JP2005291654A - Bathroom drier - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a bathroom drier capable of efficiently driving a wind direction adjusting louver without using a speed reducer. <P>SOLUTION: A fan is arranged in a casing so as to straddle a circulating passage, a first exhaust air passage and a second exhaust air passage. An adsorbent rotor 18 and a hot water type heat exchanger are arranged so as to straddle the circulating passage and the first exhaust air passage by sandwiching this fan. A movable wind direction adjusting louver 21 having a large number of wind direction plates 23 for automatically changing the blowing-off direction of air for enhancing dehumidifying capacity by uniformly blowing off high temperature-low humidity air in a bathroom, is arranged in an air supply port arranged in the circulating passage for blowing off the high temperature-low humidity air heated by the hot water type heat exchanger in the bathroom after being dehumidified by the adsorbent rotor 18. This wind direction adjusting louver 21 rocks a large number of wind direction plates 23 by using motive power of the adsorbent rotor 18 rotating at low speed by a driving motor 20. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a bathroom dryer for dehumidifying the inside of a bathroom.

  As a domestic bathroom dryer installed in the bathroom so that the inside of the bathroom of a general household can be used as a drying room for clothes or the like, there is, for example, the one shown in FIG. As shown in the figure, the bathroom dryer 50 divides the inside of the casing to form a circulation path SR and an exhaust path ER, and the circulation path SR has an intake port 51 opened in the bathroom. And the exhaust port 52 is provided with an exhaust port 53 that is open to the outside in the exhaust path ER.

  A fan 54 is installed in the casing so as to straddle the circulation path SR and the exhaust path ER, and a part of the air in the bathroom sucked from the intake port 51 passes through the circulation path SR and the exhaust path ER. Then, the air is exhausted from the exhaust port 53 to the outside, and the remaining air is returned to the bathroom from the air outlet 52 through the circulation path SR.

  Further, an adsorbent rotor 55 that rotates at a low speed is installed in the casing so as to straddle the circulation path SR and the exhaust path ER. In the circulation path SR, a heating unit 56 is provided downstream of the fan 54. is set up.

  Therefore, when the bathroom dryer 50 is operated, when the air in the bathroom sucked from the air inlet 51 passes through the adsorbent rotor 55, the moisture in the air is adsorbed by the adsorbent rotor 55, and then the heating means 56. Since the high-temperature and low-humidity air heated by the air is returned to the bathroom, the interior of the bathroom is dehumidified.

  Further, part of the high-temperature and low-humidity air heated by the heating unit 56 enters the exhaust path ER and passes through the adsorbent rotor 55 and is discharged to the outside. However, the high-temperature and low-humidity air passes through the adsorbent rotor 55. At this time, the adsorbed water is released from the adsorbent rotor 55, so that the reduced water adsorbing capacity of the adsorbent rotor 55 is recovered, and the adsorption and regeneration of the adsorbent rotor 55 are continuously repeated. Become.

  Further, in such a bathroom dryer 50, in order to enhance the dehumidifying capacity by blowing the dehumidified air uniformly into the bathroom, the air outlet 52 has a movable wind direction adjusting louver that automatically swings. These wind direction adjustment louvers are usually driven by using an independent dedicated motor, but a dedicated motor is provided to reduce the number of parts and product cost. It is also proposed to drive using the power of the fan.

Japanese Patent Laid-Open No. 11-270897

  By the way, the wind direction adjusting louver employed in the bathroom dryer 50 must be slowly swung. However, if the wind direction adjusting louver is swung using the power of a fan rotating at high speed, the air direction adjusting louver is swung. In order to decelerate the rotational speed of the fan rotating at high speed, a speed reducer must be provided, and there is a problem that the number of parts and the product cost cannot be effectively reduced.

  Then, the subject of this invention is providing the bathroom dryer which can drive a wind direction adjustment louver efficiently, without using a reduction gear etc.

  In order to solve the above-mentioned problem, the invention according to claim 1 is directed to an adsorbent rotor that dehumidifies by adsorbing moisture in the air sucked from a bathroom, and dehumidified by the adsorbent rotor. In a bathroom dryer provided with a movable wind direction adjusting louver installed at an air supply port for blowing out fresh air into the bathroom, the wind direction adjusting louver is driven using the power of the adsorbent rotor. The present invention provides a bathroom dryer characterized by the above.

  As described above, in this bathroom dryer, the movable wind direction adjusting louver is usually driven by using the power of the adsorbent rotor rotating at a low speed, so that it rotates at a high speed. Unlike the case where the wind direction adjusting louver is driven using the power of the fan, it is not necessary to provide a speed reducer, and the number of parts and the product cost can be effectively reduced. In addition, the air direction adjustment louver is driven in synchronization with the rotation of the adsorbent rotor, so that the air dehumidified by the adsorbent rotor is always blown uniformly into the bathroom, effectively in the bathroom. Can be dehumidified.

  Hereinafter, embodiments will be described with reference to the drawings. As shown in FIG. 1, the bathroom dryer 1 divides the inside of the casing 11 to form a circulation path SR, a first exhaust path ER1, and a second exhaust path ER2, and the circulation path SR includes The first air inlet 12 and the air inlet 13 opened in the bathroom are open to the first exhaust path ER1, the first air outlet 14 opened outdoors, and the second exhaust path ER2 is opened in the bathroom. The second intake port 15 and the second exhaust port 16 opened to the outdoors are provided.

  A fan 17 is installed in the casing 11 so as to straddle the circulation path SR, the first exhaust path ER1 and the second exhaust path ER2, and a part of the air in the bathroom sucked from the first air inlet 12 Is exhausted to the outside from the first exhaust port 14 through the circulation route SR and the first exhaust route ER1, and the remaining air is blown out from the air supply port 13 through the circulation route SR into the bathroom. The air in the bathroom sucked from the intake port 15 is discharged to the outside from the second exhaust port 16 through the second exhaust path ER2.

  Further, the casing 11 rotates at a low speed to the upstream side of the fan 17 in the circulation path SR and the downstream side of the fan 17 in the first exhaust path ER1 so as to straddle the circulation path SR and the first exhaust path ER1. The adsorbent rotor 18 that alternately passes through the circulation path SR side and the first exhaust path ER1 side is installed, and the casing 11 circulates so as to straddle the circulation path SR and the first exhaust path ER1. A hot water heat exchanger 19 as a heating unit is installed on the downstream side of the fan 17 in the path SR and on the upstream side of the fan 17 in the first exhaust path ER1. As shown in FIG. 2, the adsorbent rotor 18 is partitioned on the adsorption side and the regeneration side by a partition D that divides the return air path SR and the first exhaust path ER1.

  Therefore, in the bathroom dryer 1, when the air in the bathroom introduced from the first air inlet 12 to the circulation path SR passes through the adsorbent rotor 18, moisture in the air is adsorbed by the adsorbent rotor 18. After being dehumidified, it is heated by the hot water heat exchanger 19, so that high-temperature and low-humidity air is blown out from the air supply port 13 into the bathroom, thereby dehumidifying the interior of the bathroom. At the same time, a part of the high-temperature and low-humidity air generated in the circulation path SR enters the first exhaust path ER1 from the circulation path SR and is heated again by the hot water heat exchanger 19, and then again the adsorbent rotor. 18 passes through the first exhaust port 14 and is discharged to the outside, so when high-temperature air passes through the adsorbent rotor 18, moisture that has already been adsorbed is released from the adsorbent rotor 18 and adsorbs moisture. To do Moisture adsorption capacity of the adsorbent rotor 18 is adapted to recover the decreased by. Further, since the air in the bathroom introduced from the second intake port 15 to the second exhaust route ER2 is directly discharged from the second exhaust port 16 to the outside, it passes through the first exhaust route ER1 and the second exhaust route ER2. Thus, low-humidity air outside the bathroom corresponding to the amount of air discharged outdoors is introduced into the bathroom from an air inlet formed in the bathroom door or the like, and this also dehumidifies the bathroom.

  As shown in FIG. 3, the adsorbent rotor 18 has a gear 18a formed on the outer peripheral surface thereof. The gear 18a and the gear 20a mounted on the rotating shaft of the drive motor 20 are engaged with each other. Therefore, when the drive motor 20 operates, the adsorbent rotor 18 rotates at a low speed.

  Moreover, in this bathroom dryer 1, in order to improve the dehumidification capability by blowing out the dehumidified air uniformly in the bathroom, a movable wind direction adjusting louver that automatically changes the blowing direction of the air is provided with the air inlet 13. As shown in FIG. 3, the wind direction adjusting louver 21 is driven by the drive motor 20 using the power of the adsorbent rotor 18 that rotates at a low speed.

  As shown in FIGS. 3 and 4, the wind direction adjusting louver 21 includes a large number of wind direction plates 23 supported by a fixed portion 22 attached to the air supply port 13 so as to be able to swing at regular intervals, and the respective wind direction plates. 23 is provided with an operation member 24 to which a rear end portion is pin-coupled, and the wind direction plates 23 swing simultaneously at the same time when the operation member 24 moves back and forth in the lateral direction.

  The operation member 24 is connected to the adsorbent rotor 18 via a power transmission mechanism, and the power transmission mechanism transmits the rotational driving force of the adsorbent rotor 18 as the advance / retreat driving force of the operation member 24. ing.

  This power transmission mechanism is connected to the drive shaft 26 via a gear 25 that meshes with a gear 18 a formed on the outer peripheral surface of the adsorbent rotor 18, a drive shaft 26 to which the gear 25 is mounted, and a clutch 27. A driven shaft 28, a cam plate 29 attached to the driven shaft 28, and a pair of cam surfaces 24a, 24b formed on one end side of the operation member 24 and in contact with the cam plate 29. When the driven shaft 28 rotates as the drive shaft 26 rotates, the cam plate 29 rotates and presses the cam surfaces 24a and 24b as shown in FIGS. The operating member 24 moves back and forth in the horizontal direction, and accordingly, the wind direction plate 23 swings. In the case where it is desired to stop the swing of the wind direction plate 23 during the operation of the bathroom dryer 1, the power transmission from the drive shaft 26 to the driven shaft 28 may be interrupted by the clutch 27.

  As described above, in the bathroom dryer 1, the movable wind direction adjusting louver 21 is driven by using the power of the adsorbent rotor 18 that rotates at a low speed. Unlike the case where the wind direction adjusting louver is driven using the power of the fan, it is not necessary to provide a speed reducer, and the number of parts and the product cost can be effectively reduced.

  In the above-described embodiment, the clutch 27 for interrupting the power transmission from the drive shaft 26 to the driven shaft 28 is provided, but the present invention is not limited to this, and during the operation of the bathroom dryer, that is, If the wind direction adjusting louver 21 is always driven while the adsorbent rotor 18 is rotating, the cam plate 29 may be directly mounted on the drive shaft 26 without providing a clutch.

  In the above-described embodiment, the rotational movement of the adsorbent rotor 18 is converted into the forward / backward movement of the operation member 24 by the cam mechanism including the cam plate 29 and the cam surfaces 24a and 24b. Needless to say, various power conversion mechanisms can be employed.

It is a schematic structure figure showing one embodiment of a bathroom dryer concerning this invention. It is a front view which shows the adsorbent unit mounted in the bathroom dryer same as the above. It is a perspective view which shows roughly the drive mechanism of the wind direction adjustment louver employ | adopted as the bathroom dryer same as the above. (A)-(c) is operation | movement explanatory drawing which shows operation | movement of a wind direction adjustment louver same as the above. It is a schematic block diagram which shows an example of a bathroom dryer.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Bathroom dryer 11 Casing 12 1st inlet port 13 Inlet port 14 1st exhaust port 15 2nd inlet port 16 2nd exhaust port 17 Fan 18 Adsorbent rotor 18a Gear 19 Hot water type heat exchanger 20 Drive motor 20a Gear 21 Airflow direction adjusting louver 22 Fixed portion 23 Airflow direction plate 24 Operation member 24a, 24b Cam surface 25 Gear 26 Drive shaft 27 Clutch 28 Drive shaft 29 Cam plate

Claims (1)

An adsorbent rotor that dehumidifies by adsorbing moisture in the air when the air drawn from the bathroom passes through;
In a bathroom dryer provided with a movable wind direction adjusting louver installed at an air supply port that blows air dehumidified by the adsorbent rotor into the bathroom,
The bathroom dryer is characterized in that the wind direction adjusting louver is driven using the power of the adsorbent rotor.

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