KR200194247Y1 - Dehumifier with thermo electric module - Google Patents

Abstract

The present invention relates to a dehumidifier, the inlet 14 is formed in the front of the housing 10, the inlet 16 is formed with a blower fan 22 is attached to the rear and the blower fan 24 is attached to the top An exhaust port 18 is formed, and a drain hole 19 is formed at a bottom thereof, and a humidity sensor 30 for detecting humidity of a space to be dehumidified is attached to a predetermined portion of the housing 10, and outside the housing 10. A key panel 40 is installed to allow a user to set a desired humidity rate, and a cold sink 52 and a heat sink 54 are installed on both sides of the housing 10 so that the cold sink 52 is provided with a front suction port. The thermoelectric element 50 is installed to the side of the thermoelectric element 50 so as to be spaced apart from the bottom surface of the housing 10 at a predetermined interval, and the upper portion of the cold sink 52 of the thermoelectric element 50 is cold sink 52. Install a blocking plate (60) to prevent the discharge to the upper through), the humidity sensor (30) On the basis of the signal output from the key panel 40, the control unit 70 for controlling the operation of the blower fan 22, 24 and the thermoelectric element 50 is installed in a predetermined place of the housing 10, the inside of the dehumidifier It is to increase the amount of inlet in the furnace, increase the residence time of the inlet dehumidifier, improve the dehumidification efficiency, and allow the user to freely adjust the desired humidity.

Description

Dehumidifier with thermoelectric module {Dehumifier with thermo electric module}

The present invention relates to a dehumidifier using a thermoelectric element, and more particularly, to form an intake port in the front of the housing, and to form an intake port with a blowing fan at the rear, and to form an exhaust port with a blowing fan at the top, By attaching a humidity sensor, and installing a key panel on the outside of the housing so that the user can adjust the desired humidity rate, a cold sink is installed inside the housing to the front intake vent and a heat sink is installed on the opposite side. The present invention relates to a dehumidifier using a thermoelectric element to improve a dehumidification efficiency and to allow a user to freely adjust a desired humidity.

In general, in order to protect electronic equipment sensitive to humidity, to control humidity suitable for work in a manufacturing plant, or to sterilize and clean at home or a laboratory, a predetermined machine or a chemical is used to remove moisture.

As described above, a conventional dehumidifier for removing moisture, that is, a dehumidifier, forms an intake port at a lower part of the housing, and attaches a thermoelectric element having a heat sink and a cold sink to the inside of the housing, and blows air at the upper part of the housing. A fan is provided with an exhaust port, and a humidity sensor is attached to the inside of the housing, and the thermoelectric element is controlled according to the humidity level set at the time of manufacturing the dehumidifier.

However, since the conventional dehumidifier is forcibly discharged air containing moisture introduced into the lower air intake port from the upper blower fan to the outside, the dehumidification time inside the dehumidifier of the air containing moisture is short, so that smooth dehumidification is not achieved. Since the humidity rate for controlling the temperature of the thermoelectric element is set at the time of manufacture of the dehumidifier, there is a problem in that the dehumidifier cannot be used in a desired space with a humidity greater than the set humidity rate.

An object of the present invention for solving the above problems is to form an intake port in the front of the housing, and to form an intake port with a blowing fan attached to the rear, and to form an exhaust port with a blowing fan at the top, the humidity sensor in the housing The key panel is installed on the outside of the housing to adjust the humidity rate desired by the user, and the inside of the housing is installed with a cold sink on the side of the front intake vent and a thermoelectric element on which the heat sink is installed on the opposite side for dehumidification efficiency. In addition to improving this, and to provide a dehumidifier using a thermoelectric element that allows the user to freely adjust the desired humidity.

1 is a partial cutaway perspective view showing a dehumidifier using a thermoelectric device according to the present invention

2 is a cross-sectional view taken along the line A-A of FIG.

* Description of the symbols for the main parts of the drawings *

10 housing 12 protrusion guide

14, 16: intake port 18: exhaust port

19: drain hole 22, 24: blowing fan

30: humidity sensor 40: key panel

50: thermoelectric element 52: cold sink

54 heat sink 60 blocking plate

70: control unit

An embodiment of the present invention for achieving the above object will be described in more detail with reference to the accompanying drawings.

1 is a perspective view showing a dehumidifier using a thermoelectric device according to the present invention, Figure 2 is a cross-sectional view taken along line A-A of FIG.

The dehumidifier using the thermoelectric element according to the present invention is formed with a projection guide 12 for attaching the wall at the rear, the inlet 14 and 16 is formed in the front lower and rear lower, the exhaust port 18 is formed in the upper portion and the drain at the lower portion The hole 10 is formed to form a space between the rear surface and the wall when the wall is attached, the intake blower fan 22 installed in the rear inlet 16 of the housing 10, the exhaust port ( An exhaust blower fan 24 installed at 18), a humidity sensor 30 installed at a predetermined location of the housing 10 to detect humidity of a space to be dehumidified and output a signal corresponding thereto, and a housing 10 Installed on the outer periphery, the user can select the desired humidity rate, the key panel 40 to select various operation modes (eg dehumidification start, stop, etc.) of the dehumidifier, and the cold sink 52 on both sides ) And heat sink 54 are installed to The cold sink 52 is positioned on the inlet 14 and the space is formed between the bottom and the bottom of the housing 10, and the cold sink 52 of the thermoelectric element 50. Blocked to define the flow path so that the air flowed into the front intake port 14 installed in the upper portion passes through the cold sink 52 and is discharged to the exhaust port 18 through the lower portion of the thermoelectric element 50 and the heat sink 54. The control unit 70 controls the operation of the blower fan 22 and the thermoelectric element 50 based on the plate 60 and the signals output from the humidity sensor 30 and the key panel 40. It is composed.

In the drawings, reference numeral 56 denotes a transformer for driving the thermoelectric element 50.

An embodiment of the present invention configured as described above will be described below.

First, when a user operates a key panel 40 to set a desired humidity rate and operates a dehumidifier, the control unit 70 drives the plurality of blowing fans 22 and 24 and the thermoelectric element 50.

As described above, when the plurality of blowing fans 22 and 24 and the thermoelectric element 50 are driven, air containing moisture in a space to be dehumidified is provided through the front inlet 14 and the rear inlet 16. Moisture condenses by the thermoelectric element 50 introduced therein, and the condensed water is discharged to the outside through the lower drain hole 19, and the air from which the moisture is removed is discharged to the upper exhaust port 18.

On the other hand, in the dehumidification process as described above, the air introduced into the front inlet 14 is condensed with moisture while contacting the cold sink 52, the condensed water is dropped to the bottom surface of the housing 10 to drain the drain hole 19 The air discharged to the outside and the moisture is removed is blocked by the upper blocking plate 60 through the lower portion of the thermoelectric element 50 is heated while contacting the heat sink 54, the exhaust blower fan 24 is installed in the exhaust port (18) Is discharged to the exhaust port 18.

In addition, the air introduced into the rear intake port 16 by the intake air blow fan 22 is cold sink 52 through the lower end of the heat sink 54 and the thermoelectric element 50 by the wind power of the intake air blow fan 22. After being reversed to the side, it is blocked by the blocking plate 60 and discharged to the upper exhaust port 18 through the lower portion of the thermoelectric element 50 and the heat sink 54, wherein the moisture contained in the intake air is heated and the heat sink 54 is cold. Condensed while passing through the sink 52 and discharged to the outside through the drain hole 19 in the lower portion, the outside air flowed into the rear intake 16 is caused by the wind power of the intake blower fan. Since this becomes longer, the dehumidification efficiency is greatly improved.

During the dehumidification process, the humidity sensor 30 continuously detects humidity in a space to be dehumidified and outputs a signal corresponding to the controller 70, and the controller 70 is output from the humidity sensor 30. When the humidity rate of the space to be dehumidified based on the signal falls below the humidity rate set by the user, the operation of the exhaust blower fan 24, the intake blower fan 22, and the thermoelectric element 50 is stopped and dehumidified. When the humidity in the space becomes greater than or equal to the set value, the control unit 70 restarts the plurality of blower fans 22 and 24 and the thermoelectric element 50.

Therefore, according to the present invention, the amount of inlet inside the housing 10 is greatly increased by the rear intake port 16 and the intake air blowing fan 22, and the air residence time is increased in the housing 10, and the amount of moisture is increased. Since the air on the wall side is introduced into the rear intake port 16, the dehumidification efficiency is greatly improved, and the humidity rate in the space to be dehumidified can be maintained at a value desired by the user.

According to the present invention configured as described above, the amount of inlet inside the housing is greatly increased by the rear intake vent and the intake blower fan, and the air introduced into the rear intake vent by the intake blower fan stays in the housing for a long time. Since the air on the wall side is introduced into the rear suction port, the dehumidification efficiency is greatly improved, and through the key panel, the user can freely adjust the humidity rate of the space to be dehumidified.

Claims (1)

In the dehumidifier, Protruding guide 12 for wall attachment is formed at the rear, inlet 14 and 16 are formed at the front lower part and rear lower part, exhaust port 18 is formed at the upper part, and drain hole 19 is formed at the lower part. A housing 10 having a space formed between the rear surface and the wall surface; An air intake blower fan 22 installed in the rear intake port 16 of the housing 10; An exhaust blower fan 24 provided in the exhaust port 18; A humidity sensor 30 installed at a predetermined location of the housing 10 to detect humidity of a space to be dehumidified and output a signal corresponding thereto; A key panel 40 installed at an outer circumference of the housing 10 to allow a user to select a desired humidity rate and to select various operation modes (eg, dehumidification start, stop, etc.) of the dehumidifier; Cold sinks 52 and heat sinks 54 are provided at both sides to allow the cold sinks 52 to be positioned at the front inlet 14 of the housing 10 and between the bottom and bottom of the housing 10. A thermoelectric element 50 installed to form a space portion; The air installed in the upper portion of the cold sink 52 of the thermoelectric element 50 and introduced into the front intake port 14 passes through the cold sink 52 and then exhausts through the lower portion of the thermoelectric element 50 and the heat sink 54. A blocking plate 60 defining a flow path to be discharged to 18; Characterized in that the control unit 70 for controlling the operation of the blower fan 22, 24 and the thermoelectric element 50 on the basis of the signal output from the humidity sensor 30 and the key panel 40, Dehumidifier using thermoelectric element.