JPH0236008Y2 - - Google Patents

Description

[Detailed Description of the Invention] (Industrial Application Field) The present invention relates to a dehumidifier, and particularly to a dehumidifier suitable for dehumidifying relatively small spaces such as closets and food storages.

(Prior Art) Conventionally, as dehumidifiers, room dehumidifiers and household air conditioners using compressors have been put into practical use.

(Problem that the invention aims to solve) However, these devices require a large dehumidifying capacity because they dehumidify a large space, and they also need to dehumidify a large amount in a short period of time. Because the compressor is large, there is a problem that it cannot be used to dehumidify small spaces such as closets and food storages. On the other hand, as means for dehumidifying these relatively small spaces, products packed with moisture absorbers are commercially available, but since these are disposable, they are extremely uneconomical.

(Means for solving the problem) As a means for solving this problem, the present invention provides a dehumidifier main body 1 having an intake port 7 and an exhaust port 8 on opposing side walls, as shown in the figure, An electronic cooling element 2 disposed inside the device body and having a heat absorption part and a heat generation part, heat exchangers 3 and 4 respectively attached to the heat absorption part and the heat generation part of the electronic cooling element 2, and the air intake port 7. After drawing outside air from the air and blowing it to the heat exchanger 4 attached to the heat absorption part of the electronic cooling element 2, the exhaust port 8
A dehumidifier is configured with an air blower 5 discharging air from the air blower, and the electronic cooling element 2 is tilted at a predetermined angle with respect to the center line of the air blower together with a heat exchanger on the heat absorption part side. It was designed so that the

In the embodiment of the present invention, a dew pan 6 is removably disposed below the heat exchanger 4 on the side of the heat absorption section. Further, the heat exchangers 3 and 4 are formed of heat sinks having a plurality of fins 3a and 4a arranged at a predetermined interval from each other, and the heat exchanger 4 on the heat absorption part side
is arranged so that the extending direction of the fins 4a is parallel to the air flow from the intake port 7 to the exhaust port 8, and the heat exchanger 3 on the heat radiation section side is provided at the upper part of the dehumidifier main body 1. It is arranged so as to face the heat radiation port 9.

Furthermore, in another embodiment, each of the heat exchangers 3 and 4 is constituted by a heat sink having a plurality of fins 4a arranged at a predetermined interval from each other; A heat pipe 10 is provided in the electronic cooling element 2 through the heat pipe, and the heat sink plate constituting one heat exchanger and the other heat exchanger are connected to the air flowing from the intake port to the exhaust port. They are arranged in a line at predetermined intervals in the direction of flow.

(Function) When direct current is applied to the electronic cooling element 2, heat is absorbed on the heat absorption part side, and the heat exchanger 4 on the heat absorption part side is cooled. At the same time, the humid air in the small space is sucked into the dehumidifier main body 1 by the blower 5 and collides with the heat exchanger 4 on the heat absorption side, and the moisture contained therein is transferred to the heat exchanger 4. Due to the temperature difference between the heat exchanger 4 and the heat exchanger 4, dew condenses into minute water droplets, which are attached to the surface of the heat exchanger 4, removed, and then discharged into the small space via the exhaust port 8, repeating the cycle.

Minute water droplets condensed on the surface of the heat exchanger 4 are
It grows gradually, but once it has grown to a certain extent, the heat exchanger 4 is tilted with respect to the direction of air flow, so
Due to the action of airflow and gravity, the liquid gradually flows down along the surface of the heat exchanger 4 toward its lower end, becomes droplets, falls from the lower end of the heat exchanger 4, and is collected in the dew pan 6.

On the other hand, the heat generated on the heat generating part side is released by heat exchange with the air in the dehumidifier main body 1 due to the action of the heat exchanger 3, and the heat generating part side is maintained at a temperature almost close to the air temperature in the small space. Ru.

(Embodiments) Hereinafter, embodiments of the present invention will be described with reference to the attached drawings.

FIG. 1 shows an embodiment of a dehumidifier according to the present invention, in which 1 is a dehumidifier main body, 2 is an electronic cooling element, 3 and 4 are
is a heat exchanger, 5 is a blower, 6 is a dew pan, and the dehumidifier body 1 has an intake port 7 on one end and an exhaust port 8 on the other end.
have.

The electronic cooling element 2 utilizes the Peltier effect, which is a phenomenon in which when a current is passed through a junction between dissimilar metals or semiconductors, heat is absorbed or generated at the junction depending on the direction in which the current flows. Second
As shown in the figure, a structure in which at least two thermoelectric elements, for example, an N-type semiconductor 2a, a P-type semiconductor 2b, and a metal plate 2c, are assembled electrically in series and thermally in parallel to form a pair. , and a heat exchanger 4 is connected to the heat absorption part side via a good heat conductive insulating material 2f.
However, a heat exchanger 3 is installed on the heat generating part side through 2 g of good heat conductive insulating material, with the heat absorbing part side facing down, and so that the air from the blower 5 hits the heat exchanger 4. That is, it is arranged so as to be inclined at a predetermined angle with respect to the center line of the blower.

The heat exchangers 3 and 4 are both made of heat sinks made of a material with good thermal conductivity such as aluminum,
A plurality of fins 3a arranged at predetermined intervals,
4a, and the heat exchanger 4 is attached to the electronic cooling element 2 so that the extending direction of the fins 4a is parallel to the direction of air blowing from the blower 5. Moreover, the heat exchanger 3 is located below the heat radiation port 9 formed in the upper part of the dehumidifier main body 1, and is formed larger than the heat exchanger 4 in order to increase the heat exchange capacity and prevent a temperature rise. ing.

The blower 5 consists of fins 5a and a motor 5b that rotates the fins 5a, and is connected to the air intake port 7 of the dehumidifier body 1.
It is located near the. A pull-out dew pan 6 is provided at the bottom of the dehumidifier body 1.

When using a dehumidifier with the above configuration, when a direct current is applied to the electronic cooling element 2, the heat absorption part of the electronic cooling element 2 absorbs thermal energy, so the heat exchanger 4 is cooled, and the temperature becomes approximately 40 to 60 degrees Celsius lower than the room temperature. Become. For this reason,
The humid air sucked in from the intake port 7 by the action of the blower 5 is transferred to the center line of the blower 5, that is, to the heat exchanger side, which is arranged at an angle with respect to the flow direction of the air. By colliding with and coming into contact with the surface of the heat exchanger 4, the moisture contained therein condenses on the surface of the heat exchanger 4 and becomes minute water droplets that adhere to the surface of the heat exchanger 4, resulting in dehumidification. . The minute water droplets condensed on the surface of the heat exchanger 4 gradually grow, but once they have grown to a certain extent, the heat exchanger 4 is tilted with respect to the direction of air flow, so the airflow and gravity act to exchange heat. The liquid gradually flows down along the surface of the heat exchanger 4 toward its lower end, forms droplets, falls from the lower end of the heat exchanger 4, and is collected in the dew pan 6.

As a result, the humid air in the small space is dehumidified inside the dehumidifier, is discharged into the small space through the exhaust port 8, circulates within the small space, and then enters the dehumidifier main body 1 again from the intake port. The cycle of being sucked in is repeated.

On the other hand, the heat generating part of the electronic cooling element generates heat, but this heat is transferred to the heat exchanger 3 and absorbed by the air in the dehumidifier body 1 that comes into contact with the heat exchanger 3.
Furthermore, since the heat exchange capacity of the heat exchanger 3 is made sufficiently large, the temperature of the heat generating portion is maintained at a temperature substantially close to the air temperature within the small space. Further, the air that has been slightly warmed by contacting the heat exchanger 3 is discharged into the small space through the heat radiation port 9 and exchanges heat with the air within the small space.

FIG. 3 shows another embodiment of the present invention, in which a heat exchanger 3 attached to the heat generating part is spaced at a predetermined interval in the direction of air flow from the intake port to the exhaust port. It is attached to the electronic cooling element 2 via the heat pipe 10 so as to be in line with the heat exchanger 4 attached to the heat absorption part and on the downstream side thereof, and the blower 5 is disposed on the exhaust port 8 side. has been done. Although any known heat pipe 10 can be used, in this embodiment, two aluminum plates are joined to form a plurality of mutually parallel cylindrical spaces between them, and a vacuum is created in the spaces. A heat pipe 10 with exhaust treated and sealed with working fluid is used, and the heat absorption side of the heat pipe 10 is connected to the electronic cooling element 2, the heat radiation side thereof is connected to the heat exchanger 3, and the heat pipe 10 is arranged at an angle with the heat absorption side facing downward. It has been set up. Therefore, in this embodiment, the heat exchange means on the heat radiating part side is composed of a heat radiating plate and the heat pipe 10, but the heat exchange means on the heat absorbing part side is composed only of the heat radiating plate. With this configuration, the overall shape can be made smaller than that of the dehumidifier shown in FIG. 1, and there is no need to provide heat radiation ports 9.

In this embodiment, the same effect as in the embodiment shown in FIG. I try to drain it out of the container. In addition, instead of attaching the heat pipe 10 to the heat generating part side of the electronic cooling element, it may be attached to the heat absorbing part side, or the heat pipe 10 may be inclined in the opposite direction depending on the type to be adopted. good.

(Effects of the invention) As is clear from the above explanation, according to the present invention, the following excellent effects can be obtained.

In other words, a compressor, condenser, etc. are required to absorb and generate heat using an electronic cooling element, and to cool the air with a heat exchanger attached to the heat absorption part, thereby condensing and removing moisture in the air. This makes it possible to reduce the size and weight of the dehumidifier, and at the same time efficiently dehumidify a small space.

In addition, since the heat exchanger on the heat absorption part side is facing down and is tilted so as to intersect at a predetermined angle with respect to the direction of air flow by the blower,
After the air sucked in from the intake port collides with the heat exchanger, it is forced to flow along the surface of the heat exchanger, especially along the direction of extension of the fins. connected through, increasing the efficiency of heat exchange,
Dehumidification can be performed efficiently.

Moreover, since the heat exchanger on the heat absorption part side is tilted, the falling position of the condensed water can be stabilized at a fixed position, specifically, at the lowest tip of the heat exchanger fins. The opening of the dew tray can also be made smaller.

Furthermore, in the second embodiment, a heat pipe is disposed between the heat generating part of the electronic cooling element and one of the heat exchangers, and heat exchange is performed between the heat generating part of the electronic cooling element and the heat absorbing part of the heat pipe. This system vaporizes the heat medium, and liquefies the vaporized heat medium through heat exchange between the heat dissipation part of the heat pipe and the heat dissipation plate. The same or higher heat conversion efficiency can be obtained, and since the cooled and dehumidified air is returned to its original temperature by the heat from the heat exchanger installed on the heat generating part side, the heat balance in the small space is balanced. The temperature within the small space is maintained at a constant temperature, so that the temperature within the small space does not drop, and therefore there is almost no adverse effect on the articles within the space.

[Brief explanation of the drawing]

Fig. 1 is a schematic vertical cross-sectional view of a dehumidifier showing one embodiment of the present invention, Fig. 2 is an explanatory drawing showing the structure of a thermoelectric cooling element, and Fig. 3 is a dehumidifier showing another embodiment of the present invention. FIG. 2 is a schematic longitudinal cross-sectional view of the vessel. 1 - dehumidifier main body, 2 - electronic cooling element, 2a, 2
b - thermoelectric element, 2c - metal plate, 3a, 4a - fin, 3, 4 - heat exchanger, 5 - blower, 6 - dew pan, 7 - intake port, 8 - exhaust port, 10 - heat pipe.

Claims (1)

[Scope of Claim for Utility Model Registration] (1) A dehumidifier main body having an intake port and an exhaust port on opposing side walls, an electronic cooling element disposed within the dehumidifier main body and having a heat absorption part and a heat generation part, A heat exchanger attached to a heat absorption part and a heat generation part of the electronic cooling element, respectively, and a blower that sucks outside air from the air intake port and blows air to the heat exchanger on the heat absorption part side of the electronic cooling element. The electronic cooling element is arranged with its heat absorption part side facing downward and inclined together with the heat exchanger attached to the heat absorption part so as to form a predetermined angle with respect to the center line of the blower. A dehumidifier characterized by: (2) The dehumidifier according to claim 1 of the utility model registration claim, wherein a dehumidifier is removably disposed below the heat exchanger on the heat absorption part side. (3) Each of the heat exchangers is composed of a heat sink having a plurality of fins arranged at a predetermined interval from each other, and the direction in which the fins of the heat exchanger on the heat absorption side extend is directed from the intake port to the exhaust port. Claims for registration of a utility model, wherein the heat exchanger on the side of the heat radiation part is arranged so as to be parallel to the air flow toward the mouth, and the heat exchanger on the side of the heat radiation part is arranged so as to face the heat radiation port provided at the upper part of the dehumidifier main body. The dehumidifier according to item 1 or 2. (4) Each of the heat exchangers is composed of a heat sink having a plurality of fins arranged at a predetermined interval from each other, and the heat sink of one of the heat exchangers is provided with a heat pipe, and the heat sink of one of the heat exchangers is provided with a heat pipe. A utility model registration request in which the heat exchanger is attached to the electronic cooling element through the heat exchanger, and the heat sink of one heat exchanger is arranged in a line with the heat sink of the other heat exchanger at a predetermined interval in the air blowing direction of the blower. The dehumidifier according to item 1 or 2.