heat from the cooling plate and transfer heat to the heat sink; a blower fan disposed inside the upper case and positioned on the upper side of the heat sink to discharge the dehumidified air from the cooling plate; a discharge hole located on the upper side of the upper case, through which the air passing through the blowing fan is discharged; a lower case coupled to the lower surface of the upper case; and a condensate reservoir located in the inner space of the lower case to store condensed water condensed in the cooling plate.
According to the compact dehumidifier using the Peltier element and the driving control method thereof proposed in the present invention, by using the Peltier element in the dehumidifier, it is possible to reduce the size compared to the dehumidifier using the conventional refrigerant gas, it is low noise, and the power consumption is reduced, It can be used permanently, regardless of the place of use. Therefore, by using a small dehumidifier in the right place where it is needed, comfortable living humidity (40-60%) or storage humidity (30% or less) for storing things can be optimally adjusted for each space. Compared to the existing dehumidifier, it can be used more efficiently and environmentally friendly.
In addition, according to the small-sized dehumidifier using the Peltier element proposed in the present invention and the driving control method therefor, a capacitor sensor unit made of a flexible material is attached to the inner wall of the condensate reservoir in which the condensate is accommodated, and the level value of the condensed water accommodated in the condensate reservoir is measured. It can be measured, and the measured value can be confirmed in real time through a display unit attached to the lower case or a user device that transmits and receives the communication unit. Therefore, it is possible to prevent overflow of condensate in the condensate storage in an unexpected situation, and to check information such as how much moisture has been removed from the room.
In addition, according to the small dehumidifier using the Peltier element and the driving control method thereof proposed in the present invention, a temperature and humidity sensor is mounted to measure the ambient temperature and humidity, and the optimum humidity according to the measured temperature is calculated by the control unit It is possible to adjust the indoor humidity to the most optimal humidity that a person can feel. In addition, by interlocking the power supply unit and the control unit of the dehumidifier, power to the dehumidifier can be turned off or supplied to adjust the indoor humidity to the optimum humidity, and through this, the dehumidifier itself can control whether the dehumidifier operates.

Description

A small dehumidifier using a Peltier element and its driving control method {SMALL DEHUMIDIFIER USING PELTIER MODULE AND ITS WAY OF WORKING}

The present invention relates to a small dehumidifier using a Peltier element and a driving control method thereof, and more particularly, to a small dehumidifier using a Peltier element for controlling the operation of the dehumidifier using a capacitor sensor and a temperature and humidity sensor, and a driving control method thereof will be.

The increase in living humidity not only causes discomfort, but also creates an environment for harmful bacteria such as mold, which increases the problem that valuable items such as clothes and books cannot function or are damaged. Also, the situation is not easy. Also, comfortable living humidity (40-60%) and storage humidity (30% or less) for storing things are strictly different. Conversely, if the storage humidity for storing things is high, mold or microorganisms will grow. In order to solve the various problems caused by the humidity control failure, the use of dehumidifiers is increasing recently, and the dehumidifier market is also expanding and growing.

1 is a view showing a schematic dehumidification principle of a conventional dehumidifier using a refrigerant gas. As shown in FIG. 1 , a conventional dehumidifier generally used mainly includes a compressor using refrigerant gas, so it has disadvantages such as large volume, heavy weight, high power consumption, and high noise. In addition, it is not suitable for closed narrow spaces such as closets, toilets, and study rooms. Accordingly, recently, interest in a dehumidifier using a Peltier element is increasing.

2 is a view showing a schematic operating principle of the Peltier element used in the present invention. The Peltier element is, as shown in FIG. 2, when two types of metal ends are connected and a current is passed through it, one terminal absorbs heat according to the direction of the current and the other terminal generates heat (Peltier effect) ) is used. However, until now, medium and large dehumidifiers have been mainly used, and development of small dehumidifiers is insufficient.

In addition, the most comfortable living humidity for a person is different depending on the temperature. In the case of an existing dehumidifier, regardless of the surrounding temperature, the operation of the dehumidifier is controlled according to the humidity or time set by the user. The dehumidifier continues to operate even when the optimum humidity according to the temperature has been reached, or the dehumidifier stops operating even though the optimum humidity according to the ambient temperature has not yet been reached. In most cases, the dehumidifier was operated as described above, and its use was inefficient. In addition, it is difficult to know what the level value of the condensate contained in the condensate storage is unless the user periodically observes it. If you do not pay attention to the level of the condensate in the condensate storage, condensate may overflow and damage the dehumidifier, or the dehumidifier may be damaged. There was a problem that it was not automatically turned off and efficient dehumidification was not performed.

On the other hand, as prior art related to the present invention, Korea Patent Registration No. 10-0898063 (Title of the invention: a small dehumidifier using a thermoelectric element, announcement date: May 19, 2009) has been disclosed.

The present invention has been proposed to solve the above problems of the previously proposed methods, and by using a Peltier element in the dehumidifier, it is possible to downsize, low noise, and reduce power consumption compared to the dehumidifier using a conventional refrigerant gas. , It can be used permanently regardless of the place of use, and by using it in the right place where a small dehumidifier is needed, comfortable living humidity (40~60%) or storage humidity (30%) for storing things It is an object of the present invention to provide a small dehumidifier using a Peltier element and a driving control method thereof, which can be optimally matched to each space, and which can be used more efficiently and eco-friendlyly compared to the existing dehumidifier.

In addition, the present invention can measure the level value of the condensate contained in the condensate storage by attaching a capacitor sensor unit of a flexible material to the inner wall of the condensate storage in which the condensed water is accommodated, and the measured value is displayed on the display attached to the lower case Because it can be checked in real time through the user device transmitting and receiving with the unit or communication unit, it is possible to prevent the overflow of condensate in the condensate storage in unexpected situations and to check information such as how much moisture has been removed from the room, Another object of the present invention is to provide a small dehumidifier using a Peltier element and a method for controlling the driving thereof.

In addition, the present invention can measure the ambient temperature and humidity by mounting a temperature and humidity sensor, and calculate the optimum humidity according to the measured temperature in the control unit, so that a person can feel the indoor humidity. It is possible to adjust the humidity, and by interlocking the power supply unit and the control unit of the dehumidifier, the power of the dehumidifier can be cut off or supplied to adjust the indoor humidity to the optimum humidity, and through this, the dehumidifier itself can control whether the dehumidifier works Another object of the present invention is to provide a small dehumidifier using a Peltier element and a driving control method thereof.

A small dehumidifier using a Peltier device according to a feature of the present invention for achieving the above object,

In a small dehumidifier using a Peltier element,

an upper case including a plurality of ventilation holes for sucking outside air at the lower end;

a cooling plate disposed inside the upper case to cool the outside air sucked from the ventilation hole below a dew point to condense water vapor contained in the air;

a heat sink disposed inside the upper case and positioned above the cooling plate to heat the air cooled by the cooling plate again;

a Peltier element disposed inside the upper case and positioned between the cooling plate and the heat sink to absorb heat from the cooling plate and transfer heat to the heat sink;

a blower fan disposed inside the upper case and positioned on the upper side of the heat sink to discharge the dehumidified air from the cooling plate;

a discharge hole located on the upper side of the upper case, through which the air passing through the blowing fan is discharged;

a lower case coupled to the lower surface of the upper case; and

It is located in the inner space of the lower case, characterized in that it includes a condensate storage for storing the condensed water condensed in the cooling plate.

Preferably, the lower case,

It may be configured to further include a capacitor sensor unit attached to the inner wall of the condensate reservoir to measure the level of the condensed water accommodated in the condensate reservoir.

More preferably, the capacitor sensor unit,

A pair of main capacitor sensors for measuring the water level and incremental level units of the condensate reservoir, and a pair of reference capacitor sensors,

The pair of main capacitor sensors are attached to the inner wall of the lower case in a long form, and the pair of reference capacitor sensors are attached to the inner wall of the lower case in a form shorter than the main capacitor sensor. can be

Even more preferably, the capacitor sensor unit,

The pair of main capacitor sensors and the pair of reference capacitor sensors are attached and installed on the inner wall of the lower case, and may be configured to face each other in order to prevent electric field interference.

Preferably, the lower case,

It may be configured to further include a temperature and humidity sensor for measuring the ambient temperature and humidity in real time.

More preferably, the lower case,

It may be configured to further include a controller positioned adjacent to the temperature and humidity sensor to calculate an optimal humidity value according to the temperature measured by the temperature and humidity sensor.

Even more preferably, the control unit,

In order to adjust the ambient humidity to the optimum humidity calculated by the control unit, the power of the dehumidifier may be automatically controlled.

Preferably, the lower case,

The temperature and humidity measured by the temperature and humidity sensor and the water level value of the condensed water storage measured by the capacitor sensor unit may be configured to further include a communication unit for wirelessly transmitting to the user device.

Preferably, the lower case,

The temperature and humidity measured by the temperature and humidity sensor may be configured to further include a display unit for displaying the water level value of the condensed water storage measured by the capacitor sensor unit.

Preferably, the lower case,

When the level value of the condensed water storage measured by the capacitor sensor unit is equal to or greater than a preset value, it may further include an RGB LED lamp that emits light.

Preferably, the lower case,

When the level value of the condensate reservoir measured by the capacitor sensor unit is equal to or greater than a preset value, a speaker for outputting a warning sound may be further included.

Preferably,

A power supply unit for supplying driving power to each component of the upper case and the lower case may be further included.

Preferably,

In order to be fixed by hanging on a pole or a rod or a ring, it may further include a clip part.

Preferably,

It is located adjacent to the upper surface of the discharge hole, the air discharged from the discharge hole may further include a fragrance through which it passes.

Preferably,

The upper case and the lower case are detachable, but magnets having different polarities may be further included at a lower end of the upper case and an upper end of the lower case, where the upper case and the lower case contact each other.

Preferably,

The upper case and the lower case are detachable, but the upper case and the lower case may further include a lower end of the upper case and an upper end of the lower case in contact with each other, and may further include an opening and closing part that can be opened and closed by engaging with each other. have.

Preferably,

It is located on the outer side of the lower case, it may further include a handle for easily holding the lower case.

A driving control method of a small dehumidifier using a Peltier element according to a feature of the present invention for achieving the above object,

As a driving control method of a small dehumidifier using a Peltier element,

(1) the moisture contained in the outside air is removed from the cooling plate and accommodated in the condensate storage;

(2) measuring the level of the condensed water contained in the condensed water storage unit by the capacitor sensor;

(3) the temperature and humidity sensor measuring the ambient temperature and humidity;

(4) calculating, by the controller, the optimum humidity according to the temperature measured by the temperature and humidity sensor;

(4) automatically controlling whether power is supplied from the power supply unit according to the condensate water level value of the condensate storage unit measured by the capacitor sensor unit or the optimum humidity value calculated by the control unit.

Preferably,

(5) the condensate water level value of the condensate reservoir measured by the capacitor sensor unit and the temperature and humidity values measured by the temperature and humidity sensor may be displayed on the display unit.

Preferably,

(6) the condensate water level value of the condensate reservoir measured by the capacitor sensor unit and the temperature and humidity values measured by the temperature and humidity sensor may be implemented by further comprising the step of communicating with the user device.

According to the compact dehumidifier using the Peltier element and the driving control method thereof proposed in the present invention, by using the Peltier element in the dehumidifier, it is possible to reduce the size compared to the dehumidifier using the conventional refrigerant gas, it is low noise, and the power consumption is reduced, Permanent use is possible regardless of the place of use, and by using it in the right place where a small dehumidifier is needed, comfortable living humidity (40-60%) or storage humidity for storing things (30% or less) ) can be optimally adjusted to each space, making it more efficient and eco-friendly compared to existing dehumidifiers.

In addition, according to the small-sized dehumidifier using the Peltier element proposed in the present invention and the driving control method therefor, a capacitor sensor unit made of a flexible material is attached to the inner wall of the condensate reservoir in which the condensate is accommodated, and the level value of the condensed water accommodated in the condensate reservoir is measured. It can be measured and the measured value can be checked in real time through the display unit attached to the lower case or the user device that transmits and receives the communication unit. You can check information such as how much moisture has been removed.

In addition, according to the small dehumidifier using the Peltier element and the driving control method thereof proposed in the present invention, a temperature and humidity sensor is mounted to measure the ambient temperature and humidity, and the optimum humidity according to the measured temperature is calculated by the control unit It is possible to adjust the indoor humidity to the most optimal humidity that a person can feel, and by interlocking the power supply and control unit of the dehumidifier, the power of the dehumidifier can be turned off or can be supplied, and through this, the dehumidifier itself can control whether the dehumidifier operates or not.

1 is a view showing a schematic dehumidification principle of a conventional dehumidifier using a refrigerant gas.
Figure 2 is a view showing a schematic operating principle of the Peltier element used in the present invention.
3 is a view showing a perspective view of a small dehumidifier using a Peltier device according to an embodiment of the present invention.
4 is a view showing a schematic configuration of a cross section of a small dehumidifier using a Peltier element according to an embodiment of the present invention.
5 is a view showing a schematic operating principle of a small dehumidifier using a Peltier element according to an embodiment of the present invention.
6 is a view showing the configuration of a capacitor sensor unit applied to a small dehumidifier using a Peltier element according to an embodiment of the present invention as a functional block.
7 is a view showing a schematic arrangement of a capacitor sensor unit applied to a small dehumidifier using a Peltier element according to an embodiment of the present invention.
8 is a view showing a schematic coupling and separation method of a small dehumidifier using a Peltier device according to an embodiment of the present invention.
9 is a view showing a flow of a method for controlling the driving of a small dehumidifier using a Peltier element according to an embodiment of the present invention.

Hereinafter, preferred embodiments will be described in detail so that those of ordinary skill in the art can easily practice the present invention with reference to the accompanying drawings. However, in describing the preferred embodiment of the present invention in detail, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the gist of the present invention, the detailed description thereof will be omitted. In addition, the same reference numerals are used throughout the drawings for parts having similar functions and functions.

In addition, throughout the specification, when it is said that a part is connected to another part, this includes not only the case where it is directly connected, but also the case where it is indirectly connected with another element interposed therebetween. In addition, the inclusion of any component means that other components may be further included, rather than excluding other components, unless otherwise stated.

3 is a perspective view of a small dehumidifier using a Peltier element according to an embodiment of the present invention, and FIG. 4 is a schematic configuration of a cross section of a small dehumidifier using a Peltier element according to an embodiment of the present invention. It is a drawing. 3 and 4, the small dehumidifier using a Peltier element according to an embodiment of the present invention may be configured to include an upper case 100 and a lower case 200, and a capacitor sensor unit ( 220), temperature and humidity sensor 230, control unit 240, communication unit 250, display unit 260, RGB LED lamp 270, speaker 280, power supply unit 300, clip unit 400, air freshener unit (500), the magnet 600, the opening and closing portion 700 and may be configured to further include a handle (800).

The upper case 100 includes a plurality of ventilation holes 110 for sucking outside air, a cooling plate 120 for condensing water vapor contained in the air by cooling the outside air sucked from the ventilation holes 110 to a dew point or less, and a cooling plate 120 ) located on the upper side of the heat sink 130 to heat the air cooled by the cooling plate 120 again, and located between the cooling plate 120 and the heat sink 130 to absorb heat from the cooling plate 120 to absorb heat from the heat sink. Air passing through the Peltier element 140 for transferring heat to the 130, the blowing fan 150 for discharging the dehumidified air from the cooling plate 120 located on the upper side of the heat sink 130, and the blowing fan 150 A discharge hole 160 through which is discharged may be included. The upper case 100 is generally preferably formed in a cylindrical shape, but may be formed in various shapes such as a triangular pyramid or hexahedron if necessary, and a condensate reservoir for storing the condensed water condensed in the cooling plate 120 on the lower side thereof ( 210 may be coupled and separated in contact with the lower case 200 including the 210 .

The Peltier element 140 may absorb heat from the cooling plate 120 and transfer the heat to the heat sink 130 . That is, the Peltier element 140 uses a phenomenon in which the temperature difference continues at both ends of several layers of conductive material when an electric current flows. The Peltier effect is the heat of the low-temperature part when forcibly cooling the high-temperature part opposite to the side requiring cooling. This is the effect that is transmitted toward the high temperature. A product using this effect is called a Peltier element or a thermoelectric element. If the Peltier element 140 is used, the existing large dehumidifier can be miniaturized and used. The Peltier element 140 uses a semiconductor element, and by bonding two different metals and applying a voltage, one metal absorbs heat and the other metal emits heat by using the effect of the Peltier element ( Heat can be taken from the cooling plate 120 mounted on the cooling side of the 140 and transferred to the heat sink 130 mounted on the heating side of the Peltier element 140 . Hereinafter, the operating principle of the small dehumidifier using the Peltier element will be described in detail with reference to FIG. 5 .

5 is a view showing a schematic operating principle of a small dehumidifier using a Peltier element according to an embodiment of the present invention. As shown in FIG. 5 , when external air with high humidity enters through the ventilation hole 110 , it passes through the cooling plate 120 . At this time, the air is cooled to below the dew point through heat exchange between the cooling plate 120 and air. It can be removed by condensing moisture in the air. The cooled air passes through the heat sink 130 , and in the process, the air is heated again through heat exchange between the heat sink 130 and air, and then the heated air passes through the blower fan 150 and the exhaust hole 160 . can be discharged to the outside. The moisture removed through the Peltier element 140 may be stored by falling into the condensate storage 210 of the lower case 200 .

The lower case 200 may include a condensate reservoir 210 for storing condensed water condensed in the cooling plate 120 and a capacitor sensor unit 220 for measuring the level of condensed water contained in the condensate reservoir 210 . and may further include a temperature and humidity sensor 230 , a controller 240 , a communication unit 250 , a display unit 260 , an RGB LED lamp unit 270 , and a speaker 280 .

The capacitor sensor unit 220 is a sensor that is attached to the inner wall of the condensate reservoir 210 and can measure the level of the condensed water accommodated in the condensate reservoir 210 . The capacitor sensor unit 220 is made of a flexible material, and may be fixedly fixed without falling to the condensate reservoir 210 located inside the lower case 200 . The capacitor sensor unit 220 may be configured in the form of a thin plate made of copper electrodes.

The principle of the capacitor sensor unit 220 is to measure the water level using an electrostatic phenomenon in a container in which a liquid flows. More specifically, when the water level changes according to the amount of water, the portion occupied by air in the capacitor area and water The level of the condensate can be measured through the change in permittivity that occurs according to the ratio of the occupied part. In general, the electrostatic capacity of two opposing electrodes can vary depending on the dielectric constant of the material between the two faces. Hereinafter, the configuration and arrangement of the capacitor sensor unit 220 will be described in detail with reference to FIGS. 6 and 7 .

6 is a functional block diagram illustrating the configuration of a capacitor sensor applied to a small dehumidifier using a Peltier element according to an embodiment of the present invention, and FIG. 7 is a small dehumidifier using a Peltier element according to an embodiment of the present invention. It is a diagram showing the schematic arrangement of the capacitor sensor unit applied to the As shown in FIG. 6 , the capacitor sensor unit 220 includes a pair of main capacitor sensors 221 and a pair of reference capacitor sensors 222 for measuring the water level and incremental level units of the condensate storage 210 . ) may be included. More specifically, the pair of main capacitor sensors 221 are attached and formed in a long form to connect from the lower end to the upper end of the inner wall of the lower case 200 , and the pair of reference capacitor sensors 222 are attached to the lower case 200 . It may be attached and formed on the inner wall of 200 to have a shorter length than the main capacitor sensor 221 . In addition, as shown in FIG. 7 , a pair of main capacitor sensors 221 and a pair of reference capacitor sensors 222 are attached to the inner wall of the lower case 200 and installed with each other to prevent electric field interference. It can be arranged oppositely. At this time, the pair of main capacitor sensors 221 and the pair of reference capacitor sensors 222 are arranged in the condensate reservoir 210 only in length, that is, different in height, and the thickness, width, and spacing of the electrode sensors are the same. can

The temperature and humidity sensor 230 can measure the temperature and humidity around the dehumidifier in real time, and the control unit 240 is located adjacent to the temperature and humidity sensor 230 , and according to the temperature measured by the temperature and humidity sensor 230 , the optimum can calculate the humidity value of The most comfortable living humidity that a person feels is inevitably different depending on the ambient temperature. By entering the most optimal humidity that a person feels comfortable according to the temperature in advance in the control unit 240, the temperature measured by the temperature and humidity sensor 230 is displayed. You can calculate the most optimal humidity that suits you. Therefore, the dehumidifier can adjust itself to the most comfortable humidity that a person feels according to the real-time temperature, without the need for a person to set the humidity directly.

In this process, the control unit 240 can automatically turn on or off the power of the dehumidifier in order to adjust the ambient humidity to the optimum humidity calculated by the control unit 240 . More specifically, if the current humidity is lower than or equal to the optimum humidity according to the ambient temperature, the power of the dehumidifier can be automatically turned off, and if the current humidity is higher than the optimum humidity according to the ambient temperature, the power of the dehumidifier is automatically turned off. can be supplied with Accordingly, the dehumidifier can reach the optimum humidity by itself, and it is possible to increase the use efficiency of the power supply by preventing the supply of unnecessary power, and to increase the usage time of the small dehumidifier.

The communication unit 250 may wirelessly transmit the temperature and humidity measured by the temperature and humidity sensor 230 and the water level value of the condensed water storage 210 measured by the capacitor sensor 220 to the user device. That is, the user can know the temperature and humidity around the dehumidifier in real time through the user device, and according to the transmitted values, the dehumidifier can be turned on or off wirelessly without directly operating the dehumidifier. In addition, the water level value of the condensate storage 210 measured by the capacitor sensor unit 220 can be checked through the user device, so that it is possible to know when to discard the stored condensate before reaching the acceptance limit of the condensate storage 210 and , Depending on the situation, the power of the dehumidifier can be turned off wirelessly, and it is also possible to check the amount of moisture removed from the surrounding air.

The display unit 260 may display the temperature and humidity measured by the temperature and humidity sensor 230 and the water level value of the condensed water storage 210 measured by the capacitor sensor unit 220 . That is, as shown in FIG. 3 , the user checks the ambient temperature and humidity and the condensate water level of the condensate storage 210 in real time through the display unit 260 located outside the lower case 200 of the dehumidifier. it is possible The display unit 260 may be located outside the upper case 100 or the power supply unit 300 as well as the lower case 200 .

The RGB LED lamp 270 emits light when the water level value of the condensate reservoir 210 measured by the capacitor sensor unit 220 is greater than or equal to a preset value, and informs the user when to empty the condensate reservoir 210. have. Similarly, when the level value of the condensate reservoir 210 measured by the capacitor sensor unit 220 is greater than or equal to a preset value, the speaker 280 outputs a warning sound to inform the user when to empty the condensate reservoir 210 can give The RGB LED lamp 270 or the speaker 280 may be located in the upper case 100 or the power supply unit 300 as well as the lower case 200 .

The power supply unit may supply driving power to each component of the upper case 100 and the lower case 200 . That is, a type in which batteries are replaced and used, or a type in which the power of the power supply unit 300 is charged and used through a separate charging device is also possible.

The clip part 400 is a device that allows the dehumidifier to be fixed by hanging it on a pole, rod, or ring. In other words, by hanging it in each space such as a closet or study and using it in the right place that requires a small dehumidifier, it is possible to reduce the comfortable living humidity (40-60%) or the storage humidity for storing things (30% or less) in each space. can be tailored appropriately.

The air freshener 500 may be positioned adjacent to the upper surface of the discharge hole 160 to allow air discharged from the discharge hole 160 to pass therethrough. Therefore, by using the heated air discharged from the discharge hole 160, it is possible to increase the direction effect of the air freshener unit (500). The fragrance unit 500 may be configured to allow a user to put a desired fragrance.

The magnet 600 is located at each of the lower end of the upper case 100 and the upper end of the lower case 200 in which the upper case 100 and the lower case 200 are in contact with each other, the upper case 100 and the lower case ( 200) can be separated or combined. Similarly, the opening portion 700 is located at each of the lower end of the upper case 100 and the upper end of the lower case 200 in which the upper case 100 and the lower case 200 are in contact with each other, the upper case 100 and the lower case The case 200 may be rotated to engage with each other so that it can be opened or closed.

8 is a diagram illustrating a schematic coupling and separation method of a small dehumidifier using a Peltier device according to an embodiment of the present invention. As shown in FIG. 8 , the upper case 100 and the lower case 200 can be separated or combined, and the user separates the upper case 100 and the lower case 200 to collect the condensed water contained in the condensate reservoir 210 . can be discharged

The handle 800 is located on the outer side surface of the lower case 200 so that the lower case 200 can be easily gripped. In addition, it is also possible to make the outer side surface of the lower case 200 in a concave shape so that the lower case 200 can be easily grasped.

9 is a diagram illustrating a flow of a method for controlling a driving of a small dehumidifier using a Peltier element according to an embodiment of the present invention. As shown in FIG. 9 , in the method for controlling the driving of a small dehumidifier using a Peltier element according to an embodiment of the present invention, the moisture contained in the outside air is removed from the cooling plate and accommodated in the condensate reservoir (S110), a capacitor Step (S120) of the sensor unit measuring the level of condensed water accommodated in the condensate reservoir (S120), the step of measuring the ambient temperature and humidity by the temperature and humidity sensor (S130), the control unit calculating the optimum humidity according to the temperature measured by the temperature and humidity sensor (S130) S140) and automatically controlling whether or not power is supplied from the power supply unit according to the condensate water level value of the condensate storage unit measured by the capacitor sensor unit or the optimum humidity value calculated by the control unit (S150). Displaying the condensate water level value of the condensate storage unit measured by the sensor unit and the temperature and humidity values measured by the temperature and humidity sensor on the display unit (S160), and the condensate water level value of the condensate water storage unit measured by the capacitor sensor unit and measured by the temperature and humidity sensor It may be implemented by further comprising the step of communicating the temperature and humidity values with the user device (S170).

In step S110, the moisture contained in the outdoor air is removed from the cooling plate 120 and accommodated in the condensate storage 210, and in step S120, the capacitor sensor unit 220 measures the condensate water level contained in the condensate storage 210, and , in step S130, the temperature and humidity sensor 230 measures the ambient temperature and humidity, in step S140, the control unit 240 calculates the optimum humidity according to the temperature measured by the temperature and humidity sensor 230, in step S150 , automatically controls whether power is supplied from the power supply unit 300 according to the condensate water level value of the condensate water storage unit 210 measured by the capacitor sensor unit 220 or the optimum humidity value calculated by the control unit 240, step S160 In , the condensate water level value of the condensed water storage 210 measured by the capacitor sensor unit 220 and the temperature and humidity values measured by the temperature and humidity sensor 230 are displayed on the display unit 260, and in step S170, the capacitor sensor unit The condensate water level value of the condensate storage 210 measured in 220 and the temperature and humidity values measured by the temperature and humidity sensor 230 may be communicated with the user device.

Since the details related to each step have been sufficiently described in relation to the small dehumidifier using the Peltier device according to the embodiment of the present invention, the detailed description will be omitted.

As described above, according to the miniaturized dehumidifier using the Peltier element and the driving control method thereof according to an embodiment of the present invention, by using the Peltier element in the dehumidifier, it is possible to reduce the size of the dehumidifier compared to the conventional dehumidifier using a refrigerant gas, and low noise. It reduces power consumption and enables permanent use regardless of the place of use. Therefore, by using a small dehumidifier in the right place where it is needed, comfortable living humidity (40-60%) or storage humidity (30% or less) for storing things can be optimally adjusted for each space. Compared to the existing dehumidifier, it can be used more efficiently and environmentally friendly. In addition, by attaching a capacitor sensor unit made of a flexible material to the inner wall of the condensate reservoir in which the condensate is accommodated, the level value of the condensate accommodated in the condensate reservoir can be measured, and the measured value is communicated with the display unit or communication unit attached to the lower case. It can be checked in real time through the sending and receiving user device. Therefore, it is possible to prevent overflow of condensate in the condensate storage in an unexpected situation, and to check information such as how much moisture has been removed from the room. In addition, a temperature and humidity sensor is installed to measure the ambient temperature and humidity, and the control unit can calculate the optimum humidity according to the measured temperature, so that the indoor humidity is adjusted to the most optimal humidity that a person can feel. it is possible In addition, by interlocking the power supply unit and the control unit of the dehumidifier, power to the dehumidifier can be turned off or supplied to adjust the indoor humidity to the optimum humidity, and through this, the dehumidifier itself can control whether the dehumidifier operates.

Various modifications and applications of the present invention described above are possible by those skilled in the art to which the present invention pertains, and the scope of the technical idea according to the present invention should be defined by the following claims.

100: upper case
110: ventilator
120: cooling plate
130: heat sink
140: Peltier element
150: blow fan
160: exhaust hole
200: lower case
210: condensate reservoir
220: capacitor sensor unit
221: main capacitor sensor unit
222: reference capacitor sensor unit
230: temperature and humidity sensor
240: control unit
250: communication department
260: display unit
270: RGB LED lamp
280: speaker
300: power supply
400: clip part
500: air freshener
600: magnet
700: opening and closing part
800: handle
S110: A step in which moisture contained in outdoor air is removed from the cooling plate and accommodated in the condensate storage
S120: a step of measuring the level of the condensed water accommodated in the condensate storage by the capacitor sensor unit
S130: the temperature and humidity sensor measuring the ambient temperature and humidity
S140: step of the control unit calculating the optimum humidity according to the temperature measured by the temperature and humidity sensor
S150: A step of automatically controlling whether power is supplied from the power supply unit according to the condensate water level value of the condensate reservoir measured by the capacitor sensor unit or the optimum humidity value calculated by the control unit
S160: displaying the condensate water level value of the condensate reservoir measured by the capacitor sensor unit and the temperature and humidity values measured by the temperature and humidity sensor on the display unit
S170: communicating the condensate water level value of the condensate storage measured by the capacitor sensor unit and the temperature and humidity values measured by the temperature and humidity sensor with the user device

Claims (20)

In a small dehumidifier using a Peltier element,
The upper case 100 including a plurality of ventilation holes 110 for sucking the outside air at the lower end;
a cooling plate 120 disposed inside the upper case 100 to cool the outside air sucked in from the ventilation hole 110 to a dew point or less to condense water vapor contained in the air;
a heat sink 130 disposed inside the upper case 100 and positioned above the cooling plate 120 to heat the air cooled by the cooling plate 120 again;
It is disposed inside the upper case 100 and is located between the cooling plate 120 and the heat sink 130 to absorb heat from the cooling plate 120 and transfer the heat to the heat sink 130 . to the Peltier element 140;
a blower fan 150 disposed inside the upper case 100 and positioned on the upper side of the heat sink 130 to discharge the dehumidified air from the cooling plate 120;
a discharge hole 160 located on the upper side of the upper case 100 through which the air passing through the blowing fan 150 is discharged;
a lower case 200 coupled to and in contact with a lower surface of the upper case 100; and
It is located in the inner space of the lower case 200, including a condensed water storage 210 for storing the condensed water condensed in the cooling plate 120,
The lower case 200,
It is attached to the inner wall of the condensate reservoir 210, and further comprises a capacitor sensor unit 220 for measuring the level of the condensed water accommodated in the condensate reservoir 210,
The capacitor sensor unit 220,
A pair of main capacitor sensors 221 for measuring the water level and incremental level units of the condensate reservoir 210, and a pair of reference capacitor sensors 222, the pair of main capacitor sensors 221 is attached to the inner wall of the lower case 200 in a long form, and the pair of reference capacitor sensors 222 are shorter than the main capacitor sensor 221 on the inner wall of the lower case 200 . attached in the form of
The lower case 200,
It is configured to further include a temperature and humidity sensor 230 for measuring the ambient temperature and humidity in real time,
The lower case 200,
It is located adjacent to the temperature-humidity sensor 230 and further comprises a control unit 240 for calculating an optimal humidity value according to the temperature measured by the temperature-humidity sensor 230,
It is located adjacent to the upper surface of the discharge hole 160, further comprising a fragrance unit 500 through which the air discharged from the discharge hole 160 passes,
The upper case 100 and the lower case 200 are detachable, but the lower end of the upper case 100 and the lower case 200 in which the upper case 100 and the lower case 200 are in contact with each other. Further comprising a magnet 600 of different polarity on each of the upper ends of the
The capacitor sensor unit 220,
The pair of main capacitor sensors 221 and the pair of reference capacitor sensors 222 are attached and installed on the inner wall of the lower case 200, and are arranged to face each other to prevent electric field interference,
The capacitor sensor unit 220,
It is composed of a flexible material and is configured in the form of a thin plate plate made of a copper electrode that is fixedly fixed without falling to the condensate reservoir 210 located inside the lower case 200,
The upper case 100 and the lower case 200 are detachable, but the lower end of the upper case 100 and the lower case 200 in which the upper case 100 and the lower case 200 are in contact with each other. At each of the upper ends of the, it further comprises an opening and closing portion 700 that can be opened and closed by engaging with each other,
A small dehumidifier using a Peltier element, which is located on the outer side surface of the lower case 200 and further includes a handle 800 for easily holding the lower case 200 . delete delete delete delete delete According to claim 1, wherein the control unit 240,
A small dehumidifier using a Peltier element, characterized in that the power of the dehumidifier is automatically controlled in order to adjust the ambient humidity to the optimum humidity calculated by the control unit 240 . According to claim 1, wherein the lower case 200,
A communication unit 250 for wirelessly transmitting the temperature and humidity measured by the temperature and humidity sensor 230 and the water level value of the condensed water storage 210 measured by the capacitor sensor unit 220 to a user device is configured to further include A small dehumidifier using a Peltier element, characterized in that. According to claim 1, wherein the lower case 200,
and a display unit 260 for displaying the temperature and humidity measured by the temperature and humidity sensor 230 and the water level value of the condensed water storage 210 measured by the capacitor sensor unit 220 , a compact dehumidifier using a Peltier element. According to claim 1, wherein the lower case 200,
When the water level value of the condensed water storage 210 measured by the capacitor sensor unit 220 is equal to or greater than a preset value, the small size using a Peltier element, characterized in that it further comprises an RGB LED lamp 270 that emits light dehumidifier. According to claim 1, wherein the lower case 200,
When the level value of the condensed water storage 210 measured by the capacitor sensor unit 220 is greater than or equal to a preset value, a small size using a Peltier element, characterized in that it further comprises a speaker 280 for outputting a warning sound dehumidifier. According to claim 1,
A small dehumidifier using a Peltier element, characterized in that it further comprises a power supply unit 300 for supplying driving power to each component of the upper case 100 and the lower case 200. According to claim 1,
A small dehumidifier using a Peltier element, characterized in that it further comprises a clip portion 400 so as to be fixed by hanging on a pillar, a rod or a ring. delete delete delete delete As a driving control method of a small dehumidifier using a Peltier element,
The compact dehumidifier using the Peltier element includes: an upper case 100 including a plurality of ventilation holes 110 for sucking outside air at the lower end; a cooling plate 120 disposed inside the upper case 100 to cool the outside air sucked in from the ventilation hole 110 to a dew point or less to condense water vapor contained in the air; a heat sink 130 disposed inside the upper case 100 and positioned above the cooling plate 120 to heat the air cooled by the cooling plate 120 again; It is disposed inside the upper case 100 and is located between the cooling plate 120 and the heat sink 130 to absorb heat from the cooling plate 120 and transfer the heat to the heat sink 130 . to the Peltier element 140; a blower fan 150 disposed inside the upper case 100 and positioned on the upper side of the heat sink 130 to discharge the dehumidified air from the cooling plate 120; a discharge hole 160 located on the upper side of the upper case 100 through which the air passing through the blowing fan 150 is discharged; a lower case 200 coupled to and in contact with a lower surface of the upper case 100; and a condensed water storage 210 positioned in the inner space of the lower case 200 to store condensed water condensed in the cooling plate 120,
The lower case 200,
It is attached to the inner wall of the condensate reservoir 210, and further comprises a capacitor sensor unit 220 for measuring the level of the condensed water accommodated in the condensate reservoir 210,
The capacitor sensor unit 220,
A pair of main capacitor sensors 221 for measuring the water level and incremental level units of the condensate reservoir 210, and a pair of reference capacitor sensors 222, the pair of main capacitor sensors 221 is attached to the inner wall of the lower case 200 in a long form, and the pair of reference capacitor sensors 222 are shorter than the main capacitor sensor 221 on the inner wall of the lower case 200 . attached in the form of
The lower case 200,
It is configured to further include a temperature and humidity sensor 230 for measuring the ambient temperature and humidity in real time,
The lower case 200,
It is located adjacent to the temperature-humidity sensor 230 and further comprises a control unit 240 for calculating an optimal humidity value according to the temperature measured by the temperature-humidity sensor 230,
It is located adjacent to the upper surface of the discharge hole 160, further comprising a fragrance unit 500 through which the air discharged from the discharge hole 160 passes,
The upper case 100 and the lower case 200 are detachable, but the lower end of the upper case 100 and the lower case 200 in which the upper case 100 and the lower case 200 are in contact with each other. Further comprising a magnet 600 of different polarity on each of the upper ends of the
The capacitor sensor unit 220,
The pair of main capacitor sensors 221 and the pair of reference capacitor sensors 222 are attached and installed on the inner wall of the lower case 200, and are arranged to face each other to prevent electric field interference,
The capacitor sensor unit 220,
It is composed of a flexible material and is configured in the form of a thin plate plate made of a copper electrode that is fixedly fixed without falling to the condensate reservoir 210 located inside the lower case 200,
The upper case 100 and the lower case 200 are detachable, but the lower end of the upper case 100 and the lower case 200 in which the upper case 100 and the lower case 200 are in contact with each other. At each of the upper ends of the, it further comprises an opening and closing portion 700 that can be opened and closed by engaging with each other,
It is located on the outer side of the lower case 200, and further includes a handle 800 to easily hold the lower case 200,
(1) removing the moisture contained in the outside air from the cooling plate 120 and receiving the condensed water storage 210;
(2) measuring, by the capacitor sensor unit 220, the level of condensed water accommodated in the condensed water storage 210;
(3) the temperature and humidity sensor 230 measuring the ambient temperature and humidity;
(4) calculating the optimum humidity according to the temperature measured by the temperature and humidity sensor 230 by the control unit 240; and
(5) Whether power is supplied from the power supply unit 300 automatically according to the condensate water level value of the condensed water storage unit 210 measured by the capacitor sensor unit 220 or the optimum humidity value calculated by the control unit 240 . A driving control method of a small dehumidifier using a Peltier element, comprising the step of controlling. 19. The method of claim 18,
(6) displaying the condensed water level value of the condensed water storage 210 measured by the capacitor sensor 220 and the temperature and humidity values measured by the temperature and humidity sensor 230 on the display unit 260 A driving control method of a small dehumidifier using a Peltier element, characterized in that. 19. The method of claim 18,
(7) communicating the condensed water level value of the condensed water storage 210 measured by the capacitor sensor unit 220 and the temperature and humidity values measured by the temperature and humidity sensor 230 with a user device A driving control method of a small dehumidifier using a Peltier element.

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