JP2502097B2 - Air conditioner ventilation system - Google Patents

Description

TECHNICAL FIELD The present invention relates to a cooling and heating ventilation device. More specifically, the present invention relates to a central air-conditioning type cooling / heating ventilation device using cold / hot air or the like.

(Background Art) Conventionally, it has been difficult to heat and cool all rooms such as living rooms, kitchens, bathrooms, etc. in a residential building with one air conditioner. It was necessary to significantly reduce the load on the air conditioners. On the other hand, in a house with few windows, such as an apartment building, although air supply to the interior is relatively taken into consideration, there are few exhaust air from the window or exhaust to the outside by an exhaust fan. The reality is that it is only done.

For example, as shown in FIG. 4, conventionally, an air supply / exhaust fan (a) is provided to supply air to the living room (a), the kitchen (c) and the sanitary section (d) through an air supply pipe, but As for the above, in many cases, exhaust is performed from the sanitary part (d) of the bathroom, toilet, etc. through the exhaust pipe, and in other spaces, it is often only natural exhaust to the space with the window.

However, in recent years, the airtightness of houses has been greatly improved, and it has become necessary to sufficiently ventilate the living rooms, and further the corridor. In addition, the heat insulating property has been further improved.

As the need for airtightness and heat insulation and indoor ventilation increases, more and more planned ventilation is required for indoor heating and cooling, which is a factor of increasing the load on the air conditioner. However, it is difficult to reduce the load for planned ventilation and heating / cooling of all rooms with the conventional structure and equipment of houses. That is, if forced ventilation of a living room is forcibly performed, it is often difficult in a narrow space above the ceiling because ducts cannot intersect due to intersections of ducts. Also, current air conditioning systems do not have the capacity to meet the above needs.

Therefore, as an alternative to the conventional ventilation and cooling / heating system for a house, it is necessary to realize an indoor cooling / heating ventilation device that is more efficient and can effectively use a small indoor space.

The inventor of the present invention has diligently studied to solve such a problem, and it is effective to use an indoor space of a down ceiling as an air supply passage and connect an air conditioner for cooling and heating to a heat exchanger for air supply and exhaust. I found that.

The present invention has been made in view of such circumstances.

(Object of the Invention) From the above circumstances, the present invention improves the drawbacks of the conventional indoor air conditioning and heating and ventilation devices, enables effective ventilation and reduction of air-conditioning load, and provides facilities even in a small indoor space. It is an object of the present invention to provide an indoor air conditioning heating and ventilation system that is easy to use.

More specifically, the present invention utilizes an indoor down-ceiling space as an air supply passage and uses an exhaust duct only from a sanitary section, which enables highly efficient ventilation and reduction of air conditioning load, and facilitates facility installation. It is intended to provide an air conditioning and heating ventilation device.

(Disclosure of the Invention) In order to achieve the above object, a cooling / heating ventilation device of the present invention includes a heat exchanger for heat recovery and a blower fan installed near the outer wall, and a suction port on the air supply outlet side of the heat exchanger. The air conditioner for cooling and heating connected to the air conditioner is placed in the intake / exhaust air flow passage, and the external intake air from the heat exchanger and the blower fan is used as the intake / exhaust air flow passage in the down ceiling. The air is supplied to the living room from the side wall of the descending ceiling, and part of the air from the living room is collected in the sanitary part through the corridor, and the exhaust gas installed in the interior space of the descending ceiling. A circulation path that blows air to the heat exchanger through a duct and an air conditioner intake port are installed on the ceiling.
It is characterized in that a recirculation path is formed in which most of the air from the living room is sucked in through the air conditioner suction port and is blown into the down ceiling through the air conditioner.

The ventilation device of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a plan view showing the overall outline of the cooling and heating ventilation device of the present invention. For example, as shown in FIG. 1, in a heat recovery heat exchanger (1) installed in the vicinity of an outer wall such as an entrance of a house, intake air from the outside is heat-exchanged with indoor exhaust air, and an air conditioner (2) Blow out to the suction port.
At the suction port of the air conditioner (2), the indoor return air and this heat-exchanged supply air are sucked from the suction port provided in the down ceiling (3) and blown out into the internal space of the down ceiling (3). The blown out air is in a cooled or warmed state and is supplied into the living room (4) from the side wall of the down ceiling (3), while the air in the living room (4) is conversely the corridor (5). A part of the air is collected in the sanitary part (6) through the exhaust gas and is sent to the heat recovery heat exchanger (1) through the exhaust duct (7) installed in the internal space of the down ceiling (3). Then it is released outdoors. In addition, the air in most of the other living room (4) enters the inlet of the air conditioner (2) above the corridor (5) and is recirculated indoors through the air conditioner (2).

The indoor cooling and heating ventilation device of the present invention is, for example, the first
The air circulation path is formed as shown in the figure.

FIG. 2 is a sectional view showing an example of the structure of the air supply and exhaust of the living room in the portion A of FIG.

Air is circulated in the space of the down ceiling (3) that serves as an air supply passage, and the air is guided into the living room (4) through the inlet (8) provided on the side wall of the down ceiling (3). On the contrary, the air in the living room (4) is discharged to the corridor (5) through an outlet (9) provided in a door or a partition that separates the living room (4) from the corridor (5).

Part of the air discharged to the corridor (5) is guided to the sanitary section (6) through holes or slits provided in the door or partition of the sanitary section (6), or by installing an exhaust fan, natural flow, etc. Here, the exhaust gas is concentrated and exhausted through the exhaust duct (7).

FIG. 3 shows an example of the air conditioner (2) installation part in the down ceiling (3). As shown in FIG. 3, most of the indoor air discharged to the corridor (5) is the corridor (5).
Air conditioner inlet (10) on the upper ceiling (3)
To the inside of the ceiling (3) through the air conditioner (2). This is circulated to the living room again.

Looking at the supply / exhaust ratio along this Fig. 3, for example, the supply air from the heat recovery heat exchanger (1) to the air conditioner (2) is 100 m ³ / hr, and the exhaust duct from the sanitary part (6). Exhaust air sent through (7) is 100 m ³ / hr, indoor return air from air conditioner intake port (10) is 300 ~ 600 m ³ / hr
It can be a degree. Of course, this percentage is not limiting in any way. Indoor air volume, air conditioner (2)
It depends on your ability.

In the above air conditioner, since the air supply duct is not used and the exhaust duct (7) is limited to the section from the sanitary part (6) to the heat exchanger (1), piping in the ceiling part is impossible. There is no such situation. Further, the supply air is heat-exchanged by the heat recovery heat exchanger (1) in advance, and a part of the indoor exhaust air is discharged to the outside without passing through the air conditioner (2). Is greatly reduced, and even one air conditioner (2) can sufficiently cool and heat all rooms, and air conditioning of the corridor is also performed.

(Effect of the Invention) As described in detail above, the cooling / heating ventilation device of the present invention can efficiently perform cooling / heating with duct-saving, and can significantly reduce the air-conditioning load of cooling / heating.

Therefore, a central air conditioning system with one air conditioner can be realized. It can also air-condition the lower part of the corridor.

In addition, the device of the present invention is duct-saving and the facility is easy.

[Brief description of drawings]

FIG. 1 is a plan view showing an example of the present invention. Second
The figure is a partial cross-sectional view illustrating the air supply / exhaust structure of a living room. FIG. 3 is a partial cross-sectional view showing the air conditioner section. FIG. 4 is a plan view showing a conventional ventilation device. 1 ... Heat recovery heat exchanger 2 ... Air conditioner 3 ... Down ceiling 4 ... Living room 5 ... Corridor 6 ... Sanitary part 7 ... Exhaust duct 8 ... Inlet port 9 ... Exhaust port 10 ... Air conditioner inlet 11 …… Air conditioner outdoor unit

Claims (1)

(57) [Claims] 1. A flow path for intake and exhaust of a heat exchanger and a blower fan for heat recovery installed near the outer wall, and an air conditioner for cooling and heating with a suction port connected to the air supply outlet side of the heat exchanger. As a flow path for this intake and exhaust air, the external intake air from the heat exchanger and the blower fan is circulated to the internal space of the down ceiling provided in the upper part of the corridor, and is supplied to the living room from the side wall of the down ceiling. There is a circulation path that blows air to the heat exchanger through the exhaust duct installed in the internal space of the down ceiling and the air conditioner intake port. A cooling and heating ventilation device, which is provided on a down ceiling, and has a recirculation path that sucks most of the air from the living room through the air conditioner intake port and blows out through the air conditioner into the down ceiling.