JPH06213485A - Air-conditioning and ventilating device - Google Patents

Abstract

PURPOSE:To prevent the leakage of water in a humidifying system to the outside of the same. CONSTITUTION:A humidifier 6 is arranged so as to be faced to an air supplying passage between an air supplying fan 14 and an air outlet port 8 while waterproof structures, such as an eaves structure 53 for guiding water into a drain pan 43 provided below an inner wall surfaces constituting a space at a part wherein the humidifier 6 is incorporated, a waterproof wall and the like, are provided. According to this method, water, produced by the leakage of water from the humidifier 6 or by dewing, can be conducted smoothly into the drain pan 43 whereby the leakage of water to the outside of the device can be prevented.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an air conditioning ventilation device having a humidifying function for humidifying a supply air stream.

[0002]

2. Description of the Related Art As a conventional air-conditioning ventilation system of this type, there are those disclosed, for example, in Japanese Utility Model Laid-Open No. 3-124132, Japanese Utility Model Laid-Open No. 3-124133 and Japanese Utility Model Laid-Open No. 4-23929. is there.

That is, an exhaust blower for forming an exhaust flow is formed in an exhaust passage in a main body box body in which an air supply passage for passing fresh outdoor air and an exhaust passage for passing polluted air indoor are defined. In addition, air supply fans that form an air supply are installed in the air supply passages. A part of each of the air supply passage and the exhaust passage is composed of two working fluid passages of a heat exchange element, and a humidifier for humidifying a supply air flow in the air supply passage downstream of the heat exchange element. Is provided.
The humidifier has a configuration in which a water supply system is connected to the humidification element,
The humidifying element is provided on the drain pan.

The air-conditioning ventilator of the above construction is capable of continuously exchanging heat between the air supply flow and the exhaust air flow, and by humidifying the air supply supplied to the room with a humidifier, the state quantity relating to temperature and humidity changes. There is less air supply and humidification ventilation.

[0005]

In the conventional air-conditioning ventilator as described above, the composition related to humidification is mixed with the composition of the ventilation system, and it is necessary to solve the problem that water related to the humidification system is likely to occur. Contains challenges.
That is, if water is splashed in the humidifying part for some reason, water will leak from the gap between the main body box and the drain pan. In addition, water may be applied to the solenoid valve of the water supply system, causing insulation failure in the electric system, but since there is no configuration to monitor the presence of water, it is difficult to detect water leaks, resulting in water dripping and equipment failure. It is easy to reach to. Further, there is also a problem that various bacteria in the air may propagate on the humidifying element, which may reduce the cleanliness of the air supplied to the room.

The present invention has been made in order to solve the above conventional problems, and its object is to prevent water troubles due to the humidification system and to maintain the cleanliness of the air supplied to the room. .

[0007]

An air conditioning ventilation system according to a first aspect of the present invention humidifies a humidifier to a supply air flow that has been subjected to heat exchange between the supply and exhaust flows, and therefore an air supply blower and a supply air outlet. And a water-proof structure for guiding water into a drain pan provided below an inner wall surface that constitutes a space of a portion where the humidifier is incorporated, the water-proof structure being disposed so as to face an air supply passage between .

The air conditioner / ventilator according to the second aspect of the present invention particularly relates to the humidifier, in which a transparent tube for communicating with the water tank is provided at the end of the water bag.

The air conditioner / ventilator according to the third aspect of the present invention particularly relates to the humidifier, in which a net member smaller than water droplets is provided on the outlet side of the ventilation passage through which the supply air flow passes.

The air conditioner / ventilator according to the fourth aspect of the invention is provided with a water detector which detects when water is accumulated at a certain level in the drain pan.

In the air-conditioning ventilator according to the fifth aspect of the present invention, in particular, a part of the inner wall surface of the space where the humidifier is incorporated is constituted by the fan casing of the air supply blower, and the fan casing is integrally covered with the fan casing. The structure is provided with a waterproof structure.

[0012]

In the first aspect of the invention, water leaking from the humidifier or water caused by dew condensation can be smoothly caused to flow down to the drain pan, and water leak to the outside can be avoided.

According to the second aspect of the invention, it becomes possible to easily check the state of water transfer to the water bag.

In the third aspect of the invention, even if there is water leakage or dew condensation particularly in the humidifying section, the net member can prevent the water droplets from scattering due to the air supply.

According to the fourth aspect of the present invention, even if water is not normally drained from the drain drainage port of the drain pan due to a problem in drainage of the drain pan, even if water is collected in the drain pan, the water is drained from the drain pan. The presence of water can be detected before it overflows.

According to the fifth aspect of the invention, particularly, the structure of the part in which the humidifier is incorporated is simplified, and the waterproof structure can also be easily structured.

[0017]

1 to 3 show the overall construction of an air-conditioning ventilation system according to an embodiment of the present invention, and FIG. 4 and subsequent figures show details of the air-conditioning ventilation system according to an embodiment of the present invention. It shows the configuration. First, the overall configuration will be described with reference to FIGS. 1 to 3, and then the detailed configuration will be sequentially described.

This air-conditioning ventilator has an air supply passage for supplying fresh outdoor air into the room inside the main body 1 forming the outer casing, and an exhaust passage for exhausting the indoor air out of the room. Is defined in an independent state on all paths by the partition wall 2 and the like. An exhaust blower 3 forming an exhaust flow A is installed in the exhaust passage, and an air supply blower 4 forming a supply air flow B is installed in the air supply passage. Part of each of the air supply passage and the exhaust passage is formed of two working fluid passages of the built-in heat exchange element 5, which enables continuous heat exchange between the exhaust flow A and the supply air flow B. It is configured. A humidifier 6 is incorporated in the air supply passage downstream of the air supply blower 4. The inlet end of the air supply passage is a supply air inlet 7 formed on one side of the main body box 1 and is formed as a duct connectable connection port, and its outlet end is opened on the other side of the main body box 1. The formed air supply outlet 8 is formed as a connection port to which a duct can be connected. Further, the inlet end of the exhaust passage is an exhaust inlet 9 formed on the other side of the main body box 1 and is formed as a duct connectable connection port, and the inlet end is formed on one side of the main body box 1. The exhaust outlet 10 is formed as a duct-connectable connection port.

As shown in FIGS. 4, 5 and 6, the humidifier 6 which is provided in the air supply passage and humidifies the air supply B is formed of a moisture permeable material into a band-shaped bag. Water bag 11
It is provided with one or a plurality of humidifying parts 12 which are rolled into a cylindrical shape together with a spacing member which forms an air passage. The humidifying section 12 is a channel-shaped holding member 13 mounted on the partition wall 2 and the front inner wall surface of the main body box 1 in the air supply passage between the air supply blower 4 and the air supply outlet 8. Are arranged in a direction orthogonal to the air supply flow B, and a hose connection port is provided at the tip and the end of each water bag 11. A net (eliminator) 14 having a size smaller than a water droplet (3 mm or less) is detachably stretched at the outlet end of the ventilation passage of each humidifying part 12. The humidifier 6 is provided with a water supply system for conducting the humidifying water to the water bag 11 and a drainage system for treating the drain.

As shown in FIG. 7, the water supply system has a water supply tank 15 for storing water used for humidification above the humidification section 12, and a water supply pipe 1 for supplying water to the water supply tank 15.
6. A water supply tube 17 that connects the water supply tank 15 and each water bag 11 to supply water to the water bag 11 is mainly configured.

As shown in FIGS. 8, 9 and 10, the water supply tank 15 has a lid 2 having a plurality of hose connection ports 18, one water supply connection port 19 and one drainage port 20 at the bottom.
It is configured as a rectangular container with 1, and is attached to the upper side of the main body box 1 by attachment fittings 22 attached to both sides. As shown in FIG. 10, the mounting brackets 22 for mounting the water supply tank 15 include side plates 23 that correspond to the side surfaces of the water supply tank 15, a receiving plate 24 that receives the bottom surface, an upper plate 25 that corresponds to the upper surface, and a front surface and a rear surface, respectively. A tank holding portion is formed by a front plate and a rear plate 26 that are in contact with each other, and is attached to the main body box 1 by a mounting plate 27 formed by cutting and raising a part of the side plate 23. A notch window 28 is opened in the mounting bracket 22 from the center of the lower portion of the side plate 23 to the receiving plate 24, and a projection 29 formed on the bottom of the water supply tank 15 near the side is fitted. Water tank 1
The lid 21 of No. 5 hits the step of the tank main body by being dropped, and the upper end of the tank main body has a flush closed lid state, and is pressed by the upper plate 25 of the mounting bracket 22. In addition, reference numeral 30 in FIG. 9 denotes a water supply port, which is opened above the constant water level of the water supply tank 15 and is held at a step of the tank body, and the lid 21.
It is covered with a water supply port cover 30a which is pressed by.

An operating portion of a float switch 31 is arranged inside the water supply tank 15, and the water supply is controlled by the float switch 31 to adjust the water level of the water supply tank 15.
The interior of the drain port 20 is separated by a partition wall 32.
The water that has flowed over the water flows down to the drain port 20.
As shown in FIG. 9, the hose connection port 18 is a tubular projection in which a hole having a slightly larger diameter is connected to a hole formed in the bottom surface of the water supply tank 15 and a step portion 33 is provided in a series of water passage holes. It is formed as part 34.

The water supply pipe 16 is connected to the water supply connection port 19 of the water supply tank 15 via the electromagnetic valve 35, and the water supply tank 15 is controlled by the float switch 31 controlling the electromagnetic valve 35.
The water supply to is controlled. The solenoid valve 35 is attached to the mounting portion 36 fixed to the holding member 13 holding the humidifying portion 12, and as shown in FIGS.
At this point, the wire binding portion 38 is also crowned. The waterproof cover 37 is formed in the shape of an open cap at the bottom, and a pipe fitting portion 39 through which the pipe portion is closely fitted and passed is formed in the lower portion of the waterproof cover 37. Its departure is regulated.

The water supply tube 17 connects the hose connection ports at the tip and the end of each water bag 11 to each hose connection port 18 of the water tank 15, and connects the end of the water bag 11 and the water tank 15. The water supply tube 17a to be communicated is composed of a transparent tube that allows the internal state to be seen through. In addition, the water supply tube 17 that connects the tip of the water bag 11 and the water supply tank 15 is configured to have a double pipe structure with different diameters, as shown in FIG. 9, and the outer pipe 40 has the tubular protrusion 34 of the water supply tank 15. And the inner tube 41 is fitted to the outside of the step portion 33.
It is internally fitted to the position where it hits. The wall thickness of the inner pipe 41 and the step of the step portion 33 are set to be substantially the same, so that the inner diameter of the water passage from the water supply tank 15 to the tip of the water bag 11 is the same over the entire region.

The drainage system includes one surface of the fan casing 42 of the air supply blower 4, a partition wall 2 which is a partition wall on the side of the exhaust air inlet 9, and an inner wall surface of the main body box 1 having the air supply outlet 8. A drain pan 43 placed on the bottom of the air supply passage as a humidifying chamber surrounded by a part of the inner wall surface of the front surface is mainly configured. The drain pan 43 is placed on the bottom surface of the main body box 1 at a constant distance from the holding member 13 that holds the humidifying section 12, and the bottom thereof has a downward slope toward the recess 44 formed in the front center. The drain port 4 is attached to the center of the recess 44.
5 is formed. An end portion of a drainage pipe 46 connected to the drainage port 20 of the water supply tank 15 is held by the retainer 47 and guided into the drain pan 43, as shown in FIG.

As shown in FIGS. 14 and 15, the drain pan 4 is
In the main body box 1 on the extension line of the drainage port 45 of the recess 44 of No. 3, the drain pipe 4 made of steel pipe to be connected to the external drain treatment pipe
8 is attached. The drain pipe 48 and the drain port 45 of the drain pan 43 are connected by a stretchable connecting tube 49 in a gap formed by the recess 44 and the main body box 1, and the connecting portion is fastened by a tube clip 50. In the drain pipe 48, an inspection window opened in the corresponding portion of the main body box 1 is fastened and fixed by straddling a flange 51, and the inspection window is closed by an inspection lid 52 detachable from the outside.

The fan casing 42, which forms the inner peripheral surface of the humidifying chamber in which the drain pan 43 is mounted, is made of foamed resin, and has a waterproof structure that extends parallel to the upper edge of the drain pan 43 and extends from the inside toward the upper edge. The eaves structure 53 of FIG.
As shown in FIG. A waterproof wall 54 as another waterproof structure is lined on the inner wall surface forming the inner peripheral surface of the humidifying chamber of the main body box 1 on the opposite side of the fan casing 42. The lower end edge of the waterproof wall 54 enters inside the upper end edge of the drain pan 43 as shown in FIG. 16 and holds the upper end edge.

As shown in FIG. 17, a water detector 57 is attached to a support member 55, which supports the holding member 13 on the drain pan 43, via a mounting plate 56. The water detector 57 is an electrode type made of stainless steel, and the drain pan 4
3, the electrode 58 is connected to the drain port 45 of the drain pan 43.
As shown in FIG. 18, it hangs down to the center position of the inner diameter of the. However, the water detector 57 may be one in which an electrode 58 is printed on a face body as shown in FIG. 19 and attached to the inner surface of the drain pan 43.

Regarding the electric system, as shown in FIGS. 20 and 21, the air supply blower 4, the blower capacity changeover switch 59 of the exhaust blower 3, and a terminal block 60 for connecting an external power supply.
Is provided, and a U-shaped control circuit board mounting plate 61 that is mounted at a suitable distance from the side surface of the main body box 1 is provided, and between the side surface of the main body box 1 and the control circuit board mounting plate 61. The main electrical wiring 62 is housed in.
A control circuit board 63 is attached to the control circuit board attachment plate 61, and the whole is covered with a box-shaped cover 64.

As a waterproof structure between the inner wall surface forming the inner peripheral surface of the humidifying chamber of the main body box 1 on the side opposite to the fan casing 42 and the upper edge of the drain pan 43, as shown in FIG. The waterproof wall 54 can be omitted if a hollow waterproof packing 65 is fitted to prevent water leakage at the relevant portion. Also,
As another countermeasure against water leakage, as shown in FIG. 23, with respect to the flange of the connection port member 66 attached to the air supply outlet 8, a receiving portion 67 with a rising portion for receiving the flange is provided on the main body box 1 side. An assembling form in which the lower portion of the flange is fitted into the portion 67 is adopted.

The heat exchange ventilation function by simultaneous air supply / exhaust and the humidification processing function for the air supply in the air-conditioning ventilation apparatus having the above-mentioned structure are the same as those of the conventional example, and the basic operation is well known, and therefore the description thereof is omitted. In the following, the operation and function centering on the humidifier 6 will be described.

After the heat exchange, the supply airflow B is humidified through the humidification chamber and is blown out from the supply air outlet 8 to be supplied into the room. In the humidifier 6 that humidifies the air supply B in the humidifying chamber, water is introduced from the water supply tank 15 into each water bag 11 and the water bag 11 has moisture permeability, so that the air supply that passes through the air passage is It will be humidified.

Since the water bag 11 is subjected to an antibacterial treatment, it is possible to prevent germs and the like in the air from proliferating and to prevent the air supply B from being contaminated with the germs and the like during humidification.
The supply airflow B flows through the ventilation passages of the humidifying sections 12, and if there is condensation or water leakage in the water bag 11, it is blown away by the airflow, but water droplets are scattered at the outlet ends of the humidifying sections 12. Since the net 14 which is an obstacle is provided, the blown water droplets are caught by the net 14, flow down to the holding member 13, and are received by the drain pan 43 below. Regarding the splashing of water at a position that passes through the net 14 or does not pass through the net 14, it will scatter on the front and rear inner wall surfaces in the flow direction of the supply air flow B of the humidifying chamber. Trouble is prevented. That is, since the fan casing 42 is provided with the eaves structure 53 and the opposing side is provided with the waterproof structure by the waterproof wall 54 or the waterproof packing 65, all the water scattered in the above-described form flows down to the drain pan 43. And will be accepted.

All the water leaking around the water supply tank 15 and the water caused by the overflow of the water supply tank 15 are received by the drain pan 43 therebelow, and do not leak to the outside. The water received by the drain pan 43 passes through the drainage port 45, the connection tube 49, the drainage port 48, and the drainage pipe outside by a gradient.

If the external drain processing pipe is not sufficient due to the installation location or other reasons, water will be collected in the drain pan 43. In this case, the water detector 57 outputs a detection output when the drain water level rises to the center position of the opening of the drain drainage port 48, and based on this output, the electromagnetic valve 35 is closed to stop the water supply to the water supply tank 15, or It is possible to prevent the overflow of water from the drain pan 43 by giving an alarm or the like. When the drain pan 43 is smoothly drained, the water does not reach the position of the electrode 58 and the water detector 57 does not output the water detection output. Since the electromagnetic valve 35 is covered with the waterproof cover 37 including the wire binding portion 38, it is possible to avoid a malfunction such as a poor insulation due to water. The waterproof cover 37 itself is held by the pipe fitting portion 39 and is prevented from coming off due to mechanical vibration or the like with a simple structure.

The water supply tank 15 is kept at a constant water level by the float switch 31 and the solenoid valve 35, and water is supplied from the water supply port, but the water supply port 30 opens above the constant water level, and the water supply port cover 30a is provided. Since it is covered with, and the water for humidification does not reach the water supply system, just in case
Even if the humidifying water of 5 is contaminated with germs and the like, germs and the like are unlikely to diffuse from the water supply system to other water supply equipment, and malfunction of the float switch 31 due to disturbance of the water surface during water supply is prevented.

The humidifying water in the water supply tank 15 is guided to the water bag 11 by the water supply tubes 17 and 17a and used for humidification. At this time, since the water supply tube 17a is a transparent tube, it can be visually confirmed from the outside whether or not water is smoothly introduced to the water bag 11. In addition, the water supply tube 17 is a double tube and has high durability, and since the inner diameter of the flow path on the water supply side is the same, it is possible to smooth out air during initial water flow.

In terms of structure, the holding and fixing of the water supply tank 15 is ensured by the mounting plate 27, and the lid 21 can be firmly closed by the upper plate 25 of the mounting plate 27 without using screws or the like. Further, since the drain pipe 48 and the drain pipe 46 are connected by a stretchable connecting tube 49, the position of the drain pan 43 can be interchanged at the time of inspection from the inspection window, which facilitates maintenance and inspection of each part. .
Further, since the receiving portion 67 stands up below the attachment portion of the connection port member 66, water leakage from this portion to the outside is also prevented. Since the control circuit board 63 is shielded from the main electric wiring 62 by the control circuit board mounting plate 61, the control circuit board 63 is not affected by the electrical noise of the electric wiring 62.

As described above, this air-conditioning ventilator is characterized in that the water around the humidifier 6 is carefully and rationally taken, and the troubles related to water leakage can be virtually eliminated.

[0040]

As is apparent from the above description of the embodiments, according to the first aspect of the present invention, water leaking from the humidifier and water caused by dew condensation are smoothly flowed down to the drain pan to prevent water leaking to the outside. Therefore, it is possible to eliminate the occurrence of troubles caused by water in the humidifier.

According to the second aspect of the present invention, in particular, various germs mixed in the air supply do not propagate in the water bag,
It is possible to prevent contamination of the air supply supplied to the room with various bacteria.

According to the third aspect, it is possible to easily check the suitability of the state of conducting water to the water bag, and the maintainability is improved.

According to the fourth aspect of the invention, even if there is water leakage or dew condensation particularly in the humidifying portion, the net member can prevent the water droplets from splashing due to the air flow, and the water leakage due to the splashing of water can be eliminated. it can.

According to the fifth aspect of the invention, even if there is a problem in drainage of the drain pan, and water is accumulated in the drain pan, it is possible to detect the presence of water before the water overflows from the drain pan. Therefore, it is possible to avoid the overflow of water from the drain pan by the notification operation and the water supply stop operation based on this.

According to the sixth aspect of the invention, particularly the structure of the part in which the humidifier is incorporated is simplified, and the waterproof structure can be simply structured, and the cost is reduced.

[Brief description of drawings]

FIG. 1 is a perspective view showing an air conditioning ventilation device of an embodiment of the present invention with a top surface removed.

FIG. 2 is a cross-sectional plan view showing a configuration of an air conditioning / ventilation device according to an embodiment of the present invention.

FIG. 3 is a vertical cross-sectional front view showing the configuration of the air-conditioning ventilator according to the embodiment of the present invention.

FIG. 4 is a perspective view showing a configuration around a humidifier in the air-conditioning ventilation device of the embodiment of the present invention.

FIG. 5 is a perspective view showing a configuration of a humidifying section in the air conditioning ventilation device of the embodiment of the present invention.

FIG. 6 is a configuration diagram showing a configuration around a humidifier in the air-conditioning ventilation device of the embodiment of the present invention.

FIG. 7 is a side view showing the configuration around the humidifier in the air-conditioning ventilation system of the embodiment of the present invention.

FIG. 8 is a perspective view showing a partially cutaway view of a water supply tank in the air-conditioning ventilation system of the embodiment of the present invention.

FIG. 9 is a cross-sectional view of a water supply tank in the air conditioning / ventilation device of the embodiment of the present invention.

FIG. 10 is a partial perspective view showing the mounting structure of the water supply tank in the air-conditioning ventilation system of the embodiment of the present invention.

FIG. 11 is a perspective view showing a configuration around a solenoid valve in the air-conditioning ventilation system of the embodiment of the present invention.

FIG. 12 is an exploded perspective view showing a configuration around a solenoid valve in the air-conditioning ventilation system of the embodiment of the present invention.

FIG. 13 is a partial perspective view showing the drainage structure of the water supply tank in the air-conditioning ventilation system of the embodiment of the present invention.

FIG. 14 is a cross-sectional view of the drain pan drainage structure in the air-conditioning ventilation system of the embodiment of the present invention.

FIG. 15 is an exploded perspective view of the drainage drainage structure in the air-conditioning ventilation system of the embodiment of the present invention.

FIG. 16 is an explanatory view showing a waterproof structure in the air-conditioning ventilation system of the embodiment of the present invention.

FIG. 17 is a perspective view showing a water detector in the air-conditioning ventilation system of the embodiment of the present invention.

FIG. 18 is a cross-sectional view showing a mounted state of the water detector in the air-conditioning ventilator according to the embodiment of the present invention.

FIG. 19 is a partial perspective view showing another water detector in the air-conditioning ventilation system of the embodiment of the present invention.

FIG. 20 is an exploded perspective view of a mounting portion of an electric component in the air-conditioning ventilator according to the embodiment of the present invention.

FIG. 21 is a cross-sectional view of a mounting portion of an electric component in the air-conditioning ventilator according to the embodiment of the present invention.

FIG. 22 is a cross-sectional view showing another embodiment of the waterproof structure in the air-conditioning ventilation system of the embodiment of the present invention.

FIG. 23 is a partial cross-sectional view showing the attachment structure of the connection port member in the air-conditioning ventilation system of the embodiment of the present invention.

[Explanation of symbols]

 1 Main body box 2 Partition wall 3 Exhaust air blower 4 Air supply air blower 5 Heat exchange element 6 Humidifier 7 Air supply suction port 8 Air supply air outlet 9 Exhaust air intake port 10 Exhaust air outlet 11 Water bag 12 Humidification part 14 Net 15 Water Supply Tank 17 Water Supply Tube 17a Water Supply Tube 35 Solenoid Valve 42 Fan Casing 43 Drain Pan 48 Drain Drainage Port 53 Eave Structure 54 Waterproof Wall 57 Water Detector

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[Procedure amendment]

[Submission date] January 21, 1994

[Procedure Amendment 1]

[Document name to be amended] Statement

[Correction target item name] Full text

[Correction method] Change

[Correction content]

[Document name] Statement

[Title of Invention] Air-conditioning ventilation device

[Claims]

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an air conditioning ventilation device having a humidifying function for humidifying a supply air stream.

[0002]

2. Description of the Related Art As the conventional HVAC system of this kind, for example, real-Open No. 3 over 124,132 discloses and real No. 3 over 124,133 discloses and real Hei 4-23929 JP parallel
And Japanese Patent Publication No. 4-35653 .

That is, an exhaust blower for forming an exhaust flow is formed in an exhaust passage in a main body box body in which an air supply passage for passing fresh outdoor air and an exhaust passage for passing polluted air indoor are defined. In addition, air supply fans that form an air supply are installed in the air supply passages. A part of each of the air supply passage and the exhaust passage is composed of two working fluid passages of a heat exchange element, and a humidifier for humidifying a supply air flow in the air supply passage downstream of the heat exchange element. Is provided.
The humidifier has a configuration in which a water supply system is connected to the humidification element,
The humidifying element is provided on the drain pan.

The air-conditioning ventilator of the above construction is capable of continuously exchanging heat between the air supply flow and the exhaust air flow, and by humidifying the air supply supplied to the room with a humidifier, the state quantity relating to temperature and humidity changes. There is less air supply and humidification ventilation.

[0005]

In the conventional air-conditioning ventilator as described above, the composition related to humidification is mixed with the composition of the ventilation system, and it is necessary to solve the problem that water related to the humidification system is likely to occur. Contains challenges.
That is, if water is splashed in the humidifying part for some reason, water will leak from the gap between the main body box and the drain pan. In addition, water may be applied to the solenoid valve of the water supply system, causing insulation failure in the electric system, but since there is no configuration to monitor the presence of water, it is difficult to detect water leaks, resulting in water dripping and equipment failure. Easy to reach
Yes.

For example, the one of Japanese Utility Model Laid- Open No. 4-23929
The drain pipe connected to the drain port of the drain tray
If the slope is not set for some reason or reason,
Allows normal drainage treatment for water leaks that occur inside the aircraft.
Water will overflow from the drain tray and will leak outside.
Will be done.

Further , for example, Japanese Patent Publication No. 4-35653
In the case of
Complete water supply in the humidifier when checking for leaks
It is difficult to determine whether or not
There is. That is, the water level change of the water tank and the float switch
Only by stopping the operation of the
I don't know if I got it.

The present invention has been made in order to solve the above-mentioned conventional problems, and it is possible to easily check the water supply state to the humidifier while preventing troubles related to water due to the humidification system.
The purpose is to obtain an air conditioning ventilation system .

[0009]

An air conditioning ventilation system according to a first aspect of the present invention humidifies a humidifier to a supply air flow that has been subjected to heat exchange between the supply and exhaust flows, and therefore an air supply blower and a supply air outlet. And a water-proof structure for guiding water into a drain pan provided below an inner wall surface that constitutes a space of a portion where the humidifier is incorporated, the water-proof structure being disposed so as to face an air supply passage between .

The air conditioner / ventilator according to the second aspect of the present invention particularly relates to the humidifier, in which a return pipe , which is a transparent tube, is provided at the end of the water passage bag and communicates with the upper portion of the water supply tank.

The air conditioner / ventilator according to the third aspect of the present invention particularly relates to a humidifier, in which a net member smaller than water droplets is provided on the outlet side of the ventilation passage through which the air supply of the humidifier passes.

[0012] The fourth invention conditioning ventilator according to the, especially drain pan to the drain outlet above the water level in the water is accumulated when the time
It is equipped with a water detector to detect this.

[0013]

In the first aspect of the invention, water leaking from the humidifier or water caused by dew condensation can be smoothly caused to flow down to the drain pan, and water leak to the outside can be avoided.

In the second aspect of the invention, the water bag is particularly perfect.
Whether the water has been introduced to the
To be able to recognize .

In the third aspect of the invention, even if there is water leakage or dew condensation particularly in the humidifying section, the net member can prevent the water droplets from scattering due to the air supply.

According to the fourth aspect of the present invention, even if drainage of the drain pan is not normally performed and water is not normally drained from the drain drainage port of the drain pan, even if water is collected in the drain pan, the drainage port is more than the drainage port. If water collects in
Since it is detected at this point, it is possible to take precautionary measures such as stopping the water supply before the drain pan overflows.

[0017]

1 to 3 show the overall construction of an air-conditioning ventilation system according to an embodiment of the present invention, and FIG. 4 and subsequent figures show details of the air-conditioning ventilation system according to an embodiment of the present invention. It shows the configuration. First, the overall configuration will be described with reference to FIGS. 1 to 3, and then the detailed configuration will be sequentially described.

This air-conditioning ventilator has an air supply passage for supplying fresh outdoor air into the room inside the main body 1 forming the outer casing, and an exhaust passage for exhausting the indoor air out of the room. Is defined in an independent state on all paths by the partition wall 2 and the like. An exhaust blower 3 forming an exhaust flow A is installed in the exhaust passage, and an air supply blower 4 forming a supply air flow B is installed in the air supply passage. Part of each of the air supply passage and the exhaust passage is formed of two working fluid passages of the built-in heat exchange element 5, which enables continuous heat exchange between the exhaust flow A and the supply air flow B. It is configured. A humidifier 6 is incorporated in the air supply passage downstream of the air supply blower 4. The inlet end of the air supply passage is a supply air inlet 7 formed on one side of the main body box 1 and is formed as a duct connectable connection port, and its outlet end is opened on the other side of the main body box 1. The formed air supply outlet 8 is formed as a connection port to which a duct can be connected. Further, the inlet end of the exhaust passage is an exhaust inlet 9 formed on the other side of the main body box 1 and is formed as a duct connectable connection port, and the inlet end is formed on one side of the main body box 1. The exhaust outlet 10 is formed as a duct-connectable connection port.

As shown in FIGS. 4, 5 and 6, the humidifier 6 which is provided in the air supply passage and humidifies the air supply B is formed of a moisture permeable material into a band-shaped bag. Water bag 11
It is provided with one or a plurality of humidifying parts 12 which are rolled into a cylindrical shape together with a spacing member which forms an air passage. The humidifying section 12 is a channel-shaped holding member 13 mounted on the partition wall 2 and the front inner wall surface of the main body box 1 in the air supply passage between the air supply blower 4 and the air supply outlet 8. Are arranged in a direction orthogonal to the air supply flow B, and a hose connection port is provided at the tip and the end of each water bag 11. A net (eliminator) 14 having a size smaller than a water droplet (3 mm or less) is detachably stretched at the outlet end of the ventilation passage of each humidifying part 12. The humidifier 6 is provided with a water supply system for conducting the humidifying water to the water bag 11 and a drainage system for treating the drain.

As shown in FIG. 7, the water supply system has a water supply tank 15 for storing water used for humidification above the humidification section 12, and a water supply pipe 1 for supplying water to the water supply tank 15.
6. A water supply tube 17 that connects the water supply tank 15 and each water bag 11 to supply water to the water bag 11 is mainly configured.

As shown in FIGS. 8, 9 and 10, the water supply tank 15 has a lid 2 having a plurality of hose connection ports 18, one water supply connection port 19 and one drainage port 20 at the bottom.
It is configured as a rectangular container with 1, and is attached to the upper side of the main body box 1 by attachment fittings 22 attached to both sides. As shown in FIG. 10, the mounting brackets 22 for mounting the water supply tank 15 include side plates 23 that correspond to the side surfaces of the water supply tank 15, a receiving plate 24 that receives the bottom surface, an upper plate 25 that corresponds to the upper surface, and a front surface and a rear surface, respectively. A tank holding portion is formed by a front plate and a rear plate 26 that are in contact with each other, and is attached to the main body box 1 by a mounting plate 27 formed by cutting and raising a part of the side plate 23. A notch window 28 is opened in the mounting bracket 22 from the center of the lower portion of the side plate 23 to the receiving plate 24, and a projection 29 formed on the bottom of the water supply tank 15 near the side is fitted. Water tank 1
The lid 21 of No. 5 hits the step of the tank main body by being dropped, and the upper end of the tank main body has a flush closed lid state, and is pressed by the upper plate 25 of the mounting bracket 22. In addition, reference numeral 30 in FIG. 9 denotes a water supply port, which is opened above the constant water level of the water supply tank 15 and is held at a step of the tank body, and the lid 21.
It is covered with a water supply port cover 30a which is pressed by.

An operating portion of a float switch 31 is arranged inside the water supply tank 15, and the water supply is controlled by the float switch 31 to adjust the water level of the water supply tank 15.
The interior of the drain port 20 is separated by a partition wall 32.
The water that has flowed over the water flows down to the drain port 20.
As shown in FIG. 9, the hose connection port 18 is a tubular projection in which a hole having a slightly larger diameter is connected to a hole formed in the bottom surface of the water supply tank 15 and a step portion 33 is provided in a series of water passage holes. It is formed as part 34.

The water supply pipe 16 is connected to the water supply connection port 19 of the water supply tank 15 via the electromagnetic valve 35, and the water supply tank 15 is controlled by the float switch 31 controlling the electromagnetic valve 35.
The water supply to is controlled. The solenoid valve 35 is attached to the mounting portion 36 fixed to the holding member 13 holding the humidifying portion 12, and as shown in FIGS.
At this point, the wire binding portion 38 is also crowned. The waterproof cover 37 is formed in the shape of an open cap at the bottom, and a pipe fitting portion 39 through which the pipe portion is closely fitted and passed is formed in the lower portion of the waterproof cover 37. Its departure is regulated.

The water supply tube 17 connects the hose connection ports at the tip and the end of each water bag 11 to each hose connection port 18 of the water tank 15, and connects the end of the water bag 11 and the water tank 15. Water supply tube 17 that serves as a return pipe for communication
Reference character a is formed of a transparent tube that allows the internal state to be seen through. The end of the water supply tube 17a is connected to the water supply tank 15
Water level held by the float switch 31 inside
It opens higher. Further, the water supply tube 17 that connects the tip of the water bag 11 and the water supply tank 15 is particularly shown in FIG.
As shown in Fig. 4, the outer pipe 4 has a double pipe structure with different diameters.
0 is externally fitted to the tubular protrusion 34 of the water supply tank 15, and the inner pipe 41 is internally fitted to a position where the tip of the inner pipe 41 contacts the step 33. The wall thickness of the inner pipe 41 and the step of the step portion 33 are set to be substantially the same, so that the inner diameter of the water passage from the water supply tank 15 to the tip of the water bag 11 is the same over the entire region.

The drainage system includes one surface of the fan casing 42 of the air supply blower 4, a partition wall 2 which is a partition wall on the side of the exhaust air inlet 9, and an inner wall surface of the main body box 1 having the air supply outlet 8. A drain pan 43 placed on the bottom of the air supply passage as a humidifying chamber surrounded by a part of the inner wall surface of the front surface is mainly configured. The drain pan 43 is placed on the bottom surface of the main body box 1 at a constant distance from the holding member 13 that holds the humidifying section 12, and the bottom thereof has a downward slope toward the recess 44 formed in the front center. The drain port 4 is attached to the center of the recess 44.
5 is formed. An end portion of a drainage pipe 46 connected to the drainage port 20 of the water supply tank 15 is held by the retainer 47 and guided into the drain pan 43, as shown in FIG.

As shown in FIGS. 14 and 15, the drain pan 4 is
In the main body box 1 on the extension line of the drainage port 45 of the recess 44 of No. 3, the drain pipe 4 made of steel pipe to be connected to the external drain treatment pipe is connected.
8 is attached. The drain pipe 48 and the drain port 45 of the drain pan 43 are connected by a stretchable connecting tube 49 in a gap formed by the recess 44 and the main body box 1, and the connecting portion is fastened by a tube clip 50. In the drain pipe 48, an inspection window opened in the corresponding portion of the main body box 1 is fastened and fixed by straddling a flange 51, and the inspection window is closed by an inspection lid 52 detachable from the outside.

The fan casing 42, which forms the inner peripheral surface of the humidifying chamber in which the drain pan 43 is mounted, is made of foamed resin, and has a waterproof structure that extends parallel to the upper edge of the drain pan 43 and extends from the inside toward the upper edge. The eaves structure 53 of FIG.
As shown in FIG. A waterproof wall 54 as another waterproof structure is lined on the inner wall surface forming the inner peripheral surface of the humidifying chamber of the main body box 1 on the opposite side of the fan casing 42. The lower end edge of the waterproof wall 54 enters inside the upper end edge of the drain pan 43 as shown in FIG. 16 and holds the upper end edge.

As shown in FIG. 17, a water detector 57 is attached to a support member 55, which supports the holding member 13 on the drain pan 43, via a mounting plate 56. The water detector 57 is an electrode type made of stainless steel, and the drain pan 4
3, the electrode 58 is connected to the drain port 45 of the drain pan 43.
As shown in FIG. 18, it hangs down to the center position of the inner diameter of the. However, the water detector 57 may be one in which an electrode 58 is printed on a face body as shown in FIG. 19 and attached to the inner surface of the drain pan 43.

Regarding the electric system, as shown in FIGS. 20 and 21, the air supply blower 4, the blower capacity changeover switch 59 of the exhaust blower 3, and a terminal block 60 for connecting an external power supply.
Is provided, and a U-shaped control circuit board mounting plate 61 that is mounted at a suitable distance from the side surface of the main body box 1 is provided, and between the side surface of the main body box 1 and the control circuit board mounting plate 61. The main electrical wiring 62 is housed in.
A control circuit board 63 is attached to the control circuit board attachment plate 61, and the whole is covered with a box-shaped cover 64.

As a waterproof structure between the inner wall surface forming the inner peripheral surface of the humidifying chamber of the main body box 1 on the side opposite to the fan casing 42 and the upper edge of the drain pan 43, as shown in FIG. The waterproof wall 54 can be omitted if a hollow waterproof packing 65 is fitted to prevent water leakage at the relevant portion. Also,
As another countermeasure against water leakage, as shown in FIG. 23, with respect to the flange of the connection port member 66 attached to the air supply outlet 8, a receiving portion 67 with a rising portion for receiving the flange is provided on the main body box 1 side. An assembling form in which the lower portion of the flange is fitted into the portion 67 is adopted.

The heat exchange ventilation function by simultaneous air supply / exhaust and the humidification processing function for the air supply in the air-conditioning ventilation apparatus having the above-mentioned structure are the same as those of the conventional example, and the basic operation is well known, and therefore the description thereof is omitted. In the following, the operation and function centering on the humidifier 6 will be described.

After the heat exchange, the supply airflow B is humidified through the humidification chamber and is blown out from the supply air outlet 8 to be supplied into the room. In the humidifier 6 that humidifies the air supply B in the humidifying chamber, water is introduced from the water supply tank 15 into each water bag 11 and the water bag 11 has moisture permeability, so that the air supply that passes through the air passage is It will be humidified.

Since the water bag 11 is subjected to an antibacterial treatment, it is possible to prevent germs and the like in the air from proliferating and to prevent the air supply B from being contaminated with the germs and the like during humidification.
The supply airflow B flows through the ventilation passages of the humidifying sections 12, and if there is condensation or water leakage in the water bag 11, it is blown away by the airflow, but water droplets are scattered at the outlet ends of the humidifying sections 12. Since the net 14 which is an obstacle is provided, the blown water droplets are caught by the net 14, flow down to the holding member 13, and are received by the drain pan 43 below. Regarding the splashing of water at a position that passes through the net 14 or does not pass through the net 14, it will scatter on the front and rear inner wall surfaces in the flow direction of the supply air flow B of the humidifying chamber. Trouble is prevented. That is, since the fan casing 42 is provided with the eaves structure 53 and the opposing side is provided with the waterproof structure by the waterproof wall 54 or the waterproof packing 65, all the water scattered in the above-described form flows down to the drain pan 43. And will be accepted.

All the water leaking around the water supply tank 15 and the water caused by the overflow of the water supply tank 15 are received by the drain pan 43 therebelow, and do not leak to the outside. The drain pan 43 to receive water passes through the connecting tube 49 from the discharge port 45 by the gradient, are wastewater treatment by drainage process piping external.

[0035] In the installation location and other circumstances, become water accumulates it in the drain pan 43 in the case of such as the gradient of the external drain processing piping is not achieved enough. In this case, when the water detector 57 reaches a water level above the drain port 45, a detection output is output at that time, and based on this output, the solenoid valve 35 is closed to stop the water supply to the water supply tank 15 or notify by an alarm operation. Therefore, the overflow of water from the drain pan 43 can be prevented. When the drain pan 43 is smoothly drained, the water does not reach the position of the electrode 58 and the water detector 57 does not output the water detection output.
Since the electromagnetic valve 35 is covered with the waterproof cover 37 including the wire binding portion 38, it is possible to avoid a malfunction such as a poor insulation due to water. The waterproof cover 37 itself is held by the pipe fitting portion 39 and is prevented from coming off due to mechanical vibration or the like with a simple structure.

Water due to dew condensation also collects in the drain pan 43.
However, the position of the electrode 58 is at the center position of the inner diameter of the drainage port 45.
Therefore, a small amount of water accumulated due to condensation will be detected,
There is no inconvenience such as water supply being stopped. Also, water bag 1
There is a water leak from the 1st grade and the capacity of the drain pan 43 is small.
If the water level rises very quickly, the position of the electrode 58
If the table is above the drain pan 43,
By the time you stop the water supply, you will overflow
However, the position of the electrode 58 is at the center position of the inner diameter of the drainage port 45.
To store water until the water supply is stopped.
The volume will be secured.

The water supply tank 15 is kept at a constant water level by the float switch 31 and the solenoid valve 35, and water is supplied from the water supply port, but the water supply port 30 opens above the constant water level, and the water supply port cover 30a. Since it is covered with, and the water for humidification does not reach the water supply system, just in case
Even if the humidifying water of 5 is contaminated with germs and the like, germs and the like are unlikely to diffuse from the water supply system to other water supply equipment, and malfunction of the float switch 31 due to disturbance of the water surface during water supply is prevented.

The humidifying water in the water supply tank 15 is guided to the water bag 11 by the water supply tubes 17 and 17a and used for humidification. At this time , since the water supply tube 17a, which is the return tube, is a transparent tube, it can be directly visually confirmed from the outside whether or not water is smoothly introduced to the water bag 11. Therefore, if there is no water leak in each part by the water supply test.
When inspecting, the water bag 11 of the humidifier 6 is completely filled with water.
Since it can be visually checked to see if it has been supplied,
The work is easy and the reliability of the water supply test is high. In addition,
Visibility is maintained without connecting a return pipe to the water tank 15.
You can do it, but it will drain water and waste water.
Will be In addition, the water supply tube 17 is a double tube and has high durability, and since the inner diameter of the flow path on the water supply side is the same, it is possible to smooth out air during initial water flow.

In terms of structure, the holding and fixing of the water supply tank 15 is ensured by the mounting plate 27, and the lid 21 can be firmly closed by the upper plate 25 of the mounting plate 27 without using screws or the like. Further, since the drain pipe 48 and the drain pipe 46 are connected by a stretchable connecting tube 49, the position of the drain pan 43 can be interchanged at the time of inspection from the inspection window, which facilitates maintenance and inspection of each part. .
Further, since the receiving portion 67 stands up below the attachment portion of the connection port member 66, water leakage from this portion to the outside is also prevented. Since the control circuit board 63 is shielded from the main electric wiring 62 by the control circuit board mounting plate 61, the control circuit board 63 is not affected by the electrical noise of the electric wiring 62.

As described above, this air-conditioning ventilation system is characterized in that the water around the humidifier 6 is carefully and rationally taken, and the troubles related to water leakage can be virtually eliminated.

[0041]

As is apparent from the above description of the embodiments, according to the first aspect of the present invention, water leaking from the humidifier and water caused by dew condensation are smoothly flowed down to the drain pan to prevent water leaking to the outside. Therefore, it is possible to eliminate the occurrence of troubles caused by water in the humidifier.

According to the second aspect of the invention, since the suitability of the state of conducting water to the water bag is easily determined by visual inspection, the water supply test
Can be performed easily and reliably and the maintainability is improved .

According to the third aspect of the invention, even if there is water leakage or dew condensation, especially in the humidifying part, the net member can prevent the water droplets from splashing due to the air supply, and eliminate the water leakage due to the splashing of water. it can.

According to the fourth invention, especially from the drain pan.
Even if there is a problem in the drainage route of the water and water collects in the drain pan, the presence of water can be detected before the water overflows from the drain pan, and based on this, a notification operation or a water supply stop operation This prevents water from overflowing from the drain pan and informs you with a small amount of water pool.
It is possible to avoid inconveniences such as cropping and water supply stop operation.

[Brief description of drawings]

FIG. 1 is a perspective view showing an air conditioning ventilation device of an embodiment of the present invention with a top surface removed.

FIG. 2 is a cross-sectional plan view showing a configuration of an air conditioning / ventilation device according to an embodiment of the present invention.

FIG. 3 is a vertical cross-sectional front view showing the configuration of the air-conditioning ventilator according to the embodiment of the present invention.

FIG. 4 is a perspective view showing a configuration around a humidifier in the air-conditioning ventilation device of the embodiment of the present invention.

FIG. 5 is a perspective view showing a configuration of a humidifying section in the air conditioning ventilation device of the embodiment of the present invention.

FIG. 6 is a configuration diagram showing a configuration around a humidifier in the air-conditioning ventilation device of the embodiment of the present invention.

FIG. 7 is a side view showing the configuration around the humidifier in the air-conditioning ventilation system of the embodiment of the present invention.

FIG. 8 is a perspective view showing a partially cutaway view of a water supply tank in the air-conditioning ventilation system of the embodiment of the present invention.

FIG. 9 is a cross-sectional view of a water supply tank in the air conditioning / ventilation device of the embodiment of the present invention.

FIG. 10 is a partial perspective view showing the mounting structure of the water supply tank in the air-conditioning ventilation system of the embodiment of the present invention.

FIG. 11 is a perspective view showing a configuration around a solenoid valve in the air-conditioning ventilation system of the embodiment of the present invention.

FIG. 12 is an exploded perspective view showing a configuration around a solenoid valve in the air-conditioning ventilation system of the embodiment of the present invention.

FIG. 13 is a partial perspective view showing the drainage structure of the water supply tank in the air-conditioning ventilation system of the embodiment of the present invention.

FIG. 14 is a cross-sectional view of the drain pan drainage structure in the air-conditioning ventilation system of the embodiment of the present invention.

FIG. 15 is an exploded perspective view of the drainage drainage structure in the air-conditioning ventilation system of the embodiment of the present invention.

FIG. 16 is an explanatory view showing a waterproof structure in the air-conditioning ventilation system of the embodiment of the present invention.

FIG. 17 is a perspective view showing a water detector in the air-conditioning ventilation system of the embodiment of the present invention.

FIG. 18 is a cross-sectional view showing a mounted state of the water detector in the air-conditioning ventilator according to the embodiment of the present invention.

FIG. 19 is a partial perspective view showing another water detector in the air-conditioning ventilation system of the embodiment of the present invention.

FIG. 20 is an exploded perspective view of a mounting portion of an electric component in the air-conditioning ventilator according to the embodiment of the present invention.

FIG. 21 is a cross-sectional view of a mounting portion of an electric component in the air-conditioning ventilator according to the embodiment of the present invention.

FIG. 22 is a cross-sectional view showing another embodiment of the waterproof structure in the air-conditioning ventilation system of the embodiment of the present invention.

FIG. 23 is a partial cross-sectional view showing the attachment structure of the connection port member in the air-conditioning ventilation system of the embodiment of the present invention.

[Explanation of reference signs] 1 main body box 2 partition wall 3 exhaust blower 4 air supply blower 5 heat exchange element 6 humidifier 7 air supply inlet 8 air supply outlet 9 exhaust inlet 10 exhaust outlet 11 water bag 12 Humidification part 14 Net 15 Water supply tank 17 Water supply tube 17a Water supply tube 35 Solenoid valve 42 Fan casing 43 Drain pan 53 Eaves structure 54 Waterproof wall 57 Water detector

[Procedure Amendment 2]

[Document name to be corrected] Drawing

[Name of item to be corrected] Figure 6

[Correction method] Change

[Correction content]

[Figure 6]

Front page continuation (72) Inventor Kazuaki Shimobayashi 3-40 Tegano Shimobane Nakatsugawa City Gifu Prefecture Mitsubishi Electric Engineering Co., Ltd. Nagoya Office Nakatsugawa Branch (72) Inventor Kenji Suzuki Teganoshita Nakatsugawa City, Gifu Prefecture Width 3-40 Mitsubishi Electric Engineering Co., Ltd., Nagoya Works Nakatsugawa Branch (72) Inventor Haruhiko Tamaki 3-40 Teganoshita, Nakatsugawa, Gifu Prefecture Mitsubishi Electric Engineering Co., Ltd. Nagoya Works Nakatsugawa Branch (72) Invention Kazuhito Kojima 3-40 Tegano Shimobane, Nakatsugawa City, Gifu Prefecture Mitsubishi Electric Engineering Co., Ltd. Nagoya Office Nakatsugawa Branch (72) Inventor Shigetoshi Hibino 3-40 Tegano Shimobane Nakatsugawa City, Gifu Prefecture Mitsubishi Electric Engineering Co., Ltd. Inside the Nakatsugawa branch of Nagoya office

Claims (5)

[Claims] 1. A pair of inlets and outlets are provided on the indoor side and the outdoor side, respectively, and inside, an air supply passage communicating one of the inlets with one of the outlets, and the inlet. Of the main body defining an exhaust passage that communicates the other one with the other one of the outlets, an exhaust blower that is incorporated in the exhaust passage and forms an exhaust flow in the exhaust passage, and the air supply passage A built-in blower for forming a supply air flow in the supply air passage, a part of each of the supply air passage and the exhaust passage is formed by each working fluid passage, and the exhaust air and the supply air flow are continuously connected. A heat exchange element for performing a proper heat exchange, a spacing member that forms a ventilation passage of a moisture permeable material, and a humidifying portion that is wound in a roll, and this humidifying portion includes the air supply blower and the air supply passage outlet. Humidifier placed facing the air supply passage between the humidifier, and installed near this humidifier The water supply system for the humidifying water, which consists of the water supply tank, the solenoid valve, and the water supply pipe, etc., is installed below the upper air humidifier,
An air conditioning and ventilation device comprising a drain pan having a drain port on the bottom side, and a waterproof structure for guiding water into the drain pan with respect to an inner wall surface forming a space of a portion incorporating the humidifier. 2. The air-conditioning ventilator according to claim 1, wherein the humidifier is provided with a transparent tube connected to the water supply tank at the end of the water bag. 3. The air conditioning / ventilation apparatus according to claim 1, wherein the humidifier is provided with a mesh member having meshes smaller than water droplets on the outlet side of the ventilation passage through which the supply air flows in the humidifier. 4. The air conditioning / ventilation apparatus according to claim 1, further comprising a water detector that detects when water is accumulated at a constant water level in the drain pan. 5. A part of an inner wall surface of the space where the humidifier is incorporated is formed of a fan casing of an air supply blower, and the fan casing is integrally provided with a waterproof structure by an eaves structure. The air-conditioning ventilator according to claim 1.