JP3214744U - Dehumidifying device and dehumidifying system - Google Patents

Abstract

A dehumidifying device and a dehumidifying system that can be easily attached to a building or facility are provided. A dehumidifier includes a cooling unit configured by a cooling unit that cools air supplied to an indoor space by a ventilation fan, and a drainage unit that is disposed below the cooling unit. And a film heater 3 that heats the air 12 supplied to the indoor 15 by applying heat. The cooling unit 20 and the film heater 3 are disposed on the flow path of the air 12 supplied to the indoor 15 by the ventilation fan 6 </ b> X, and the film heater 3 is attached to the cooler 2. [Selection] Figure 3

Description

  The present invention relates to a dehumidifying device and a dehumidifying system including the dehumidifying device.

  Condensation in the building due to temperature difference between indoor and outdoor causes mold. In particular, in a high-temperature and high-humidity environment, condensation tends to occur when a temperature difference between the indoor and outdoor environments occurs. In order to solve such a problem, it is necessary to reduce the relative humidity while reducing the temperature and dehumidifying it so as not to reduce the temperature excessively.

  In Patent Document 1, an ice chamber for making and storing water, a supply / exhaust pipe communicating between the ice chamber and the indoor sports facility, a blower provided in the supply pipe, and a fan separated from the blower in the supply pipe A dehumidifying and cooling device including a provided heater is disclosed.

JP 2008-138978 A

  The dehumidifying and cooling device disclosed in Patent Document 1 is intended for indoor sports facilities, in which a large ice chamber is provided, and a blower and a heater are provided in an air supply pipe communicating with the ice chamber and the indoor sports facility. It was. Due to the large ice chamber, it was not easy to install the device in various buildings (equipment).

  This invention is made | formed in view of said subject, and it aims at providing the dehumidification apparatus and dehumidification system which can be easily attached to a building (equipment).

  According to the present invention, a cooler in which a cooling unit that cools air supplied by a blower and a drainage unit disposed below the cooling unit are configured integrally, and the supplied air. There is provided a dehumidifying device comprising: a heater for heating by applying heat, wherein the heater is integrally attached to the cooler.

  Further, according to the present invention, the dehumidifying device, the outdoor unit including the compressor, the indoor unit, the refrigerant pipe connecting the outdoor unit and the indoor unit, and the outdoor unit and the indoor unit are provided respectively. An air conditioner composed of the other heat exchanger, and the other device is the air conditioner, and a connection portion is connected to the refrigerant pipe of the air conditioner, thereby A dehumidification system is provided in which refrigerant flows into the connection.

  ADVANTAGE OF THE INVENTION According to this invention, the dehumidification apparatus and dehumidification system which can be easily attached to a building (equipment) can be provided.

It is a schematic diagram which shows a building provided with the dehumidification apparatus which concerns on embodiment of this invention. It is a perspective view which shows a dehumidification apparatus. It is typical sectional drawing which shows the attachment state to the outer wall of a dehumidifier. It is a perspective view which shows the dehumidification apparatus which concerns on a modification. It is a typical perspective view which shows a dehumidification system.

  Embodiments of the present invention will be described below with reference to the drawings. The embodiment described below is merely an example for facilitating the understanding of the present invention, and does not limit the present invention. That is, the shape, dimensions, arrangement, and the like of the members described below can be changed and improved without departing from the spirit of the present invention, and the present invention naturally includes equivalents thereof. Moreover, in all drawings, the same code | symbol is attached | subjected to the same component, and description is abbreviate | omitted suitably.

<< About dehumidifier >>
First, a dehumidifying device 1 according to an embodiment of the present invention will be described mainly with reference to FIGS.
FIG. 1 is a schematic diagram showing a building 40 including a dehumidifying device 1 according to an embodiment of the present invention, FIG. 2 is a perspective view showing the dehumidifying device 1, and FIG. 3 shows an attached state of the dehumidifying device 1 to an outer wall 40w. It is a typical sectional view shown.

In the dehumidifying apparatus 1 according to the embodiment of the present invention, a cooling unit 20 that cools the air 12 supplied by a blower (ventilation fan 6X) and a drainage unit 21 disposed below the cooling unit 20 are integrally configured. And the heater (film heater 3) that heats the supplied air 12 by adding heat.
The cooling unit 20 and the heater (film heater 3) are arranged on the flow path of the air 12 supplied to the indoor 15 by the blower (ventilation fan 6X), and the heater (film heater 3) is integrated with the cooler 2. It is attached. That is, since the film heater 3 is integrally attached to the cooler 2, the film heater 3 has a portability such that it can be carried together.
Here, the flow path of the air 12 supplied to the indoor 15 by the ventilation fan 6X is not limited to the linear extension of the supply direction of the ventilation fan 6X. For example, when the air 12 passes through a bent conduit (not shown), the bent extension through which the air 12 passes is also included in the flow path.

  The dehumidifying device 1 has a function of reducing the amount of water vapor in the air 12 by discharging condensed water while lowering the temperature by the cooler 2 and lowering the relative humidity while raising the temperature by the film heater 3. For this reason, the dehumidifying device 1 includes a cooler 2 that reduces the temperature and reduces the amount of water vapor, and a film heater 3 that reduces the relative humidity, so that the temperature can be more experienced as compared to a fan that lowers the temperature of people. Can be lowered. And according to the dehumidification apparatus 1, it becomes unnecessary to newly provide the air conditioner 8 with large power consumption which is shown in FIG. Details of these configurations will be described later.

  As shown in FIG. 1, the building 40 in which the dehumidifying device 1 is provided supplies the air 12 supplied by the dehumidifying device 1 when the air 12 from the outdoor 14 is supplied to the indoor 15 by the ventilation fan 6X. Temperature and humidity are adjusted. Moreover, the air 12 in the indoor 15 of the building 40 is configured to be smoothly replaced by the air 12 in the indoor 15 by being exhausted to the outdoor 14 by the ventilation fan 6Y.

As shown in FIG. 2 described above, the cooler 2 is integrated with a cooling unit 20 that cools the air 12 supplied to the indoor 15 and a drainage unit 21 disposed below the cooling unit 20. It is structured. That is, the cooler 2 has the portability that the cooling unit 20 and the drainage unit 21 can be carried together.
The cooling unit 20 includes a cooling pipe 20a through which a coolant such as cooling water flows, and a frame 20d that holds the cooling pipe 20a.

In the present embodiment, the cooling pipe 20a is connected to a low-temperature water source such as a well (not shown) or a water tank and a pump (not shown), and is configured to circulate cooling water as a refrigerant. . Thus, according to the cooler 2 by the cooling pipe 20a connected to the water storage tank etc., electric power is supplied rather than cooling the indoor 15 by the air conditioner 8 including the outdoor unit 8a and the indoor unit 8b described later with reference to FIG. Consumption can be suppressed.
In addition, the cooling pipe 20a is not limited to what is connected to a well or a water tank, A condenser, an evaporator, etc. may be connected to a refrigerator provided with a heat exchanger. It is not limited to water and may be chlorofluorocarbon.

  In this embodiment, the cooling pipe 20a has a base end side portion for supplying cooling water and a distal end side portion for collecting the cooling water in the short direction of the frame 20d (the main surface 3a of the film heater 3 described later). Is pulled out from the frame 20d in a direction perpendicular to the direction perpendicular to the frame 20d. In the present embodiment, the “perpendicular direction” is a direction extending horizontally, and is a direction extending vertically forward with respect to the paper surface shown in FIG. Thus, when the cooling pipe 20a is pulled out from the frame 20d in one direction, piping is easy and it is preferable. On the other hand, in the present invention, the direction in which the cooling pipe 20a is drawn out is arbitrary, and may be in the vertical direction. Furthermore, the portions of the cooling pipe 20a drawn out from the frame 20d may be in different directions.

  The cooling pipe 20a is formed so as to be folded back multiple times at the central part thereof and accommodated in the frame 20d. Specifically, as shown in a cross-sectional view in FIG. 3, the cooling pipe 20 a according to the present embodiment is formed by folding back so that four portions are arranged in parallel inside the frame 20 d. By being formed in this way, the area in which the air 12 supplied to the indoor 15 contacts the cooling pipe 20a is increased inside the frame 20d, and the cooling effect of the air 12 is enhanced.

The frame 20d according to the present embodiment has, for example, an inverted U-shape that is square when viewed from the short direction so that the air 12 can pass in the short direction (a direction perpendicular to a main surface 3a of the film heater 3 to be described later). It is formed in a shape. The lower part of the frame 20d is connected so as to be covered by the drainage part 21.
The drainage part 21 is for draining and dehumidifying the condensed water that is condensed and dripped onto the cooling pipe 20a to the outside of the building 40, and a receiving part 21a that receives the condensed water dripping from the cooling pipe 20a from below. , And a tub 21b for discharging condensed water to the outdoor 14.
The receiving portion 21a has a standing wall around it, is formed in a tray shape, and is formed so as to be fitted to the lower portion of the frame 20d.
The trough 21b is connected to the lower center portion of the receiving portion 21a so as to communicate with the internal space thereof, and communicates with the internal space of the drainage portion 21. The gutter 21b is formed continuously from the indoor 15 to the outdoor 14 and is connected to a drain pipe 13 provided in the ground of the outdoor 14.

In the dehumidifying apparatus 1 according to this embodiment, a blower (ventilator 6 </ b> X) that supplies outside air from the outdoor 14 to the indoor 15 is integrally attached to the cooler 2. As shown in FIG. 1, the blower (ventilation fan 6 </ b> X) is an intake-side blower (a pressurized blower that pressurizes the indoor 15) that sucks air 12 from the outdoor (outdoor 14) into the indoor (indoor 15). The ventilation fan 6X is configured to be operable by a motor 6c. The ventilation fan 6X includes an attachment frame 6d for attachment to the outer wall 40w, and a rotation shaft 6e that rotates by a motor 6c.
Further, as shown in FIG. 1, the dehumidifying system of the present invention includes an exhaust fan (ventilation fan 6Y) that exhausts air 12 from the room (indoor 15) to the outside (outdoor 14), and an intake fan (ventilation fan 6X). And a switch SW that switches the supply of electric power so as to simultaneously operate the exhaust-side blower (ventilation fan 6Y).
The ventilation fan 6Y has a function of depressurizing the indoor 15 (indoor), and is provided in a part of the outer wall 40w of the building 40 away from the ventilation fan 6X.

Thus, if the ventilation fan 6X and the ventilation fan 6Y are provided in the building 40, ventilation will be performed between the outdoor 14 and the indoor 15 satisfactorily.
The dehumidifying system of the present invention simultaneously operates the ventilation fans 6X and 6Y by the switch SW, thereby suppressing an increase in the pressure in the indoor 15 and satisfactorily supplying the air 12 from the ventilation fan 6X.
In addition, if it is a building structure in which the circulation of the air 12 is smooth only by the ventilation fan 6X (in other words, if the pressure in the indoor 15 is a pressure that can supply air from the ventilation fan 6X to the indoor 15), the ventilation fan 6Y is not necessarily required. It is not a configuration.

  The mounting frame 6d has a flange 6a extending upward and downward, for example. The ventilation fan 6X is attached to the outer wall 40w by inserting the set screw 6b through the through hole formed in the flange 6a and screwing into the outer wall 40w in a state where the flange 6a is in surface contact with the outer wall 40w. And the cooler 2 is connected to the ventilation fan 6X by the connection frame 4 and the connection pin 4a which are mentioned later, and the film heater 3 mentioned later is supported by the cooler 2 by the support body 3b. That is, the cooler 2 and the film heater 3 are attached to the outer wall 40w together with the ventilation fan 6X. As long as the film heater 3 can be supported, the shape of the support 3b is not limited, and may be a block shape other than a rod shape, or a clamp shape that supports the film heater 3 so as to sandwich the film heater 3. Moreover, you may make it support the film heater 3 using a screw, a volt | bolt nut, and an adhesive agent.

Depending on the configuration in which the indoor 15 is cooled by the air conditioner 8 including the outdoor unit 8a and the indoor unit 8b, which will be described later with reference to FIG. 5, the dust attached to the filter of the indoor unit 8b may only be diffused and removed. I can't do it.
On the other hand, according to the cooler 2 including the ventilation fan 6X according to the present embodiment, the supplied outside air is cooled and taken into the indoor 15 and the indoor air 12 is exhausted to the outside by the ventilation fan 6Y.
Thus, since the movement of the air 12 occurs between the indoor 15 and the outdoor 14, dust can be discharged together with the indoor air 12 to the outdoor 14, and the diffusion of the dust in the indoor 15 can be suppressed.

The cooler 2 and the ventilation fan 6 </ b> X are connected by a connection frame 4.
The connecting frame 4 is formed in a shape that substantially matches the outer shape formed by fitting the frame 20d and the receiving portion 21a and the outer shape of the mounting frame 6d of the ventilation fan 6X except for the flange 6a.
The ventilation fan 6X and the connection frame 4 are connected by screwing the connection screw 4b in a state where the end surface of the connection frame 4 on the side separated from the cooler 2 is overlapped with the mounting frame 6d of the ventilation fan 6X.
The connecting frame 4 and the cooler 2 are a part of the connecting frame 4 and the frame of the cooler 2 in a state where the frame 20d of the cooler 2 is overlapped on the end surface of the connecting frame 4 on the side close to the cooler 2. The connection pin 4a is embedded in a part of 20d so as to be connected.

The heater according to the present embodiment is a planar (flat plate) film heater 3 having a conductive wire (not shown) therein. Specifically, the film heater 3 according to the present embodiment is a self-control in which an exothermic temperature is adjusted by an element that forms the film heater 3 undergoing phase transition according to temperature and an electric resistance value changes. It is a mold heater.
The heater (film heater 3) is arranged on an extension of the air supply direction of the air 12 supplied through the cooling unit 20, and the main surface 3 a is arranged to face the cooling unit 20.
Here, the extension of the supply direction of the supplied air 12 is not limited to the linear extension of the supply direction of the air 12. For example, when the air 12 passes through a bent conduit (not shown), this includes the bent extension through which the air 12 passes.
Further, “opposing” is not limited to the state in which the main surface 3a of the film heater 3 is arranged in parallel to the surface of the cooling unit 20 on the indoor 15 side and faces the surface, as shown in FIG. That is, it is only necessary that the air 12 passing through the cooling unit 20 is disposed so as to touch the main surface 3a, and the main surface 3a is inclined obliquely with respect to the surface of the cooling unit 20 on the indoor 15 side. State is also included.

By arranging the film heater 3 in this way, the relative humidity can be lowered while raising the temperature of the air 12 cooled by the cooling unit 20 below the dew point to an appropriate temperature for dehumidification. Furthermore, since the main surface 3a of the film heater 3 is disposed to face the cooling unit 20, the dehumidifying device 1 is disposed in a compact manner.
In the present embodiment, the air 12 supplied by the ventilation fan 6 </ b> X contacts the flat film heater 3 and is supplied to the indoor 15 so as to bypass the film heater 3.

  A switch (not shown) for turning on / off the power supplied to the film heater 3 may be connected to the film heater 3. By operating the switch connected in this way, for example, when the temperature rise by the film heater 3 becomes a hindrance to the target temperature setting on a summer day, the switch is turned off and the film heater 3 is operated. Can be stopped. Furthermore, the film heater 3 is not limited to a self-control type heater, and may be controlled by another control device or controlled by a user operation.

A plurality of through holes may be formed in the thickness direction of the film heater 3 in a region other than the conductive wire (not shown) in the film heater 3. In this way, by allowing the air 12 supplied by the ventilation fan 6X to pass through the through hole, the air can be moved straight without detouring to hinder the flow, and the air supply capacity can be increased. it can.
In addition, the heater which concerns on this invention is not limited to the planar film heater 3, What is necessary is just what can raise temperature. For example, it may be a steam pipe through which steam during hot water supply passes, or an exhaust heat pipe through which exhaust gas generated by a cogeneration system passes. In this way, it is not necessary to provide a separate heater for the dehumidifier 1.

The dehumidifying device 1 further includes a plurality of rod-shaped supports 3 b for attaching a heater (film heater 3) to the cooler 2. The support 3 b is formed so as to protrude toward the film heater 3 from the surface of the cooler 2 facing the frame 20 d and the drainage portion 21 facing the film heater 3. The film heater 3 can be easily attached to the cooler 2 by the support 3b.
For this reason, the dehumidification apparatus 1 can attach the cooler 2, the film heater 3, and the ventilation fan 6X to the building 40 easily.

  The dehumidifying device 1 further includes a generator 5 that generates electric power by rotational power generated by rotation of the rotating shaft 6e of the blower (ventilation fan 6X). The heater (film heater 3) uses the electric power supplied from the generator 5 as a heat source, and is connected to the generator 5 by a conductor 5a. According to such a configuration, electric power can be generated in the generator 5 using the rotational power generated when the ventilation fan 6X operates, and the electric power can be used as a heat source for the film heater 3. For this reason, it is not necessary to prepare the heat source for operating the film heater 3 separately.

It is preferable that the dehumidifying apparatus 1 further includes a filter 7 that removes foreign substances present in the air.
The filter 7 according to the present embodiment is formed of an antibacterial material or a fiber coated with an antibacterial material, and is on the flow path of the air 12 supplied to the indoor 15 and upstream of the blower (ventilation fan 6X). Are attached to the attachment frame 6d. On the other hand, if it is on the said flow path, the arrangement | positioning is arbitrary, For example, you may be provided between the air blower (ventilation fan 6X) and the heater (film heater 3).
As described above, the dehumidifier 1 includes the filter 7, whereby the air 12 supplied to the indoor 15 can be cleaned, and dust and the like can be prevented from adhering to the film heater 3.
In addition, when it is not necessary to remove a foreign material, the filter 7 is not necessarily a required structure.

It is preferable that the dehumidifying apparatus 1 further includes a mounting structure (flange 6a and set screw 6b) to the outer wall 40w of the building 40.
Specifically, the flange 6 a is a part of the mounting frame 6 d and is formed so as to protrude in the vertical direction from the connection frame 4. The set screw 6b is inserted into a part of the flange 6a in the thickness direction and screwed into the outer wall 40w. Thus, the dehumidifying device 1 can be easily attached to the inner wall surface of the outer wall 40w of the building 40 by providing the mounting structure (the flange 6a and the set screw 6b). In addition, as an attachment structure for attaching the dehumidification apparatus 1 to the outer wall 40w, it is not limited to the thing by the flange 6a and the set screw 6b, You may use a bolt nut and an adhesive agent.

Further, when the dehumidifying device 1 is attached to the inner wall surface of the outer wall 40w of the building 40, the air 12 can easily flow around the dehumidifying device 1, so that the dehumidifying device 1 is surrounded like a duct (not shown). The growth of mold can be suppressed as compared with the case where it is attached to the mold.
However, the dehumidifier according to the present invention is not limited to the one attached to the outer wall 40w, and may be attached to the duct of the building 40. As for the case where it is attached to the duct in this way, when mold growth does not become a problem, or when it is already provided in the duct and it is easier to attach the dehumidifier to the outer wall 40w, etc. There is.

<About the example image>
An image of changes in temperature and humidity when the dehumidifier 1 is used will be described. For example, when the air 12 in the outdoor 14 has a temperature of about 30 degrees and a relative humidity of about 50%, the air 12 supplied by the ventilation fan 6X touches the cooling unit 20 to reach a temperature of about 20 degrees and a relative humidity of about 50%. 70%. At this time, the dew condensation water is discharged from the ridge 21b of the drainage portion 21 to the outdoors 14, and therefore dehumidified by reducing the amount of water vapor in the air. Then, when heated by the film heater 3, the temperature is about 23 degrees and the relative humidity is about 60%, and the air 12 having this temperature and relative humidity is supplied to the indoor 15.
Regarding the temperature of the cooling water flowing through the cooling pipe 20a of the cooler 2, the temperature of the cooling water flowing from the water storage tank or the like into the cooling unit 20 (frame 20d) is about 7 to 10 degrees, and returns from the cooling unit 20 to the water storage tank or the like. The temperature of the incoming cooling water is about 15 degrees. For example, when the dehumidifier 1 is used for 10 hours, the amount of water discharged to the outdoors 14 is about 15L.
As described above, when the outdoor air 14 is brought into contact with the cooling unit 20, dehumidification can be achieved by reducing the temperature and causing condensation to reduce the amount of water vapor in the air. Furthermore, the discomfort index can be lowered by lowering the relative humidity while the film heater 3 raises the supplied air 12 to an appropriate temperature that a person does not feel cold.

<About modification>
Next, a cooler 2X according to a modification will be described mainly with reference to FIG. FIG. 4 is a perspective view showing a dehumidifier according to a modification.
In the above-described embodiment shown in FIG. 2, the dehumidifying device 1 is integrally provided with the ventilation fan 6X. On the other hand, the cooler 2X according to the modified example does not integrally include the ventilation fan 6X.

  Unlike the cooler 2, the cooler 2X is not directly attached to the outer wall 40w (see FIG. 3) via the ventilation fan 6X, but is directly attached to the outer wall 40w. Specifically, the upper part of the frame 20Xd of the cooling part 20X and the lower part of the frame 21Xd of the drainage part 21X constituting the cooler 2X extend to the side away from the film heater 3 (outer wall 40w side). At the extended point, the flange 20b extends upward and downward, which are perpendicular to the extending direction, and away from each other.

  The cooler 2X is attached to the outer wall 40w by inserting the set screw 20c through the through hole formed in the flange 20b and screwing into the outer wall 40w with the flange 20b in surface contact with the outer wall 40w. Become. And since the film heater 3 is supported by the cooler 2X by the support body 3b, these will be attached to the outer wall 40w with the cooler 2X.

  The cooler 2X configured as described above can be dehumidified by being attached to the downstream side of the air 12 supplied by an existing ventilation fan (not shown). For this reason, it is not necessary to prepare a ventilation fan newly, and cost can be held down.

<< About dehumidification system >>
Next, a dehumidifying apparatus 1Y and a dehumidifying system S according to a modification will be described with reference to FIG. FIG. 5 is a schematic perspective view showing the dehumidification system S.
The dehumidifying device 1Y is provided in the cooling unit 20Y (heat exchanger 10), the film heater 3 supported by the cooling unit 20Y, other equipment (air conditioner 8) using a refrigerant, and the room 40b of the building 40. And a connecting portion 9 for connecting the cooling portion 20Y (heat exchanger 10). Here, the other device (the air conditioner 8) means a device outside the dehumidifying device 1Y provided separately from the dehumidifying device 1Y.
The dehumidifying system S includes the dehumidifying device 1Y and the air conditioner 8.

The air conditioner 8 includes an outdoor unit 8a having a compressor, an indoor unit 8b provided in a living room 40a of the building 40, a refrigerant pipe 8d that connects the outdoor unit 8a and the indoor unit 8b, an outdoor unit 8a, and an indoor unit. And the other heat exchangers (heat exchangers 8aa and 8ba) respectively provided in the machine 8b. Here, the other heat exchanger means a device outside the cooling unit 20Y provided separately from the cooling unit 20Y (heat exchanger 10).
The connection portion 9 includes a portion of the refrigerant pipe 8d of the air conditioner 8 through which the refrigerant before flowing into the indoor unit 8b (heat exchanger 8ba) passes and the refrigerant after flowing into the indoor unit 8b (heat exchanger 8ba). Both ends are connected by a cheese tube so as to be communicated with the inside of the portion through which it passes. And the connection part 9 is connected so that the cooling part 20Y may be passed. That is, a part of the refrigerant passing through the refrigerant pipe 8d flows into the connection part 9 and flows through the cooling part 20Y.

  In addition, the dew condensation water generated in the cooling unit 20Y (heat exchanger 10) is discharged by providing a drain pipe (drainage part) (not shown) passing through the connection part 9 and the refrigerant pipe 8d below the heat exchanger 10. That's fine. If it does in this way, dew condensation water can be discharged | emitted to the outdoor 14 with a drain pipe, and it can dehumidify.

The air 12 supplied from the outdoor 14 to the indoor 15 can be cooled by the dehumidifying system S using the refrigerant pipe 8d used in the air conditioner 8.
The cooling unit 20 </ b> Y according to the present embodiment is a heat exchanger 10 that performs heat exchange with a refrigerant flowing from another device (air conditioner 8) via the connection unit 9.
According to the dehumidifier 1Y, the relative humidity is maintained while cooling the air 12 in the indoor room 40b using the configuration of another device (air conditioner 8) that cools the air 12 in the indoor room 15a. Can be lowered.

In addition, although the connection part 9 which concerns on said dehumidification apparatus 1Y illustrated the structure which connects the cooling part 20Y (heat exchanger 10) and the indoor unit 8b (heat exchanger 8ba) in parallel, this invention is like this It is not limited to a simple configuration.
For example, the refrigerant pipe 8d and the connection part 9 may be arranged so as to be connected in series with the cooling unit 20Y (heat exchanger 10) and the indoor unit 8b (heat exchanger 8ba). In this case, it is preferable that the refrigerant supplied from the outdoor unit 8a is configured to pass through the cooling unit 20Y (heat exchanger 10) before the indoor unit 8b.
In this case, specifically, one part of the refrigerant pipe 8d through which the refrigerant supplied to the living room 40b passes is connected to the outdoor unit 8a and the cooling unit 20Y. In addition, the connection part 9 through which the refrigerant supplied to the living room 40a passes is connected to the cooling part 20Y and the indoor unit 8b. Further, the other part of the refrigerant pipe 8d is connected to the indoor unit 8b and the outdoor unit 8a.
With such a configuration, since the amount of heat absorbed by the cooling unit 20Y for dehumidification is small, the refrigerant after passing through the cooling unit 20Y can be effectively used for cooling the living room 40a by the indoor unit 8b.

  In the above embodiment, an example in which a dehumidifying device is attached to the outer wall has been described. Also good. For example, when the dehumidifying device is attached to the ceiling plate or the bottom plate, the dehumidifying device may be attached so that the dehumidifying device is disposed on the flow path of the air 12 supplied downward or upward. Specifically, the dehumidifying device may be rotated 90 degrees so that the film heater 3 is positioned on the supply side of the cooler 2 with respect to the mounting direction of the dehumidifying device according to the above embodiment.

This embodiment includes the following technical ideas.
(1) a cooler in which a cooling unit for cooling air supplied by a blower and a drainage unit disposed below the cooling unit are integrally configured;
A heater for heating the supplied air by adding heat,
The dehumidifying device, wherein the heater is integrally attached to the cooler.
(2) The dehumidifying device according to (1), wherein the heater is disposed on an extension in a supply direction of the air supplied through the cooling unit.
(3) further comprising a generator for generating electric power by rotational power generated from the blower,
The dehumidifier according to (1) or (2), wherein the heater uses the electric power supplied from the generator as a heat source.
(4) The dehumidifying device according to any one of (1) to (3), wherein the heater is a planar film heater, and the main surface of the film heater is disposed to face the cooling unit. .
(5) The dehumidifying device according to any one of (1) to (4), further including a support for attaching the heater to the cooler.
(6) The dehumidifying device according to any one of (1) to (5), wherein the blower is integrally attached to the cooler.
(7) A filter for removing foreign substances present in the air is further provided.
The filter is any one of (1) to (6) provided on the flow path of the supplied air and between the blower and the heater or upstream of the blower. The dehumidifying device described in 1.
(8) The dehumidifying device according to any one of (1) to (7), further including an attachment structure to a building wall.
(9) It further includes a connection part that connects the other part using the refrigerant and the cooling part,
The dehumidifying device according to any one of (1) to (8), wherein the cooling unit is a heat exchanger that performs heat exchange with the refrigerant flowing from the other device via the connection unit.
(10) The dehumidifying device according to (9),
An outdoor unit including a compressor, an indoor unit, a refrigerant pipe connecting the outdoor unit and the indoor unit, and other heat exchangers respectively provided in the outdoor unit and the indoor unit. Equipped with air conditioner,
The other device is the air conditioner,
A dehumidification system in which a refrigerant flows into the connection part by connecting the connection part to the refrigerant pipe of the air conditioner.
(11) The dehumidification system according to (10), wherein the cooling unit and the heater are arranged on a flow path of the air supplied by the blower.
(12) The blower is an intake-side blower that supplies air into the room,
The dehumidification system according to (10) or (11), further comprising: an exhaust-side blower that exhausts air to the outdoors; and a switch that switches power supply so that the intake-side blower and the exhaust-side blower operate simultaneously. .

S Dehumidification system 1, 1X, 1Y Dehumidifier 2, 2X Cooler 3 Film heater (heater)
3a Main surface 3b Support body (connection part)
4 Connection frame 4a Connection pin 4b Connection screw 5 Generator 5a Conductor 6X Ventilation fan (blower, intake side fan)
6Y Ventilation fan (exhaust side blower)
6a Flange (Mounting structure)
6b Set screw (Mounting structure)
6c Motor 6d Mounting frame (Mounting structure)
6e Rotating shaft 7 Filter 8 Air conditioner (other equipment)
8a Outdoor unit 8aa Heat exchanger (other heat exchangers)
8b Indoor unit 8ba Heat exchanger (other heat exchangers)
8d Refrigerant tube 9 Connection part 10 Heat exchanger (cooling part)
12 Air 13 Drain pipe 14 Outdoor 15 Indoor 20, 20X, 20Y Cooling section 20a Cooling pipe 20b Flange (mounting structure)
20c Set screw (Mounting structure)
20d frame 20Xd frame 21, 21X drainage part 21a receiving part 21b ２１ 21Xd frame 40 building 40a, 40b living room 40w outer wall

Claims (12)

A cooler in which a cooling unit that cools air supplied by a blower and a drainage unit disposed below the cooling unit are configured integrally;
A heater for heating the supplied air by adding heat,
The dehumidifying device, wherein the heater is integrally attached to the cooler.   The dehumidifier according to claim 1, wherein the heater is disposed on an extension of a supply direction of the air supplied through the cooling unit. A generator for generating electric power by rotational power generated from the blower;
The dehumidifier according to claim 1, wherein the heater uses the electric power supplied from the generator as a heat source.   The dehumidifier according to any one of claims 1 to 3, wherein the heater is a planar film heater, and the main surface of the film heater is disposed to face the cooling unit.   The dehumidification apparatus as described in any one of Claim 1 to 4 further provided with the support body which attaches the said heater to the said cooler.   The dehumidifier according to any one of claims 1 to 5, wherein the blower is integrally attached to the cooler. A filter for removing foreign matter present in the air;
7. The filter according to claim 1, wherein the filter is provided on a flow path of the supplied air, and is provided between the blower and the heater or upstream of the blower. Dehumidifier.   The dehumidification apparatus as described in any one of Claim 1 to 7 further equipped with the attachment structure to the wall of a building. It further comprises a connection part for connecting the cooling part with other equipment using a refrigerant,
The dehumidifying device according to any one of claims 1 to 8, wherein the cooling unit is a heat exchanger that performs heat exchange with the refrigerant flowing from the other device via the connection unit. A dehumidifying device according to claim 9;
An outdoor unit including a compressor, an indoor unit, a refrigerant pipe connecting the outdoor unit and the indoor unit, and other heat exchangers respectively provided in the outdoor unit and the indoor unit. Equipped with air conditioner,
The other device is the air conditioner,
A dehumidification system in which a refrigerant flows into the connection part by connecting the connection part to the refrigerant pipe of the air conditioner.   The dehumidifying system according to claim 10, wherein the cooling unit and the heater are arranged on a flow path of the air supplied by the blower. The blower is an intake-side blower that supplies air into the room,
The dehumidification system of Claim 10 or 11 further provided with the switch which switches supply of electric power so that the exhaust side air blower which exhausts air outside, and the said intake side air blower and the said exhaust side air blower may operate | move simultaneously.

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