JPH03109914A - Electronic drier - Google Patents

Abstract

PURPOSE:To prevent the drying capacity from deterioration by providing an ozone generator in the box body having draft holes. CONSTITUTION:When DC voltage is impressed on a cooling element 9, endothermic action is generated in the side of the heat absorbing side 9a, and cooling fins 8 are cooled, and the moisture in the air is dewed. In the heat radiation side of the cooling element 9, exothermic action is generated, and the heat is transmitted to the heat radiation fins 12 through a heat transmitting body 10, and radiated through the draft holes 3c. AC voltage is impressed on the ozone generator 22, and ozone is generated. AC voltage is reduced by a transformer 37 and rectified by a rectifying element 38. A blower 23 is driven by DC voltage smoothed by a smoothing condenser 39, and the ozone is discharged to the outside of the box body through the draft holes 4a to prevent odor generation. By this method, the cooling capacity is semipermanently maintained.

Description

[Detailed Description of the Invention] [Industrial Application Field] This invention relates to a device that dries the air inside a closet, shoe rack, etc. by electronically cooling it to cause dew, frost, or ice formation. be.

[Prior Art] Conventionally, in order to dry a predetermined space such as a closet, a wardrobe, a cabinet, the underside of a washing table, etc., a desiccant such as quicklime or calcium chloride is commonly used. This results in
I try to prevent mold from growing on my clothes, footwear, etc.

[Problems to be Solved by the Invention] The conventional drying means described above uses a desiccant to dry the air in the predetermined space, so there is a limit to the drying capacity, and drying with reduced capacity There is a problem in that the agent must be replaced again and again with a new one.

This invention was made in order to solve the above-mentioned problems, and an object of the present invention is to provide an electronic drying device that has high drying ability, can be maintained semi-permanently, and has mold-proofing and deodorizing abilities. shall be.

[Means for Solving the Problems] The electronic drying device according to the first aspect of the present invention includes an electronic cooling element, cooling fins fixed to the heat absorption side of the cooling element, and cooling fins fixed to the heat radiation side of the cooling element. A heat radiation fin and an ozone generator are housed in a box having ventilation holes.

The second invention of this invention is that of the first invention,
It is equipped with a blower that sends ozone out of the box.

[Function] First of this invention. In the invention, an electronic cooling element;
The cooling fins and radiation fins fixed to this, and the ozone generator are housed in a box with ventilation holes, so when the cooling element is energized, the heat absorption side has a heat absorption effect, and the heat radiation side has a heat radiation effect. As a result of condensation, frost, or ice forming on the surface of the cooling fins, moisture in the space outside the box body is absorbed through the ventilation holes. In addition, ozone generated from the ozone generator is released outside the box through the ventilation holes, and has a sterilizing effect on bacteria such as mold.

Further, in the second aspect of the present invention, since a blower for sending out ozone is provided, ozone can be sent out efficiently.

[Example] Figures 1 to 5 are diagrams showing an example of the present invention.
The figure is a partially cutaway front view, Figure 2 is a longitudinal right side view, Figure 3 is a cross-sectional view taken along line mm in Figure 2, Figure 4 is an enlarged view of the IV section in Figure 2, and Figure 5 is an electrical It is a circuit diagram.

In Figures 1 to 4, (1,) is a box body, which has an outer frame (2) that forms both sides and a bottom surface, and a frame (2) that also forms the front and rear surfaces and an upper surface and is attached to the outer frame (2). A stopper (2a) bent upward is formed at the rear of the bottom of the outer frame (2), and a wall plate (2b) is formed between both sides of the outer frame (2). is fixed, and a mounting seat (2c
), a mounting seat (2d) is similarly fixed to the lower part, and a stopper (2e) is fixed to the mounting seat (2d). There is a heat absorption ventilation hole (
3), a ventilation hole (3b) for heat radiation is provided on the left side, and a ventilation hole (3c) for heat radiation is provided at the rear of the top surface. In addition, there is a lever (18) at the bottom of the front that will be described later.
An operating groove (3d) is provided.

(4) is fixed to the outer frame (2) and wall board (2b) and the box body (
1) is a partition plate that separates the two parts on the left side. A ventilation hole (4a) for heat radiation is provided on the bottom surface, and this partitioned space has a fifth
The power supply circuit shown in the figure is housed, forming a power supply circuit section (5). The outer frame (6) is partially or entirely formed of a transparent body, and is placed on the bottom surface of the outer frame (2) so as to be movable in the front and back direction.
2) is a water storage tank that abuts the stopper (2a) at the stored position within the tank, and supports (6a) are fixed to the front and rear surfaces of the tank, and a hanger (7) for transportation is attached to this. (8) is a lid that covers the upper surface of the water storage tank (6), and fits onto the upper edge of the water storage tank (6) by a protrusion (8a) formed on the lower surface of the lid. The box body (1
) A cylindrical body (8b) communicating with the space on the inner side is fixed. (9) is an electronic cooling element that is placed in the space on the inner side of the box (1) and performs cooling by the Bertier effect, (9a) is on its heat absorption side, (9b) is also on its heat radiation side, and (10) is the cooling element. The partition plate (2b) is placed in close contact with the heat radiation side (9b) of (9).
(11) is a holder made of a poor thermal conductor and fixed to the partition plate (2b) to hold the heat transfer body (10); (1, 2) are the heat transfer bodies (10) A radiation fin having fin plates (12a) fixed to the rear end and arranged in parallel, (
13) is a cooling fin having parallel fin plates (13a) that are fastened to the holder (11) in close contact with the heat absorption side (9a) of the cooling element (9), and the fin plates (13a) are formed in the shape of a home base. Its upper and lower edges are shaped like blades. (1
4) is a full water detection switch that detects full water in the water storage tank (6), and is attached to the mounting plate (15) fixed to the mounting seat (2d).
is installed on. (16) is a lever that rotates around a pin (17) to activate the full water detection switch (14), and (18) has a rear end connected to a mounting seat (2d) by a pin (19).
), and the front end is connected to the cover (3d) through the operating groove (3d).
) is a lever that protrudes forward, and a water storage tank (
It has a stopper (18a) that engages with the front part of the stopper (2), and its lowered position is fixed to the mounting seat (2d).
e). Further, a pin (17) is supported on the lever (18), and a stopper (20) for regulating the lowering position of the lever (16) is fixed.

(21) is a flow I floating on the water in the water storage tank (6), and a shaft (21a) is fixed to the upper surface of the flow I, which is connected to the lever (1).
8), and the upper end of the shaft (21a) faces the lower edge of the lever (16). (22) is the ozone generator fixed to the wall plate (2b), (23) is the blower fixed to the partition plate (4), and (24) is attached to the mounting seat (2c) when suspending the entire device. It is a handle used for.

In Figure 5, (31) is a plug connected to a commercial AC power supply, (32) is a fuse, (33) is a timer that can set the on time and off time, (34) is a step-down transformer, (35) is a rectifying element connected to the secondary side of the transformer (34), and (36) is a smoothing capacitor connected to the DC side of the rectifying element (35), with a full water detection switch (1
A cooling element (9) is connected via 4).

(37) is a step-down transformer, (38) is a rectifier connected to the secondary side of the transformer (37), and (39) is a rectifier (3).
7) is a smoothing capacitor connected to the DC side, and a blower (23) is connected to both ends of the smoothing capacitor. Note that the ozone generator (22) is connected to an AC power source.

The electronic drying device configured as described above is used by being placed in a corner of a closet, wardrobe, etc. At this time, the condition of each part is as shown in Figs. 1 and 2, and the water storage tank (6) is housed in the outer frame (2), and the stopper (2a) is engaged with the water tank (6). The position can be determined. In addition, when water is not stored in the water storage tank (6), the float (21) is lowered, the lever (18) is also lowered, and the stopper (1, 8a) and the water storage tank (6) are lowered. Since they are engaged, the water storage tank (6) cannot be pulled out.

Next, when the plug (31) is connected to the power supply, the AC voltage is stepped down by the transformer (34), rectified by the rectifying element (35), and smoothed by the smoothing capacitor (36). applied to element (9). Now the cooling element (9
), an endothermic action occurs on the endothermic side (9th day) of the cooling fin (
13) is cooled, water vapor in the air condenses on its surface, and when the number of condensates increases, it becomes water droplets and drips from the tip of the lower part. Fin plate (13a) of cooling fin (J3)
Since the lower end is inclined downward and the upper and lower edges are formed in a blade shape, water droplets easily flow downward and drip. These water droplets pass through the cylindrical body (8b) of the lid (8) and are stored in the water storage tank (6).

On the other hand, heat generation occurs on the heat radiation side of the cooling element (9),
This heat is transmitted to the heat radiation fins (2) through the heat transfer body (10), and is radiated to the outside of the joint body (1) through the ventilation holes (3c).

As described above, the air outside the box body (1) is vented through the ventilation holes (3a
) through condensation on the cooling fins (■3),
Moisture is removed from the air outside the box (1) and the air is kept dry.

On the other hand, since an alternating current voltage is applied to the ozone generator (22), ozone is generated. Then, the AC voltage is transferred to a transformer (
37), rectified by the rectifying element (38), and smoothed by the smoothing capacitor (39), the blower (23) is driven, and the ozone is passed through the ventilation hole (4a) to the box (1). Released outside, it sterilizes mold, etc. and prevents odor generation.

Now, during use, water droplets are stored in the water storage tank (6), but most of the opening on the top surface of the water storage tank (6) is closed by the lid (8), and the cylindrical body (8b) is closed. Since only that part is open upward, the amount of water evaporated from the water storage tank (6) is limited, and the dehumidification effect of the cooling element (9) is rarely hindered. When the amount of water stored in the water storage tank (6) increases and becomes full, the water will cause the float (2) to
]) floats up, and the head of the shaft (21,a) is attached to the lever (J6
), the full water detection switch (14) is activated to cut off the circuit of the cooling element (9) and prevent the generation of water droplets due to dew condensation. At the same time, the alarm (22) sounds to notify that the water is full and urges the water to be removed.

Here, if you pull up the lever (18),
) rotates around the pin (19), and the float (21
) is pulled upward. Now the water storage tank (6)
Since the engagement between the stopper (18a) and the stopper (18a) is released, the water storage tank (6) can be pulled out forward.

Once the water storage tank (6) is pulled out, the hanger (7) can be removed and carried, and the water in the water storage tank (6) can be drained.

Store the empty water storage tank (6) inside the outer frame (2),
When you push down /<- (18), the lever (18) becomes horizontal position due to the stopper (2e), and the lever (16)
It becomes a horizontal position by the base 1 to the brim (20), and the full water detection switch (14) returns to its original position.

In addition, the power supply circuit section (5) is connected from the ventilation hole (4a) to the ventilation hole 0. Heat is radiated by air flowing to (3b).

If the box (1) tilts over a certain angle or falls over while using this device, the tilt detection switch (24) will operate and the alarm (23) will sound, reminding you to use it in the correct posture. prompt.

Note that the on time and off time of the timer (33) are set respectively depending on conditions such as season and purpose of use. For example, when used in a closet during the rainy season, the timer (33) is adjusted so that it is turned on continuously. This is because the ambient temperature is high during the rainy season, so the cooling fins (13) are
This is because the temperature does not drop below .degree. C. and no frost or ice forms, so the dew condensation continues even during continuous operation, allowing water to drip. Furthermore, when using it for a winter closet, the timer (33) is adjusted so that it is turned on for one hour and turned off for 10 minutes, for example. That is, when the ambient temperature is low, the temperature of the surface of the cooling fins (13) decreases, so that ice easily forms. By repeatedly turning it on and off at appropriate time intervals, ice can be melted and water can drip, thereby maintaining the moisture absorbing effect.

1.1 [Effects of the Invention] As explained above, in this invention, the electronic cooling element, the cooling fins and radiation fins fixed thereto, and the ozone generator are housed in a box having ventilation holes, so that the cooling element When energized, heat absorption occurs on the endothermic side, causing dew, frost, or ice formation on the surface of the cooling fins, which absorbs moisture from the space outside the box through the ventilation holes.9. Just by supplying it, the drying ability can be maintained semi-permanently, and moreover, it has the effect of exhibiting several times the moisture absorption ability of commercially available chemical desiccants. In addition, the ozone generated from the ozone generator is released outside the box through the ventilation holes and has a sterilizing effect on mold and other bacteria, so it can prevent mold and the associated odor from stored clothes and futons. effective.

Furthermore, in the second aspect of the present invention, since a blower is provided to send ozone out of the box, ozone can be sent out efficiently and can be spread quickly and uniformly into the space outside the box.

[Brief explanation of drawings]

12 FIGS. 1 to 5 are diagrams showing an embodiment of the electronic drying device according to the present invention. FIG. 1 is a partially cutaway front view, and FIG.
3 is a sectional view taken along the line m--m in FIG. 2, FIG. 4 is an enlarged view of the part 2 in FIG. 2, and FIG. 5 is an electric circuit diagram. In the figure, (1) is the box, (3a) is the ventilation hole, (6) is the water tank, (9) is the electronic cooling element, (9a) is the heat absorption side, (
9b) is a heat radiation side, (12) is a radiation fin, (13) is a cooling fin, (22) is an ozone generator, and (23) is a blower. Note that the same reference numerals in the figures indicate the same parts.

Claims (2)

[Claims] (1) An electronic cooling element that has a heat absorption side and a heat radiation side and absorbs heat on the heat absorption side and generates heat on the heat radiation side when energized, and is fixed to the heat absorption side of the cooling element and condenses due to absorption of the heat; A cooling fin that forms frost or ice and a heat radiation fin fixed to the heat radiation side of the cooling element are housed in a box having ventilation holes, and an ozone generator that generates ozone when energized is housed in the box. An electronic drying device characterized by being provided with. (2) The electronic drying device according to claim 1, further comprising a blower provided inside the box body to send ozone generated from the ozone generator out of the box body through a ventilation hole.