JPS63156946A - Air conditioner - Google Patents

Abstract

PURPOSE:To keep down to minimum the increase in the room cooling and room heating loads due to ventilation and at the same time prevent the diffusion of polluted air to individual rooms by providing an air conditioner with means of switching automatically the room cooling and room heating with ventilation and the room cooling and room heating with air cleaning according to the extent of pollution of the air in a room. CONSTITUTION:When polluted air should be discharged or fresh air be introduced. a drive section 12 is controlled by a control section 13 on the basis of the signal from a sensor 11 so that a damper 10 is opened or closed. The return air in a room which is sucked in from an air suction grill of each room is led to an air conditioner l and then to an air discharge fan 6 which is driven by a ventilation motor 5 and discharged to the outside after passing through a total heat exchanger 8. At the same time the outdoor air is led by a supply air fan 7 and passes through the total heat exchanger 8 and exchanges heat with the return air in the room and then led to an air fan 3 which is driven by a motor 2 and heated or cooled by a cold and warm water coil 4 and discharged to each room. For pollutant such as smoke by smoking it is led to the air conditioner 1 and then dust collection and deodoring are effected for it by an air cleaner 9.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of Industrial Application The present invention relates to an air conditioner for heating, cooling, and ventilating a building, or for heating, cooling, and air purification.

2. Description of the Related Art The conventional heating and cooling method is to install an air conditioner 101 having a motor 1o4, a fan 105, and a cold/hot water coil 106 as shown in FIG. 4, as shown in FIG. Hot or cold air was sent through the supply air duct 102, and return air was returned to the air conditioner 101 through the return air duct 1o3. The air returned to the air conditioner 101 is transferred to the motor 104
The hot and cold water coil 1 is accelerated by a fan 105 driven by
After being heated or cooled in step 06, the air supply duct 102
They were sent to each room through the (For example, regarding heating and cooling methods, see ``Practical Knowledge of Air Conditioning Equipment'' (revised 2nd edition), edited by the Japan Society of Air Conditioning and Sanitary Engineers, p. 158).

Problems to be Solved by the Invention The conventional heating and cooling methods described above do not have ventilation or air purification functions, so they cannot exhaust contaminated air, bring in fresh outside air, or remove pollutants. Contaminated air such as combustion waste gas and pollutants such as tapa's smell and smoke spread throughout the room, causing discomfort and discomfort. In addition, the smell of cigarettes permeated into the air supply duct 1o2, and the discomfort increased over time. Therefore, it was necessary to incorporate ventilation and air purification equipment. However, if ventilation is simply performed, even if heat exchange ventilation is performed, there will be heat loss, leading to an increase in the heating and cooling load.

In addition, if you simply incorporate an air purification device, wind will continue to flow through the air purification section, which will require more frequent maintenance of the air purification device, which not only takes time and effort, but also shortens the life of the air purification device. The present invention solves the above-mentioned conventional problems, and automatically switches between heat exchange ventilation and air purification in a timely manner according to the indoor pollution situation, thereby reducing the increase in heating and cooling load caused by ventilation. In addition to minimizing the necessary maintenance, the frequency of maintenance of the air purification device is also reduced, and it can be purified without shortening its lifespan.It prevents contaminated air and pollutants generated indoors from spreading to each room, and also reduces the maintenance frequency of the air purification device. To provide an air conditioner that can prevent odor from penetrating into an air supply duct.

Means for Solving the Problems In order to achieve the above object, the air conditioner of the present invention has a heating/cooling section which is installed inside the device above a fan motor for blowing air, a cold/hot water coil for heating and cooling, and a cooling section for ventilation. 7. A ventilation section having a total heat exchanger for exchanging heat between the unmotor, exhaust air, and introduced outside air; an air purification section having dust collection and deodorization functions; and any one of the ventilation section and the purification section. The damper has a built-in damper for guiding the return air into the room, a sensor that detects the degree of contamination of the return air, and a control unit that drives the damper based on a signal from the sensor.

With this configuration, when the indoor air is contaminated with combustion waste gas or other air that is more contaminated than can be purified by the air purification device, the damper is closed by a signal from the sensor when it is necessary to take in fresh outside air. Indoor return air is led to the ventilation section, pressurized by the exhaust fan of the ventilation fan motor, and discharged outdoors after passing through the total heat exchanger. At the same time, outside air is sucked in by the air supply fan of the ventilation fan motor, exchanges heat with the indoor return air in the total heat exchanger, is led to the heating and cooling section, is pressurized by the ventilation fan motor, and is heated to cool/hot water. After being heated or cooled by a coil, it is supplied to each room for heating or cooling and ventilation. In addition, when the indoor air is within the level that can be purified by the air purification device, such as cigarette smoke, the damper is opened in response to a signal from the sensor, and indoor return air is guided to the air purification section, where it collects dust and deodorizes. After being purified, it is led to a heating and cooling section where it is heated or cooled and then supplied to each room for heating or cooling and air purification.

In this way, ventilation and cooling/heating, or air purification and cooling/heating are automatically performed depending on the degree of contamination of the indoor air.

EXAMPLE Hereinafter, an example of the present invention will be explained based on FIGS. 1 to 3.

In the figure, 1 is an air conditioner, which includes an air blowing fan 3 driven by an air blowing motor 2, and a cold/hot water coil 4 for heating or cooling the air discharged from the air blowing fan 3.
A heating and cooling unit having a heating and cooling unit, an exhaust fan 6 and an air supply fan 71/7 driven by a ventilation motor 6, and air exhausted outdoors by the exhaust fan 6 and an air supply fan 7 that are connected to the outside. It has a built-in ventilation section that has a total heat exchanger 8 for exchanging heat with the air supplied from the room, and an air purification section that has an air purification device 9 that has dust collection and deodorization functions. A damper 10 that automatically switches the force for guiding return air to the ventilation section ζ and whether or not it is guided to the air purification section at a suitable time; and a sensor 11 that detects the degree of contamination of the return air from the room.
It has a built-in.

Reference numeral 12 denotes a driving portion of the damper 10, and reference numeral 13 represents a control portion for receiving a signal from the sensor 11 and controlling the driving portion 12 of the damper 10.

In FIG. 3, 14 is an air supply duct, one end of which is connected to the air conditioner 1 to send hot or cold air to each room, and discharge grills 15a to 15 are provided at the end of each room.
f is the attachment. 18 is a return air duct, one end of which is connected to the air conditioner 1, and the return air from each room is sent to the air conditioner 1.
Suction grilles 17a to 17f are attached to the ends of each chamber. 18 and 19 are outdoor hoods for taking outdoor exhaust air and outdoor air supply from the air conditioner 1.

In the above configuration, if it is necessary to discharge polluted air such as combustion waste gas that exceeds the level that can be purified by the air purification device 9, or to take in fresh outside air, the sensor 11 is used as shown in FIG.
The control unit 13 controls the drive unit 12 based on the signal, the damper 10 is closed, and the suction grill 17a of each chamber is closed.
The indoor return air sucked in from ~1yf is led to the air conditioner 1 by the return air duct 16, then to the exhaust fan 6 driven by the ventilation motor 6, and after passing through the total heat exchanger 8. , is discharged outdoors from the outdoor hood 18. At the same time, the air supply fan 7 is driven by the ventilation motor 6.
The outside air is led from the outdoor hood 19, passes through the total heat exchanger 8, exchanges heat with the indoor return air, and is then led to the ventilation fan 3 driven by the ventilation motor 2, where it is supplied with cold and hot water. Heated or cooled by the coil 4, the air supply duct 14
The air is discharged into each room through the exhaust grilles 16 & ~ 15f, and while contaminated air is exhausted, fresh outside air is introduced.
Perform heating or cooling.

In addition, in the case of contaminants such as cigarette smoke that can be purified by the air purifier 9, the control section 13 controls the drive section 12 based on the signal from the sensor 11, as shown in FIG. The damper 10 is opened and the suction grill 1 of each chamber is opened.
The indoor return air sucked in from 7a to 17f is returned to the return air duct 1.
After being led to the air conditioner 1 by the air purifier 6, the air is collected by dust collection, deodorized, and purified by the air purifier 9. Thereafter, the air is guided to the air blower 77 driven by the air blower motor 2, accelerated, heated or cooled by the hot and cold water coil 4, passes through the air supply duct 14, and is pumped to the discharge grills 15a to 1sf. It is discharged into each room, heating or cooling the room while removing pollutants.

Therefore, depending on the degree of indoor air contamination, ventilation/cooling/heating and air purification/cooling/heating are automatically switched, so if the indoor air is contaminated with combustion waste gas or other polluted air that is beyond the level that can be purified by an air purification device, fresh outdoor air is taken in. If this becomes necessary, the load on heating and cooling caused by ventilation can be kept to a minimum and heating and cooling can be performed while providing ventilation. In addition, air purifiers only require air to be blown to remove pollutants that can be purified by air purifiers, such as cigarette smoke, which reduces the need for frequent maintenance of air purifiers.
It is possible to perform air conditioning and heating while purifying the air conditioner without shortening its lifespan. Moreover, these operations can be performed automatically without any human intervention.

In the embodiment, the sensor 11 is built into the air conditioner 1, but the sensor 11 may be installed anywhere as long as it can detect indoor air pollution, such as indoors or in the middle of the return air duct 16, resulting in differences in its operation and effect. do not have.

Effects of the Invention As is clear from the above description of the embodiments, according to the present invention, ventilation/cooling/heating and air purification/cooling can be automatically switched according to the degree of contamination of indoor air without any manual intervention. In addition to minimizing the increase in heating and cooling load due to ventilation, maintenance of the air purification device is also less frequent, and the air purification device can be purified without shortening its lifespan. This has the effect of preventing odors from spreading to other rooms, as well as preventing odors from penetrating into the air supply ducts to each room.

[Brief explanation of the drawing]

FIG. 1 is a cross-sectional view showing the damper of an air conditioner according to an embodiment of the present invention when it is closed, FIG. FIG. 4 is a cross-sectional view of a conventional air conditioner, and FIG. 6 is a cross-sectional view of the air conditioner. 1...Air conditioner, 2...Blower motor, 3...Blower fan, 4...Cold/hot water coil, 5... Ventilation motor, 6...
Exhaust fan, 7... Air supply fan, 8...
... Total heat exchanger, 9 ... Air purification device, 1o
...Damper, 11 ...Sensor, 1
2... Drive unit, 13... Control unit. Name of agent: Patent attorney Toshio Nakao and 1 other person f-
-Issei Theory Series 1 2--L Wind 7Il (-ta>-o) 1n tr---jijig- Figure 4

Claims (1)

[Claims] Inside the device, there is a heating and cooling unit that includes a fan motor for blowing air and a cold/hot water coil for heating and cooling, and ventilation that has a fan motor for ventilation and a total heat exchanger for exchanging heat between the exhaust air and the introduced outside air. It has a built-in section, an air purification section with functions of dust collection and deodorization, and a damper for guiding indoor return air to any one of the ventilation section and the air purification section. An air conditioner comprising: a sensor that senses the temperature; and a controller that drives a damper based on a signal from the sensor.