JP2003269746A5 - - Google Patents

Description

[0022]
In the invention according to claim 3 of the present invention, the heat exchanger is taken from the intake for taking in the circulating air, the taking-out from which the circulating air is taken out, the water draining hole for discharging the condensed condensation water, and the intake Single-layer heat formed from a single hollow resin molded part having a first heat exchange area in which the circulating air flows substantially downward and a second heat exchange area in which the circulating air taken out from the outlet flows substantially upward It is configured as an exchanger. And according to the present invention, the heat exchange capacity is secured by supplementing the decrease of the heat transfer area with the conventional double-layer heat exchanger by the increase of the heat passing rate due to the increase of the passing speed of the circulating air, It is possible to obtain a dehumidifying device capable of facilitating carrying of the main body by achieving an inexpensive configuration that does not require fixing brackets and packing, and achieving downsizing, especially thinning and lightening of the heat exchanger section. .

[0030]
The invention according to claim 11 of the present invention is configured to be provided with a control means for stopping the heating means, the first blower fan, the second blower fan and the drive means substantially simultaneously when stopping the dehumidifying operation. It is. Further, according to the present invention, when the dehumidifying operation is stopped, the delay operation performed to prevent a problem such as water leakage due to the accumulation of condensed water in the vicinity of the second blower fan is set to the second blower fan. Since it is eliminated by providing drainage means for draining condensation water that has been generated, energy for that amount can be saved, and a dehumidifier that can be configured inexpensively without a control device such as a CPU or memory, etc. Is obtained.
The invention according to claim 12 of the present invention is an absorbent material which absorbs moisture from room air in the hygroscopic region, is dehumidified by heating in the regeneration unit, heating means for heating the regeneration unit, indoor air, and the regeneration. A heat exchanger for exchanging heat with relatively high temperature / humidity circulating air containing moisture dehumidified in the part, a first blower fan for supplying room air to the heat exchanger and the moisture absorbing part, and A second blower fan that circulates the circulating air to the regeneration unit, the heat exchanger, and the heating unit; and a driving unit that rotates the adsorbent so that the moisture absorbing unit and the regeneration unit are continuously or intermittently replaced. In the dehumidifier, the heat exchanger cools the moisture dehumidified by the heat exchanger with room air and recovers it as condensed water, the heat exchanger has a configuration to turn the flow direction of the circulating air. It is obtained by as. And according to the present invention, the heat exchange capacity to supplement the decrease of the heat transfer area of the heat exchanger is secured, and the miniaturization, in particular the thickness reduction and the weight reduction of the heat exchanger part are achieved, and the carrying of the main body is easy. A dehumidifier can be obtained.
The invention according to a thirteenth aspect of the present invention is the dehumidifying device according to the twelfth aspect, wherein the heat exchanger is further configured. And according to the present invention, the heat exchange capacity to supplement the decrease of the heat transfer area of the heat exchanger is secured, and the miniaturization, in particular the thickness reduction and the weight reduction of the heat exchanger part are achieved, and the carrying of the main body is easy. A dehumidifier can be obtained.

[0052]
As described above, in the present embodiment, the heat exchanger 108 includes the inlet 117 for taking in circulating air, the outlet 118 for taking out the circulating air, the water removing hole 112 for discharging condensed condensed water, and the taking-in A single hollow resin molded component comprising a first heat exchange area 2 in which circulation air taken in from the mouth flows substantially downward and a second heat exchange area 3 in which circulation air taken out from the outlet flows substantially upward The single-layer heat exchanger 12 is configured as the single-layer heat exchanger 12, and the reduction in the heat transfer area is supplemented with the increase in the heat transfer rate due to the increase in the circulating air passage speed compared to the conventional double-layer heat exchanger 120. As a result, the heat exchange capacity is secured to realize an inexpensive configuration that does not require the fixing fitting 121 and the packing, and downsizing, in particular, making the heat exchanger portion thinner and lighter, and easy to carry the main body It is is able to.

[0094]
In addition, the heat exchanger has an intake for taking in circulating air, an outlet for taking out circulating air, a drain hole for discharging condensed condensation water, and circulating air taken in from the inlet flow substantially downward. (1) A single-layer heat exchanger comprising a single hollow resin molded part having a heat exchange area and a second heat exchange area in which the circulating air taken out from the outlet port flows substantially upward The reduction of the heat transfer area compared to the conventional two-layer heat exchanger
The heat transfer rate is increased by the increase of the passage speed to supplement the heat transfer rate to secure the heat exchange capacity, and to enable an inexpensive configuration that does not require a fixing bracket or packing, and to miniaturize the heat exchanger, in particular It is possible to provide a dehumidifying device having an effect of reducing the weight and facilitating the carrying of the main body.

[0102]
In addition, when stopping the dehumidifying operation, when stopping the dehumidifying operation by providing a control unit that causes the heating unit, the first blower fan, the second blower fan, and the driving unit to stop substantially simultaneously. The delay operation performed to prevent problems such as water leakage due to the accumulation of condensation water in the vicinity of the second blower fan is eliminated by providing drainage means for draining the condensation water generated in the second blower fan As a result, energy can be saved accordingly, and a dehumidifying device can be provided that has an advantageous configuration that does not have a control device such as a CPU and a memory.
In addition, the heat exchanger is configured to turn the flow direction of the circulating air, thereby securing a heat exchange capacity to supplement the decrease in the heat transfer area of the heat exchanger, thereby achieving downsizing, in particular, the heat exchanger section Thus, it is possible to provide a dehumidifying device capable of making the main body easy to carry by achieving thinning and weight reduction.
In addition, by forming the heat exchanger in a single layer, the heat exchange capacity to compensate for the decrease in the heat transfer area of the heat exchanger is secured, and the miniaturization, in particular, the thickness reduction and weight reduction of the heat exchanger portion It is possible to provide a dehumidifying device that can easily carry the main body.

Claims (13)

An absorbent material which absorbs moisture from room air in the hygroscopic unit, heats, dehumidifies and regenerates in the regeneration unit, heating means for heating the regeneration unit, room air, and moisture including moisture to be dehumidified in the regeneration unit Heat exchanger for heat exchange with high-temperature, high-humidity circulating air, a first blower fan for supplying room air to the heat exchanger and the hygroscopic unit, the regeneration unit, the heat exchanger, and the heating means And a drive means for rotating the adsorbent so that the moisture absorbing part and the regenerating part are replaced continuously or intermittently, and the moisture dehumidified in the regenerating part In the dehumidifying apparatus, the heat exchanger cools with room air and recovers as condensed water, the heat exchanger includes a first heat exchange area in which the circulating air taken in flows substantially downward, and the circulating air taken out substantially. Room air supplied to the first heat exchange area mainly to the first moisture absorption area of the hygroscopic area in the previous stage of the regenerating area in the rotational direction of the adsorbent; A dehumidifier characterized in that room air supplied and supplied to the second heat exchange area is mainly supplied to the second moisture absorption area of the moisture absorption section downstream of the regeneration section in the rotational direction of the adsorbent. . An absorbent material which absorbs moisture from room air in the hygroscopic unit, heats, dehumidifies and regenerates in the regeneration unit, heating means for heating the regeneration unit, room air, and moisture including moisture to be dehumidified in the regeneration unit Heat exchanger for heat exchange with high-temperature, high-humidity circulating air, a first blower fan for supplying room air to the heat exchanger and the hygroscopic unit, the regeneration unit, the heat exchanger, and the heating means And a drive means for rotating the adsorbent so that the moisture absorbing part and the regenerating part are replaced continuously or intermittently, and the moisture dehumidified in the regenerating part In the dehumidifying apparatus, the heat exchanger cools with room air and recovers as condensed water, the heat exchanger includes a first heat exchange area in which the circulating air taken in flows substantially downward, and the circulating air taken out substantially. Room air supplied to the second heat exchange area mainly to the first moisture absorption area of the hygroscopic area in the previous stage of the regenerating area in the rotational direction of the adsorbent; A dehumidifier characterized in that room air supplied and supplied to the first heat exchange area is mainly supplied to the second moisture absorption area of the moisture absorption section downstream of the regenerating section in the rotational direction of the adsorbent. . A heat exchanger, an inlet for taking in circulating air, an outlet for taking out circulating air, a drain hole for discharging condensed condensed water, and a first heat in which the circulating air taken in from the inlet flows substantially downward A single-layer heat exchanger comprising a single hollow resin molded component including an exchange area and a second heat exchange area in which the circulating air taken out from the outlet port flows substantially upward. The dehumidifying device according to 1 or 2. 4. A dehumidifying apparatus according to claim 3, wherein the inlet is disposed at a position lower than the outlet in the vertical direction, and the drain hole is disposed at a position lower than the inlet. A chamber for equalizing the temperature and humidity of high temperature and high humidity circulating air containing moisture dehumidified in the regeneration unit is interposed between the regeneration unit and the heat exchanger. , 3 or 4 dehumidifier. 6. A dehumidifying apparatus according to claim 5, wherein the chamber is integrally formed with a partition wall for dividing the room air supplied to the moisture absorbing portion by the front and back of the adsorbent. The depth of the chamber in the traveling direction of the circulating air is limited by the distance between the heat exchanger and the adsorbent as the upper limit, and the pressure gradient due to streamline separation of the air flow in the heat exchanger of the room air supplied to the hygroscopic section is attenuated The dehumidifier according to claim 6, wherein the lower limit is a possible distance. The air volume adjusting means for adjusting the air volume of the circulating air is provided on a partition wall for dividing room air supplied to the moisture absorbing section by the front and back of the adsorbent. Dehumidifier according to 6 or 7. 9. A dehumidifier according to claim 8, wherein the air flow rate adjusting means is a duct interposed between the heat exchanger and the second blower fan and having a downward slope in the direction of the heat exchanger. 10. The dehumidifying device according to claim 1, wherein a draining means for draining condensation water generated in the second blower fan is provided. 11. The dehumidifier according to claim 10, further comprising control means for stopping the heating means, the first blower fan, the second blower fan and the drive means substantially simultaneously when stopping the dehumidifying operation. An absorbent material which absorbs moisture from room air in the hygroscopic unit, heats, dehumidifies and regenerates in the regeneration unit, heating means for heating the regeneration unit, room air, and moisture including moisture to be dehumidified in the regeneration unit Heat exchanger for heat exchange with high-temperature, high-humidity circulating air, a first blower fan for supplying room air to the heat exchanger and the hygroscopic unit, the regeneration unit, the heat exchanger, and the heating means And a drive means for rotating the adsorbent so that the moisture absorbing part and the regenerating part are replaced continuously or intermittently, and the moisture dehumidified in the regenerating part In the dehumidifying apparatus, the heat exchanger cools with room air and recovers as condensed water by the heat exchanger, wherein the heat exchanger is configured to turn the flow direction of the circulating air. The dehumidifier according to claim 12, characterized in that the heat exchanger is a single layer.