JP7270411B2 - heat exchange ventilator - Google Patents

Description

TECHNICAL FIELD The present invention relates to a heat exchange ventilator that performs ventilation while exchanging heat between air supplied from the outside to the room and exhaust air from the room to the outside.

Patent Literature 1 discloses a heat exchange ventilator in which a filter, a heat exchanger, and a motor can be taken out of the casing through openings in the casing that constitute the supply air passage and the exhaust air passage during maintenance. The size of the main body of the heat exchange ventilator disclosed in Patent Document 1 is the size of the casing.

Japanese Patent No. 6150742

The heat exchange ventilator disclosed in Patent Document 1 has an installation surface such as a ceiling, a floor, or a wall with an inspection opening that is larger than the main body of the device in order to replace the casing that constitutes the supply air passage and the exhaust air passage. had to set.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a heat exchanging ventilator in which the members constituting the supply air passage and the exhaust air passage can be taken out from an inspection opening that is smaller than the main body of the device. .

In order to solve the above-described problems and achieve the object, the present invention provides a first air passage connecting a first outside air inlet and a first outside air outlet, a first indoor air inlet and a first A blower unit comprising a second air passage connecting the indoor air outlet of the air passage, an air supply blower installed in the first air passage, and an exhaust blower installed in the second air passage; A third air passage connecting the second outside air inlet and the second outside air outlet, a fourth air passage connecting the second indoor air inlet and the second indoor air outlet, and a third a heat exchanger unit comprising a heat exchanger positioned across the air passage and a fourth air passage. A device composed of a blower unit and a heat exchanger unit connected so that the first air passage communicates with the third air passage and the second air passage communicates with the fourth air passage A supply air passage extending from the first outside air inlet to the second outside air discharge port and an exhaust air passage extending from the second room air inlet to the first room air discharge port are formed in the main body. The heat exchanger exchanges heat between the supply airflow generated in the supply airflow path by the supply air blower and the exhaust flow generated in the exhaust airflow path by the exhaust air blower.

ADVANTAGE OF THE INVENTION According to this invention, it is effective in the heat exchange ventilator which can take out the member which comprises an air supply air path and an exhaust air path from the inspection opening smaller than a device main body.

1 is a perspective view of a heat exchange ventilator according to Embodiment 1 of the present invention; 1 is a top view of a heat exchange ventilator according to Embodiment 1. FIG. FIG. 2 is an exploded perspective view of the heat exchange ventilator according to Embodiment 1, with the heat exchanger unit removed from the main body. 3 is an exploded perspective view of the heat exchange ventilator according to Embodiment 1, with the blower unit moved to the installation position of the heat exchanger unit; FIG. FIG. 2 is an exploded perspective view of the heat exchange ventilator according to Embodiment 1, with the blower unit taken out from the main body. Side view of heat exchange ventilator according to Embodiment 1 Sectional view of heat exchange ventilator according to Embodiment 1 Detail view of the portion where the frame of the heat exchange ventilator according to Embodiment 1 supports the blower unit The figure which shows the modification of the heat-exchange ventilator based on Embodiment 1.

A heat exchanging ventilator according to an embodiment of the present invention will be described in detail below with reference to the drawings. In addition, this invention is not limited by this embodiment.

Embodiment 1.
FIG. 1 is a perspective view of a heat exchange ventilator according to Embodiment 1 of the present invention. A heat exchange ventilator 11 according to Embodiment 1 includes a heat exchanger unit 1 , a blower unit 2 and a frame 12 . The heat exchanger unit 1 and the blower unit 2 are attached to the frame 12 . In Embodiment 1, the heat exchange ventilator 11 is formed by connecting the heat exchanger unit 1 and the blower unit 2 . The inspection opening 10 is a frame-shaped member that is fitted into an opening formed in a ceiling surface, a wall surface, or a floor surface. Although not shown, the inspection port 10 has an openable/closable or detachable lid, and can close an opening in the ceiling, wall, or floor. The opening in the ceiling surface, wall surface, or floor surface in which the inspection port 10 is installed is smaller than the device main body.

2 is a top view of the heat exchange ventilator according to Embodiment 1. FIG. In FIG. 2, the inside of the heat exchange ventilator 11 is visualized by omitting illustration of the top surface. The frame 12 has an outdoor air inlet 5 for sucking outdoor air, an indoor outlet 16 for blowing outdoor air, an indoor inlet 6 for sucking indoor air, and an outdoor outlet 15 for discharging indoor air.

The blower unit 2 has an outside air inlet 21 that is a first outside air inlet into which outside air flows, an outside air discharge port 22 that is a first outside air discharge port that discharges outside air, and a first indoor air into which room air flows. It has an indoor air inlet 23 which is an air inlet, and an indoor air outlet 24 which is a first indoor air outlet for discharging the indoor air. The blower unit 2 includes a first air passage 31 that connects the outside air inlet 21 and the outside air outlet 22, and a second air passage 32 that connects the room air inlet 23 and the room air outlet 24. .

The heat exchanger unit 1 includes an outside air inlet 25 as a second outside air inlet into which outside air flows, an outside air outlet 26 as a second outside air outlet through which outside air is discharged, and a second outside air outlet 26 through which room air flows. and an indoor air outlet 28 that is a second indoor air outlet for discharging the indoor air. The heat exchanger unit 1 includes a third air passage 33 that connects the outside air inlet 25 and the outside air outlet 26, and a fourth air passage 34 that connects the room air inlet 27 and the room air outlet 28. ing. The heat exchanger unit 1 includes a heat exchanger 9 installed across the third air passage 33 and the fourth air passage 34 .

When the heat exchanger unit 1 and the blower unit 2 are attached to the frame 12, the outside air inlet 25 of the heat exchanger unit 1 and the outside air outlet 22 of the blower unit 2 communicate with each other, and the indoor air of the heat exchanger unit 1 is The outlet 28 and the indoor air inlet 23 of the blower unit 2 communicate with each other. Also, the indoor air inlet 27 and the indoor air inlet 6 of the heat exchanger unit 1 communicate with each other, and the outdoor air outlet 26 and the indoor outlet 16 of the heat exchanger unit 1 communicate with each other. Further, the indoor air outlet 24 and the outdoor outlet 15 of the blower unit 2 communicate with each other, and the outdoor air inlet 21 and the outdoor air inlet 5 of the blower unit 2 communicate with each other. Therefore, in the heat exchange ventilator 11, the heat exchanger unit 1 and the blower unit 2 attached to the frame 12 are connected to the outdoor air inlet 5 by connecting the first air passage 31 and the third air passage 33. , to the indoor air outlet 16 is formed in the main body of the apparatus. Further, the heat exchanger unit 1 and the blower unit 2 attached to the frame 12 are connected from the indoor air inlet 27 to the indoor air outlet 24 by the communication between the second air passage 32 and the fourth air passage 34 . An exhaust air passage leading to is formed in the apparatus main body.

The heat exchange ventilator 11 is composed of supply air, which is outside air sucked into the heat exchange ventilator 11 through the outdoor intake port 5 by the air supply blower 7, and heat exchange ventilator 11 through the indoor intake port 6 by the exhaust blower 8. Ventilation is performed while heat is exchanged by a heat exchanger 9 with the exhaust air, which is the room air sucked into the interior 11. - 特許庁

The blower unit 2 includes an air supply blower 7 installed in the first air passage 31 and an exhaust air blower 8 installed in the second air passage 32 . The heat exchanger unit 1 is configured with a heat exchanger 9 inscribed therein. The heat exchange ventilator 11 has the blower unit 2 and the heat exchanger unit 1 arranged side by side, and is installed in the space above the ceiling, under the floor, or inside the wall. The size of the heat exchange ventilator 11 is larger than the maximum size inside the frame of the inspection door 10 .

FIG. 3 is an exploded perspective view of the heat exchange ventilator according to Embodiment 1, with the heat exchanger unit removed from the main body. Here, it is assumed that the heat exchange ventilator 11 is installed in the ceiling space or between floors of the building. The heat exchanger unit 1 is installed by being attached to the frame 12 . By removing the heat exchanger unit 1 from the frame 12, the entire heat exchanger unit 1 can be removed from the installation space above the ceiling or between floors through the inspection door 10. Also, the entire heat exchanger unit 1 can be inserted through the inspection door 10 into the installation space above the ceiling or between floors.

FIG. 4 is an exploded perspective view of the heat exchanging ventilator according to Embodiment 1, with the blower unit moved to the installation position of the heat exchanger unit. FIG. 5 is an exploded perspective view of the heat exchanging ventilator according to Embodiment 1 with the blower unit removed from the main body. The blower unit 2 attached to the frame 12 is slid to the installation position of the heat exchanger unit 1. - 特許庁By removing the blower unit 2 from the frame 12 after moving it to the installation position of the heat exchanger unit 1, the whole blower unit 2 can be taken out from the installation space such as the ceiling through the inspection opening 10.例文帳に追加Also, the entire blower unit 2 can be inserted through the inspection opening 10 into an installation space such as a ceiling space.

The frame 12 can be removed from the installation space through the inspection opening 10 after the blower unit 2 and the heat exchanger unit 1 are removed from the installation space through the inspection opening 10 . Also, the frame 12 can be entirely inserted through the inspection opening 10 into an installation space such as a ceiling space before inserting the blower unit 2 and the heat exchanger unit 1 into the installation space through the inspection opening 10. .

The blower unit 2, the heat exchanger unit 1, and the frame 12 can each be taken out of the installation space such as the ceiling through the inspection opening 10, or inserted into the installation space such as the ceiling through the inspection opening 10. , the heat exchanging ventilator 11 can be replaced without tearing down the ceiling, floor or wall.

6 is a side view of the heat exchange ventilator according to Embodiment 1. FIG. 7 is a cross-sectional view of the heat exchange ventilator according to Embodiment 1. FIG. FIG. 7 shows a cross section along line VII-VII in FIG. As shown in FIG. 7, the blower unit 2 is supported by a frame 12. As shown in FIG.

FIG. 8 is a detailed view of the portion where the frame of the heat exchanging ventilator according to Embodiment 1 supports the blower unit. As shown in FIG. 8, the blower unit 2 is provided with an L-shaped mounting hook 14 . Further, the frame 12 is provided with a hook shape portion 13 with which the mounting hook 14 can be engaged. The blower unit 2 can be hooked to the frame 12 by engaging the attachment hook 14 with the hook shape portion 13 .

Like the blower unit 2, the heat exchanger unit 1 also has mounting hooks 14 and can be hooked on the frame 12. - 特許庁

The fan unit 2 and the heat exchanger unit 1 hooked on the frame 12 can be slid and moved along the hook shape portion 13 . That is, the hook-shaped portion 13 is a guide portion that slidably supports the heat exchanger unit 1 and the blower unit 2 .

In the above description, the heat exchanger unit 1 is arranged in front of the inspection opening 10, and the configuration in which the blower unit 2 is moved and taken out has been described. may

Moreover, the mounting method and mounting positions of the heat exchanger unit 1 and the blower unit 2 are not limited to the illustrated methods and positions.

Further, the fan unit 2 may be divided into an air supply side fan unit and an exhaust side fan unit, and the heat exchanger unit 1 may be installed between the air supply side fan unit and the exhaust side fan unit. By dividing the fan unit 2 into the air supply side fan unit and the exhaust side fan unit, the air supply side fan unit and the exhaust side fan unit are made smaller and lighter than the fan unit 2, so maintenance work is reduced. improve sexuality.

The heat exchanger unit 1 includes a panel provided with at least one of an indoor air outlet for blowing out outdoor air and an indoor air inlet for sucking in indoor air. You may provide what is not provided. FIG. 9 is a diagram showing a modification of the heat exchange ventilator according to Embodiment 1. FIG. The heat exchanger unit 1 has a panel 17 provided with an indoor air outlet 16 . The frame 12 is provided with the indoor air inlet 6 that is not provided in the panel 17 among the indoor air outlet 16 and the indoor air inlet 6 . Since the heat exchange ventilator 11 according to the modification of the first embodiment does not require a duct for passing outdoor air after heat exchange, pressure loss can be reduced.

If the size of the inspection door 10 becomes large, general-purpose items cannot be used, and the inspection port 10 becomes expensive and may spoil the appearance of the room in which it is installed. For this reason, the inspection port 10 is often smaller than the main body of the heat exchanging ventilator 11 . Similarly, when emphasizing the beauty of the room in which the panel 17 is installed, it is preferred that the panel 17 be small in size.

The configuration shown in the above embodiment shows an example of the content of the present invention, and it is possible to combine it with another known technology, and one configuration can be used without departing from the scope of the present invention. It is also possible to omit or change the part.

Reference Signs List 1 heat exchanger unit 2 fan unit 5 outdoor intake 6 indoor intake 7 supply air blower 8 exhaust air blower 9 heat exchanger 10 inspection opening 11 heat exchange ventilator 12 frame 13 Hook shape part, 14 mounting hook, 15 outdoor outlet, 16 indoor outlet, 17 panel, 21, 25 outdoor air inlet, 22, 26 outdoor air outlet, 23, 27 indoor air inlet, 24, 28 indoor air outlet , 31 first air passage, 32 second air passage, 33 third air passage, 34 fourth air passage.

Claims (5)

a first air passage connecting the first outside air inlet and the first outside air outlet; a second air passage connecting the first indoor air inlet and the first indoor air outlet; a blower unit comprising an air supply blower installed in one air passage and an exhaust blower installed in the second air passage;
a third air passage connecting the second outside air inlet and the second outside air outlet; a fourth air passage connecting the second indoor air inlet and the second indoor air outlet; a heat exchanger unit comprising three air passages and a heat exchanger installed across the fourth air passage;
a frame detachably supporting the blower unit and the heat exchanger unit;
The frame includes a top surface that covers the fan unit and the heat exchanger unit from above, and two opposing side surfaces that cover the fan unit and the heat exchanger unit from sides.
The two sides are a first side having an outdoor air outlet leading to the first indoor air outlet and an outdoor air inlet leading to the first outdoor air inlet, and the second outdoor air outlet. a second side surface formed with an indoor air outlet leading to the indoor air outlet and an indoor air inlet leading to the second indoor air inlet;
The blower unit and the heat exchanger unit connected so that the first air passage communicates with the third air passage and the second air passage communicates with the fourth air passage. and a supply air passage from the first outside air inlet to the second outside air outlet and from the second indoor air inlet to the first indoor air outlet. An exhaust air passage is configured,
The heat exchanger exchanges heat between a supply airflow generated in the supply airflow path by the air supply blower and an exhaust flow generated in the exhaust airflow path by the exhaust air blower. Heat exchange ventilator. The frame includes an outdoor air inlet communicating with the first outdoor air inlet, an indoor air outlet communicating with the second outdoor air outlet, and an indoor air inlet communicating with the second indoor air inlet, 2. The heat exchanging ventilator according to claim 1, further comprising an outdoor outlet communicating with the first indoor air outlet. The heat exchanger unit includes a panel provided with at least one of an indoor air outlet communicating with the second outdoor air outlet and an indoor air inlet communicating with the second indoor air inlet,
The frame includes one of the indoor air outlet and the indoor air inlet that is not provided in the panel, an outdoor air inlet communicating with the first outdoor air inlet, and the first indoor air outlet. 2. The heat exchanging ventilator according to claim 1, further comprising an outdoor air outlet communicating with the air outlet. 4. The heat exchange ventilator according to any one of claims 1 to 3, wherein the frame includes a guide portion that slidably supports the blower unit and the heat exchanger unit. The blower unit is divided into an air supply side blower unit having the air supply blower and an exhaust side blower unit having the exhaust blower, and the heat exchanger unit includes the air supply side blower unit and the exhaust side blower unit. 5. The heat exchange ventilator according to any one of claims 1 to 4, wherein the heat exchange ventilator is installed between blower units.

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