JP2004286276A - Dehumidifier - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To improve dehumidifying efficiency by supplying regenerated air to a dehumidifying rotor with contained moisture in a sufficiently removed state. <P>SOLUTION: This dehumidifier is arranged by layering the dehumidifying rotor 38, a heating heater 49, a heat exchanger 51, indoor air circulating fans 59A and 59B, and a regenerated air circulating fan 72 in the horizontal direction, and is constituted so that the heating heater 49 is arranged in an upper part of a casing 10, and the regenerated air circulating fan 72 is arranged in a lower part of the casing 10, and these heating heater 49 and regenerated air circulating fan 72 are communicated by an upward extending duct 22. A sub-tank 76 is arranged in the casing 10, and a drain passage 34 is arranged for communicating the sub-tank 76 with an arranging part 21 for arranging the regenerated air circulating fan 72. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a dehumidifier.
[0002]
[Prior art]
Prior art document information related to the dehumidifier of the present invention includes the following.
[0003]
[Patent Document 1]
JP 2001-259352 A
[0004]
In the dehumidifier of Patent Document 1, the casing is divided into a dehumidification passage and a regeneration passage, and a disc-shaped dehumidification rotor is rotatably disposed across these passages.
[0005]
The dehumidifying passage is provided with an indoor air circulation fan for sucking indoor air from an intake port and circulating and supplying the indoor air from an exhaust port. In the regeneration passage, a regeneration air circulation fan for circulating regeneration air in the regeneration passage, and a heater for heating the regeneration air and the dehumidifying rotor are provided. Further, a heat exchanger constituting a part of the regeneration passage is provided in the casing.
[0006]
Then, in the dehumidifying passage, the moisture contained in the sucked air is adsorbed by passing the sucked indoor air through the dehumidifying rotor, and is circulated and supplied as dry air from the exhaust port into the room.
[0007]
In the regeneration passage, the regeneration air inside is heated by the heater, and in this state, passes through the dehumidification rotor, thereby releasing the moisture adsorbed by the dehumidification rotor. Then, when the regenerated air is cooled by heat exchange when passing through the heat exchanger, the contained moisture is dewed. As a result, the moisture contained in the regeneration air is removed, and the condensed water is collected in the tank.
[0008]
The dehumidifying rotor, the heater, the heat exchanger, the indoor air circulation fan, and the regeneration air circulation fan are disposed so as to be horizontally stacked in the casing. The heater is disposed at the top of the casing in order to prevent the rising heat from affecting the room air passing through the dehumidifying passage and the components such as the dehumidifying rotor. Further, the regeneration air circulating fan for supplying regeneration air to the heater is also arranged at the upper part of the casing.
[0009]
[Problems to be solved by the invention]
However, in the dehumidifier, the regeneration air often contains moisture even after passing through a heat exchanger that constitutes a part of the regeneration passage. Then, even if the regeneration air containing the moisture is passed through the dehumidification rotor, the moisture of the dehumidification rotor cannot be sufficiently absorbed at that time, and as a result, there is a problem that the dehumidification efficiency is reduced.
[0010]
In addition, the moisture contained in the regeneration air also forms dew in the duct that connects the regeneration air circulation fan and the heater. Therefore, it is necessary to provide a drainage path for draining the dew condensation water into the tank.However, since the disposing part for disposing the regenerating air circulation fan is located at the upper part, the structure of the drainage path is extremely low. There is a problem that it becomes complicated.
[0011]
Therefore, in the present invention, the dehumidification efficiency is improved by supplying the moisture contained in the regenerated air to the dehumidification rotor in a state where it is sufficiently removed, and the drainage path of the water condensed after passing through the heat exchanger is simplified. The task is to achieve
[0012]
[Means for Solving the Problems]
In order to solve the above problems, a dehumidifier of the present invention includes a casing having an interior divided into a dehumidification passage and a regeneration passage, a dehumidification rotor straddling both the passages and rotatably disposed by driving means, and a regeneration passage. And a heater for heating the regeneration air and the dehumidification rotor, and a part of the regeneration passage disposed in the dehumidification passage and cooling the regeneration air inside by the external air. A heat exchanger that removes water contained therein, an indoor air circulation fan that is disposed in the dehumidification passage, sucks indoor air and circulates dry air dehumidified by the dehumidification rotor into the room, and the regeneration passage. A regeneration air circulating fan disposed in the heater and circulating regeneration air from the heater through a heat exchanger; and a tank for storing moisture removed by the heat exchanger. A dehumidifier in which a heater, a heat exchanger, an indoor air circulation fan, and a regeneration air circulation fan are horizontally stacked and disposed, wherein the heater is disposed above the casing and the regeneration air is disposed. A circulating fan is disposed below the casing, and the heater and the regenerative air circulating fan communicate with each other by a duct extending upward.
[0013]
In this dehumidifier, when moisture remains in the regenerated air that has passed through the heat exchanger, dew forms in the duct leading to the heater with the cooling effect of the regenerated air circulation fan.
Therefore, in the state of reaching the heater and the dehumidifying rotor, since the contained moisture is sufficiently removed, when passing through the dehumidifying rotor, the moisture contained in the dehumidifying rotor can be sufficiently adsorbed, Dehumidification efficiency can be improved.
[0014]
In this dehumidifier, the casing is provided with a sub-tank that allows water to flow to the tank when the tank is mounted and does not allow water to flow to the tank when the tank is not mounted. Preferably, a drainage path is provided for communicating the sub-tank with an arrangement section in which the regeneration air circulation fan is arranged. With this configuration, it is possible to prevent the water accumulated in the portion where the regeneration air circulation fan is provided from affecting the ventilation of the regeneration air by the regeneration air circulation fan. In addition, since the regeneration air circulation fan disposing portion is formed at the lower portion of the casing, the distance of the drainage path to the sub tank may be short, and the structure can be simplified.
[0015]
In this case, it is preferable that the sub-tank is provided below a portion where the regenerated air circulation fan is provided. By doing so, the drainage path can be further simplified.
[0016]
In addition, it is preferable that a windproof protrusion is provided at a drain of the drainage path that opens into the regeneration air circulation fan disposing portion, at a rear side in a regeneration air supply direction by the regeneration air circulation fan. In this way, it is possible to prevent a problem that the condensed water cannot be drained due to the wind pressure when the regeneration air is sent out by the regeneration air circulation fan.
[0017]
Further, it is preferable that a drain port of the drainage path that opens into the regeneration air circulation fan disposing portion is provided on a front side in a regeneration air supply direction from an axis of the regeneration air circulation fan. In this case, drainage efficiency can be further improved.
[0018]
Furthermore, the sub-tank has a box-like shape with an upper end opening attached to the casing from below, and is provided with a valve member that can move horizontally along the mounting direction of the tank, and by opening and closing the valve member, It is preferable that water can be passed to or from the tank. With this configuration, the structure of the sub tank can be simplified, and the valve member can be reliably opened and closed.
[0019]
In this case, the valve member is provided with a switch operating portion for turning on and off a switch for detecting a full state of the tank, and the valve member is provided so as to be continuous with a float provided in the tank. It is preferable to operate with a part.
This makes it possible to reliably detect the full state of the tank and also to reliably detect the non-mounted state of the tank.
[0020]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
1 to 7 show a dehumidifier according to a first embodiment of the present invention. As shown in FIG. 1, this dehumidifier divides the interior of a generally rectangular casing 10 into a dehumidification passage 11 and a regeneration passage 12, and inside the dehumidification rotor 38, a heater 49, The exchanger 51, the indoor air circulation fans 59A and 59B, and the regenerative air circulation fan 72 are horizontally stacked and arranged, and a tank 74 is arranged below.
[0021]
As shown in FIGS. 2A and 2B, the casing 10 has a front cover 14 and a rear cover 15 disposed before and after a base frame 13. An exhaust port 17 having a louver 16 is formed in an upper portion of the front cover 14. The rear cover 15 has an intake port 18 formed of a plurality of vertically extending slits. Further, the casing 10 is formed with the covers 14 and 15 attached to the base frame 13 to form a tank housing chamber 19 at a lower portion thereof.
[0022]
On the front side of the base frame 13, as shown in FIG. 3, there are provided walls 20a and 20b constituting two involute passages, and the indoor air circulation fan arrangement portions 20A and 20B which are opened and a regenerated air circulation fan are provided. An installation section 21 and a duct 22 extending from the regeneration air circulation fan installation section 21 to a heater installation section 28 described later are provided. In addition, an opening 23 that forms a part of the dehumidifying passage 11 is provided between the indoor air circulation fan arrangement units 20A and 20B and the regeneration air circulation fan 72.
[0023]
The indoor air circulation fan arrangement section 20A is located at an upper portion located forward of a dehumidification rotor 38 in a rotation direction of a heater arrangement section 28 described later. The indoor air circulation fan arrangement part 20B is located at a lower portion of the base frame 13 having a substantially rectangular shape, which is located diagonally to the indoor air circulation fan arrangement part 20A.
[0024]
The regeneration air circulation fan arrangement section 21 is located diagonally to the heater arrangement section 28 and is located below the heater arrangement section 28. Further, as shown in FIG. 4, a drain port of a drain path 34 for communicating water condensed in the duct 22 to a sub-tank 76 described later is opened in the regeneration air circulation fan disposing portion 21. A guide groove 24 is provided on a wall surface of the regenerating air circulating fan disposing portion 21 corresponding to the drain port, and a windproof projection 25 is provided in the guide groove 24 on the rear side in the supply direction of the regenerating air by the regenerating air circulating fan 72. Is provided.
[0025]
The duct 22 is formed of a groove having a substantially inverted L-shaped cross-sectional concave shape that extends vertically upward from the regeneration air circulation fan disposing portion 21 and then bends. The provision of the cover 26 constitutes a part of the regeneration passage 12. Further, on the upper surface of the duct cover 26 of the present embodiment, there is provided a wall portion 27 that constitutes a part of the involute passage of the indoor air circulation fan disposing portion 20A.
[0026]
As shown in FIGS. 5 and 6, on the rear surface side of the base frame 13, an upper heater disposing portion 28 is located diagonally to the regeneration air circulating fan disposing portion 21, and is located at the center. A dehumidification rotor disposition portion 29 and a cylindrical duct portion 30 communicating with the regeneration air circulation fan disposition portion 21 are provided. The heater arranging section 28 communicates with the duct 22. As shown in FIG. 6, the dehumidifying rotor disposing portion 29 has a guide groove 32 provided on an upper surface of a peripheral wall 31 which is thicker than a lower end edge of a holding member 41 of a dehumidifying rotor 38 to be described later. . Further, on the rear surface side of the base frame 13, a drive motor 39 which is a drive unit of the dehumidification rotor 38 is disposed so as to be located on the outer peripheral edge of the dehumidification rotor 38.
[0027]
Further, on the lower surface side of the base frame 13, as shown in FIGS. 3 to 5, a sub-tank disposing portion 33 which disposes a sub-tank 76 described below so as to be located below the regeneration air circulating fan disposing portion 21. Is provided. The sub-tank disposition portion 33 is provided so as to be different in position in the front-rear direction from the regeneration air circulation fan disposition portion 21 and to overlap in the up-down direction. Is provided. In addition, an insertion hole 35 is provided on a wall surface opposite to the drain passage 34 so as to penetrate a drain portion 57 of the heat exchanger 51 described later. Further, on the lower surface side of the base frame 13, a code reel disposing portion 37 for disposing a code reel 36 for supplying electric power to a control board (not shown) is provided.
[0028]
The regenerating passage 12 corresponds to the regenerating air circulation fan disposing part 21, the duct 22 communicating with the disposing part 21, the heater disposing part 28 communicating with the duct 22, and the disposing part 28. And a heat exchanger 51 connected to the rotor cover and connected to the regeneration air circulating fan installation unit 21. The inside of the casing 10 excluding the divided regeneration passage 12 and the tank housing chamber 19 constitutes a dehumidification passage 11 that connects the intake port 18 and the exhaust port 17 via the dehumidification rotor 38.
[0029]
The dehumidification rotor 38 is rotatable by a drive motor 39 across both the passages 11 and 12 such that about ／ of the rotor 38 is located in the dehumidification passage 11 and about ４ of the rotor 38 is located in the regeneration passage 12. It is a disk-shaped thing arranged in. Specifically, in the dehumidifying rotor 38, as shown in FIGS. 5 and 6, a rotor main body 40 made of a mesh-shaped ceramic honeycomb to which zeolite or silica gel is bonded is held by a resin holding member 41. Things.
[0030]
The holding member 41 includes a bearing portion 42 located at the center of the rotor body 40, an outer wall portion 43 located at the outer peripheral portion of the rotor body 40, and a heat exchanger 49 located opposite to the heater 49. And a connection frame 44 to be connected. The outer wall portion 43 is provided with a flange portion 45 protruding outward and a plurality of convex teeth 46 meshing with a gear 39a disposed on an output shaft of the drive motor 39.
[0031]
In this embodiment, the rotation speed of the drive motor 39 and the gear ratio between the gear 39a and the convex teeth 46 are set so that the dehumidification rotor 38 makes one rotation in about two minutes during the dehumidification operation. Have been. In the dehumidification rotor 38, a rotor cover 47 is provided on a surface opposite to a position corresponding to the heater case 50 accommodating the heater 49. The rotor cover 47 is provided with a connection portion 48 having the same shape as the heater case 50, and the inflow port 55 of the heat exchanger 51 is connected to the connection portion 48.
[0032]
The heater 49 is disposed in the heater arranging section 28 located in the upper front part of the dehumidifying rotor 38, generates heat by electric power supplied from a power supply circuit (not shown), and heats the regeneration air and the dehumidifying rotor 38. It is. The heater 49 is formed by winding one continuous coil around a support frame made of a mica plate. The heater 49 is provided in the heater installation unit 28 via a heater case 50 that constitutes the regeneration passage 12. You.
[0033]
The heat exchanger 51 is disposed in the dehumidification passage 11 on the back side of the dehumidification rotor 38 and constitutes a part of the regeneration passage 12, as shown in FIGS. 7A and 7B. As shown, it is made of resin in which a pair of panels 52A and 52B formed by vacuum molding or pressure molding are welded. Each of the panels 52A and 52B includes a plurality of partitioning grooves 53A and 53B positioned symmetrically with each other, and a plurality of flow paths 54 through which regeneration air passes are formed by portions excluding these partitioning grooves 53A and 53B. I have. In addition, one panel 52A has a fan-shaped inlet 55 corresponding to the shape of the heater case 50 accommodating the heater 49, and the duct 30 communicating with the regeneration air circulating fan arrangement portion 21 in the base frame 13. A corresponding circular outlet 56 and a drain 57 for draining dew water into a tank 74 are provided. Further, a through hole 58 for allowing the sucked air to flow is provided at the portion of the bonded partitioning ridges 53A and 53B. The drain portion 57 is provided in the vicinity of the outlet 56 so as to correspond to the insertion hole 35 of the sub-tank disposing portion 33 so that dew water can be drained directly from the drain portion 57 to the sub-tank 76. Make up.
[0034]
The indoor air circulation fans 59A and 59B are constituted by the sirocco fans shown in FIG. 3, and suck the indoor air from the intake port 18 of the rear cover 15 as shown by solid arrows in FIG. The dehumidified dry air is circulated and supplied into the room from the exhaust port 17 of the front cover 14.
[0035]
The sirocco fan includes motors 60A and 60B as driving means, and an impeller 61 rotated clockwise by the motor 60 in the figure. The impeller 61 includes an annular base 62, a plurality of first blade portions 63 protruding in a direction perpendicular to the base 62, and a mounting portion 64 for mounting the motor 60 at the center of the base 62. And a second blade portion 65 that connects the base 62 and the mounting portion 64 and that is inclined so as to blow air into the interior surrounded by the first blade portion 63. Further, a ring-shaped connecting portion 66 is provided at a lower end of the second blade portion 65.
[0036]
In this embodiment, the first indoor air circulating fan 59A is disposed in the indoor air circulating fan arranging section 20A, and the motor 60A has a "strong" operation with a fast rotation and a "weak" with a slow rotation. The one having a speed change function capable of driving is used. The second indoor air circulating fan 59B is provided in the indoor air circulating fan arranging section 20B, and its motor 60B is capable of performing only a "strong" operation with a fast rotation.
[0037]
A fan cover 67 is mounted on the front side of the indoor air circulation fans 59A and 59B. The fan cover 67 has a shape that closes the upper portions of the indoor air circulation fans 20A and 20B, and has a ventilation hole 68 at a position corresponding to each of the indoor air circulation fans 59A and 59B. A rib 69 for forming a predetermined gap is provided so as to extend toward the ventilation hole 68. On the side of the fan cover 67 that closes the arrangement portion 20A of the first indoor air circulation fan 59A, a mounting portion 71 of a negative ion generator 70 disposed to be located in the involute passage is provided. ing. The mounting portion 71 is provided with a closing portion 71a so that the negative ion generator 70 is not directly visible from the exhaust port 17.
[0038]
The regeneration air circulating fan 72 is disposed in the regeneration air circulating fan disposing portion 21 located diagonally below the heater 49 in the regeneration passage 12, and is rotated by a motor 73. Thereby, as shown by the broken line arrow in FIG. 1, the regeneration air in the regeneration passage 12 is supplied into the heater case 50 of the heater 49 via the duct 22, and the dehumidification rotor 38 and the heat exchanger 51 Is circulated in this order.
[0039]
As shown in FIGS. 2B and 5, the tank 74 has a box shape with an upper surface opening, and a float member 75 is rotatably disposed inside the tank 74. When the water level in the tank 74 rises, the float member 75 rotates as a whole by floating a lower float portion 75a.
[0040]
In the tank housing chamber 19, the sub-tank disposing portion 33 is located on the upper wall near the mounting opening, and the sub-tank disposing portion 33 allows water to flow into the tank 74 when the tank 74 is mounted. A sub-tank 76 is provided, which makes it possible to prevent water from flowing into the tank 74 when the tank 74 is not mounted.
[0041]
The sub-tank 76 has a box-like shape with an upper end opening to be mounted on the sub-tank disposing portion 33 from below. The sub-tank 76 is provided with a valve member 77 that can move horizontally along the mounting direction of the tank 74. The valve member 77 is provided with a valve 78 so as to be located in the sub-tank 76, and the opening and closing of the opening by the valve 78 enables or disables the passage of water to the tank 74. . The valve member 77 is configured to maintain a normally closed state by a spring, and when a tank 74 is mounted, a pressing portion 75b provided at an upper portion of the float member 75 abuts to open. Then, when the water level in the tank 74 rises and the float member 75 rotates, the pressing of the valve member 77 by the pressing portion 75b is released, and the valve is closed. Further, the valve member 77 is provided with a branched micro switch operating portion 77a. When the pressing of the valve member 77 by the pressing portion 75b is released, the valve member 77 is filled with water through the micro switch 79 or the tank 74 is not mounted. That can be detected. In the sub-tank 76 configured as described above, the structure can be simplified, so that the cost can be reduced. Further, since the valve member 77 moves in the same direction as the mounting direction of the tank 74, the opening and closing operation can be reliably performed.
[0042]
The control means (not shown) mounted on the dehumidifier turns on the power switch, sets the tank 74 in the storage chamber 19 of the casing 10, and when the tank is not full, the drive motor 39 of the dehumidification rotor 38, Electric power is supplied to the motors 60A and 60B of the indoor air circulation fans 59A and 59B, the motor 73 of the regeneration air circulation fan 72, and the heater 49 to start the dehumidification operation. When the inside of the tank 74 becomes full, the power supply to each of the above components is stopped to stop the dehumidifying operation.
[0043]
When the user selects the "strong" operation by operating an operation panel (not shown), the indoor air circulation fan 59A is operated "strong" and the indoor air circulation fan 59B is operated "strong". When the user selects the "standard" operation, the indoor air circulation fan 59A is operated "weakly" and the indoor air circulation fan 59B is operated "strongly". When the user selects the "quiet" operation, the indoor air circulation fan 59A is operated "weakly" and the indoor air circulation fan 59B is stopped.
[0044]
That is, in the present embodiment, the first indoor air circulation fan 59 </ b> A disposed in front of the heater 49 in the rotation direction of the dehumidification rotor 38 is configured to always rotate during the dehumidification operation. For this reason, in the dehumidification rotor 38, the sucked air always flows through an uncooled area immediately after being heated by the heater 49.
As a result, the configuration is such that the dehumidifying efficiency can be improved. In addition, since the negative ion generator 70 is attached to the side of the first indoor air circulation fan 59A that constantly rotates, the negative ions can be always emitted during the operation together with the dry air.
[0045]
Further, in the dehumidifier of the present embodiment, the indoor air circulation fans 59A and 59B are smaller than one indoor air circulation fan according to the conventional dehumidifier. However, in the conventional dehumidifier, the ratio of the area where the indoor air circulation fan overlaps with the dehumidification rotor 33 is about 41% due to the necessity of forming the involute passage, whereas in the present embodiment, it is about 68%. %. Further, the base frame 13 is provided with the opening 23 that constitutes a part of the dehumidifying passage 11 between the indoor air circulating fan disposing portions 20A and 20B. A sufficient ventilation area for the dehumidifying rotor 38 can be secured without providing a space between the dehumidifying rotor 33. Therefore, the size can be reduced as compared with the conventional dehumidifier. In addition, it is possible to secure a space for disposing the regeneration air circulation fan 72 at the lower part.
[0046]
Next, the dehumidifying operation of the dehumidifier will be specifically described.
First, in the dehumidifying passage 11, indoor air is sucked from the air inlet 18 of the rear cover 15 by driving the indoor air circulation fans 59A and 59B. The sucked air is heated by heat exchange with the regeneration air when passing through the through hole 58 of the heat exchanger 51, and in this state, when passing through the dehumidifying rotor 38, the contained moisture is adsorbed. Is done. Thus, the air is circulated and supplied into the room from the exhaust port 17 of the front cover 14 as dry air.
[0047]
In the base frame 13, the dry air flows from the rear side where the dehumidifying rotor 38 is disposed to the front side where the indoor air circulation fans 59A and 59B are disposed, and the opening of each indoor air circulation fan arrangement section 20A and 20B. And the lower opening 23. The dry air flowing from the openings of the indoor air circulation fans 20A and 20B flows into the space surrounded by the first blades 63 from the wide open lower ends of the indoor air circulation fans 59A and 59B. The dry air flowing from the opening 23 flows into the outside of the base 62 of the indoor air circulation fans 59A and 59B, and is cut off by the second blade 65 and surrounded by the first blade 63. Flows into. The dry air inside the first blade portion 63 is sent out diametrically outward by the first blade portion 63, and is discharged from the exhaust port 17 into the room according to the shape of the involute passage formed by the walls 20a and 20b. Supplied to
[0048]
As described above, the indoor air circulation fans 59A and 59B made of the sirocco fan can flow into the inside from both sides (upper and lower sides) of the first blade portion 63 in the protruding direction, and can send out the air in the horizontal direction. In addition, it is possible to increase the amount of air blow without increasing the size of the device. Further, since it is not necessary to use the large-capacity motor 60, the cost does not increase. Therefore, the dehumidification efficiency can be improved without increasing the size of the entire device or increasing the cost.
[0049]
On the other hand, in the regeneration passage 12, the driving of the regeneration air circulation fan 72 causes the internal regeneration air to flow into the heater case 50 containing the heater 49 through the duct 22. Thereafter, the regenerated air is heated by the heater 49 and then passes through the dehumidification rotor 38 to adsorb the moisture adsorbed by the dehumidification rotor 38. Next, the regenerated air flows into the heat exchanger 51, and is cooled by heat exchange due to a temperature difference with air in a room flowing through the isolated dehumidifying passage 11, whereby the contained moisture is dewed. The condensed water is directly supplied from the drain portion 57 of the heat exchanger to the sub-tank 76, and is collected from the sub-tank 76 to the tank 74.
[0050]
The regenerated air flowing out of the heat exchanger 51 becomes substantially dry, and is supplied again to the heater 49 via the duct 22 by the regenerated air circulation fan 72. At this time, if moisture is not sufficiently removed by the heat exchanger 51 and moisture remains in the regenerated air, dew forms in the duct 22 reaching the heater 49 with the cooling effect of the regenerated air circulation fan 72. Therefore, in a state where the heater 49 and the dehumidifying rotor 38 are reached, a dry state in which the moisture contained therein is sufficiently removed can be obtained. As a result, when passing through the dehumidification rotor 38, the moisture contained in the dehumidification rotor 38 can be sufficiently absorbed, and the dehumidification efficiency can be improved.
[0051]
On the other hand, the water condensed in the duct 22 reaches the bottom of the regeneration air circulation fan arrangement portion 21 located at the lower portion, and is drained into the sub tank 76 via the drain passage 34. At this time, the condensed water flows in the direction opposite to the wind pressure of the regeneration air due to the rotation of the regeneration air circulation fan 72 inside the regeneration air circulation fan disposition unit 21. However, in the present embodiment, since the windproof projection 25 is provided at the drain port of the drain passage 34 in the regeneration air circulation fan disposing unit 21, the dew condensation water cannot be drained due to the wind pressure of the regeneration air. Can be prevented from occurring. As a result, it is possible to prevent the dewed water from accumulating in the regenerating air circulation fan disposing portion 21 to affect the blowing of the regenerating air.
[0052]
Moreover, in the present embodiment, the sub-tank disposing portion 33 is provided below the regenerating air circulation fan disposing portion 21, and the drain passage 34 is formed by a simple through-hole. It is short and the structure can be simplified.
[0053]
FIG. 8 shows a regeneration air circulation fan arrangement unit 21 in the dehumidifier of the second embodiment. In the second embodiment, the drainage path 34 is provided with a drainage port 34 a so as to penetrate the wall surface that defines the regeneration air circulation fan arrangement part 21, and is provided at a lower portion located outside the regeneration air circulation fan arrangement part 21. A communication hole 34b communicating with the sub tank 76 is provided. The drain port 34 a is formed so as to be located on the front side in the supply direction of the regeneration air from the axis, which is the rotation center of the regeneration air circulation fan 72.
[0054]
In the drainage path 34 according to the second embodiment configured as described above, the drainage port 34a is close to a steeply inclined region forming an involute passage. In addition, since it is located on the front side in the supply direction of the regeneration air from the axis of the regeneration air circulation fan 72, the influence of the wind pressure is slightly reduced. Therefore, the water condensed in the duct 22 can be drained from the drain port 34a to the sub-tank 76 through the communication hole 34b without fail along the steep passage. Further, the water condensed on the rear side in the supply direction of the regeneration air with respect to the drain port 34a is flowed to the drain port 34a by the wind pressure, and similarly drained from the drain port 34a to the sub-tank 76 via the communication hole 34b. Can be.
[0055]
In addition, the dehumidifier of the present invention is not limited to the configuration of the above embodiment, and various modifications are possible.
[0056]
For example, in the above-described embodiment, since the two indoor air circulation fans 59A and 59B are mounted, the heater 49 and the regeneration air circulation fan 72 are arranged diagonally. However, only one indoor air circulation fan is provided. The heater 49 may be mounted so that the heater 49 is located substantially above the regeneration air circulation fan 72 in the vertical direction.
[0057]
【The invention's effect】
As is clear from the above description, in the dehumidifier of the present invention, when moisture remains in the regeneration air that has passed through the heat exchanger, dew condensation occurs in the duct leading to the heater together with the cooling effect of the regeneration air circulation fan. Therefore, in a state where the heating heater and the dehumidifying rotor have been reached, the contained water can be sufficiently removed. As a result, when the regeneration air passes through the dehumidification rotor, the moisture contained in the dehumidification rotor can be sufficiently absorbed, and the dehumidification efficiency can be improved.
[0058]
In addition, since a drainage path is provided to communicate with the sub-tank from the portion where the regeneration air circulation fan located at the bottom is provided, the distance of the drainage path may be short, and the structure can be simplified. In addition, since the dew condensation water does not accumulate in the portion where the regeneration air circulation fan is provided, it is possible to prevent the regeneration air circulation fan from affecting the ventilation of the regeneration air.
[Brief description of the drawings]
FIG. 1 is a schematic diagram showing a dehumidifier according to an embodiment of the present invention.
FIGS. 2A and 2B are cross-sectional views showing a specific configuration of a dehumidifier.
FIG. 3 is an exploded perspective view showing a configuration of a front side of a base frame.
FIG. 4 is a front view showing a portion where a regenerated air circulation fan is provided according to the first embodiment;
FIG. 5 is a cross-sectional view illustrating a configuration of a rear surface side of the dehumidifier.
FIG. 6 is an exploded perspective view showing a relationship between a base frame and a dehumidifying rotor.
7A is a front view of a heat exchanger, and FIG. 7B is an enlarged sectional view of a main part of FIG.
FIG. 8 is a front view showing a portion where a regeneration air circulation fan is provided according to a second embodiment.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 10 ... Casing, 11 ... Dehumidification passage, 12 ... Regeneration passage, 13 ... Base frame, 20A, 20B ... Indoor air circulation fan installation part, 21 ... Regeneration air circulation fan installation part, 22 ... Duct, 25 ... Windproof protrusion Part, 26: duct cover, 28: heater arrangement part, 29: dehumidification rotor arrangement part, 33: sub tank arrangement part, 34: drain path, 38: dehumidification rotor, 49: heater, 51: heat exchanger , 59A, 59B ... indoor air circulation fan, 72 ... regeneration air circulation fan, 74 ... tank, 76 ... sub tank.

Claims (7)

A casing partitioned inside into a dehumidifying passage and a regeneration passage,
A dehumidification rotor that is rotatably disposed by the driving means across the two paths,
A heater disposed in the regeneration passage, for heating regeneration air and the dehumidification rotor,
A heat exchanger disposed in the dehumidifying passage and constituting a part of the regeneration passage, cooling the internal regeneration air with external air and removing moisture contained therein,
An indoor air circulation fan disposed in the dehumidifying passage, for sucking indoor air and circulating dry air dehumidified by the dehumidifying rotor into the room;
A regeneration air circulation fan disposed in the regeneration passage and configured to circulate regeneration air from the heater through a heat exchanger;
A tank for storing the water removed by the heat exchanger,
In the dehumidifier in which the dehumidification rotor, the heater, the heat exchanger, the indoor air circulation fan, and the regenerative air circulation fan are arranged in a horizontally stacked manner,
The heating heater is arranged at an upper portion of the casing, the regeneration air circulation fan is arranged at a lower portion of the casing, and the heating heater and the regeneration air circulation fan are communicated by a duct extending upward. Dehumidifier. The casing has a sub-tank that allows water to flow to the tank when the tank is mounted and does not allow water to flow to the tank when the tank is not mounted,
2. The dehumidifier according to claim 1, wherein a drain path is provided in the casing to connect the sub-tank and an arrangement unit on which the regeneration air circulation fan is arranged. 3. The dehumidifier according to claim 2, wherein the sub-tank is provided below a portion where the regenerated air circulation fan is provided. The windproof projection is provided at a drain of the drainage passage opening in the regeneration air circulation fan disposing portion, on a rear side in a supply direction of the regeneration air by the regeneration air circulation fan. Item 3. A dehumidifier according to item 3. The drainage port of the drainage path that opens into the regeneration air circulation fan disposition portion is provided on the front side of the regeneration air circulation fan in the direction of supply of regeneration air from the axis of the regeneration air circulation fan. The dehumidifier according to any one of the preceding claims. The sub-tank has a box shape with an upper end opening attached to the casing from below, and is provided with a valve member that can move horizontally along a mounting direction of the tank, and the valve member opens and closes to the tank. A dehumidifier characterized in that water can be passed or not. The valve member is provided with a switch operating portion for turning on and off a switch for detecting a full state of the tank, and is operated by a pressing portion provided so as to be continuous with a float provided in the tank. 7. The dehumidifier according to claim 6, wherein the dehumidifier is operated.

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