JP2563127B2 - Indoor air circulation equipment - Google Patents

Description

TECHNICAL FIELD The present invention relates to indoor air circulation equipment.
More specifically, the present invention relates to an indoor air circulation facility capable of controlling the generation of a temperature difference inside a building such as a house so that all the rooms have a uniform temperature.

(Prior Art) In recent years, the airtightness and the heat insulating property of a general residential building have been remarkably improved with the progress of the sash structure, the heat insulating structure and the like. Coupled with this tendency, centralized air conditioning equipment that heats and cools the entire building by centralized control is becoming popular.

For example, as cooling and heating with cold / hot air, as shown in FIG. 5, an air cooling / heating device (a) connected with a heat exchanger is used.
Is used to supply cold air or warm air to each room on the same floor through the air supply duct (a), and exhaust air inside the house is collected through the exhaust duct (c). It is being advanced.

(Problems to be Solved by the Invention) However, the capacity of such a conventional cooling and heating facility is limited, and generally, only a small capacity can be used for housing. Further, it is not so easy to form an air flow for efficiently performing the air conditioning by the cooling and heating inside the house. In particular, this appears in the situation where it is difficult to eliminate the difference between the upper and lower room temperatures in a house having a plurality of floors such as a two-story building and a three-story building.

In this multi-story house, the temperature is high on the upper floors during heating and lower on the lower floors even if central air conditioning is performed using cold and warm air, and during cooling, the floors above the lower floors This is because the temperature is high and this temperature difference cannot be easily eliminated.

The present invention has been made in view of the circumstances as described above, and solves the problem that a temperature difference occurs during air conditioning on the upper and lower floors or in a wide range in such a conventional house, and further when not air-conditioned. Then, all the rooms in the residential building are heated to a uniform temperature. It is an object of the present invention to provide an indoor air circulation system capable of improving the habitability and the thermal efficiency and economical efficiency of the air conditioning system.

(Means for Solving the Problems) In order to solve the above problems, the present invention provides a damper for switching the air conditioning flow in a circulation duct that forms an air flow in one direction or in the opposite direction installed in a building. (EN) Provided is an indoor air circulation facility characterized by being connected to a blower and forming an air circulation path to either one by switching a damper.

The equipment of the present invention is provided with a detection device for detecting the temperature difference between the upper and lower parts of the building, each living room, etc., and a controller for automatically switching dampers linked to the detection device, so that the indoor air Circulation can be performed.

In the circulation duct, for example, by switching a damper, an air flow in an upward direction or a downward direction, in which one or more floors can be communicated with each other, is formed.

(Operation) With the indoor air circulation equipment of the present invention, the cool air in the lower part of the building is blown to the upper part of the second floor, the third floor, etc. during cooling through the circulation duct to cool it, and conversely, the warm air in the upper part is heated to the lower part during heating. It is possible to heat the lower part by blowing air to the inside of the residential building so that the temperature becomes uniform. Further, the temperature difference due to the difference in the distance from the air conditioner outlet is eliminated.

The direction of this air flow is formed by switching a damper connected to the circulation duct.

(Example) Next, the Example of this invention is described according to drawing. Of course, the present invention is not limited to the following examples.

FIG. 1 shows an example of the indoor air circulation equipment of the present invention. In this example, a circulation duct (1) communicating with each floor is provided in the building of a three-story house, and an air flow switching damper (11) (12) (13) (14),
And a blower fan (2). An air inlet / outlet (3) is provided on the ceiling of the third floor, and an air outlet (4) and an inlet (5) are provided on the first floor.

The operation of the switching dampers (11) (12) (13) (14) and the blower fan (2) is controlled by a controller (8) connected to temperature sensors (6) (7) provided at the upper and lower parts of the building. I also have it.

In the example using this one blower fan (2),
The blower fan (2) blows air in only one direction as shown by the arrow (A), but the controller for opening and closing the four switching dampers (11) (12) (13) (14) Thereby forming a flow of air in the circulation duct (1) either upwards or downwards.

For example, the case of heating will be described with reference to the enlarged view of FIG. 2. Warm air on the top floor is sent downward from the suction / blowout port (3) of FIG. 1 through the suction circulation duct (1). By closing the switching dampers (11) and (14) and opening the switching dampers (12) and (13), warm air is blown out from the air outlet (4). Conversely, when cooling, as shown in Table 1, the switching damper (12) (1
3) is closed and the dampers (11) and (14) are opened to suck in cool air from the suction port (5) and the circulation duct (1)
Send upward through. In either case, the blowing direction (A) of the blowing fan (2) does not change.

Blower fan (2) and switching damper (11) (12)
The arrangements of (13) and (14) are not limited to the above examples. For example, you may use the two ventilation fans which divided each function for cooling and heating. FIG. 3 shows this example as a partially enlarged view.

In this example, two blower fans (21) (22)
And two switching dampers (15, 16) are connected to the circulation duct.

During heating, the switching damper (15) is opened, the other switching damper (16) is closed, and the blower fan (21) is operated. By doing so, the warm air on the upper floor inside the building is sent downward through the circulation duct (1) and blown out from the air outlet (4). When cooling, the opening and closing of the damper may be reversed and the blower fan (22) may be operated.

It goes without saying that not only the configuration of the blower fan and the switching damper, but also various modes of the circulation duct (1) are possible.

For example, as shown in FIG. 4, depending on the arrangement of the living room of the residential building, the intake / outlet port (3) may be provided on the ceiling of each living room or the like, or the circulation duct (1 It goes without saying that) may be branched and complicated.

In addition, the suction / blowing outlet (3) of these circulation ducts (1)
In order to prevent noise accompanying air flow, the blower outlet (4) and the suction inlet (5) connected to the switching damper are
A muffling louver may be provided. Various other detailed configurations are possible.

As for the switching damper and the blower fan, the operation can be automatically controlled by the temperature sensors (6) and (7) and the controller (8) shown in FIG. 1 as described above. Temperature of (6) (t ₂ )
And the temperature difference (t ₁ ) of the temperature sensor (7) on the bottom floor |
t ₂ -t ₁ | is a predetermined value, for example 3 ° C. or higher, | t ₂ -t ₁ | automatically by a controller (8) in the case of> Delta] t (3 ° C.), the switching damper (11) ( 12) (13) (14) can be opened and closed, and the blower fan (2) can be turned on and off. It can be automatically performed at an appropriate stage during cooling or heating.

The equipment of the present invention can be advantageously applied to the elimination of temperature difference due to the difference in distance from the air outlet of the air conditioner even on the same floor.

(Effects of the Invention) As described in detail above, the indoor air circulation equipment of the present invention enables smooth indoor air circulation,
The temperature difference inside the building can be easily eliminated. In addition, since the circulation of air can be switched between one direction and the other at any time, it can be used even during the air conditioning of cold and warm air, and the thermal efficiency and economical efficiency of the air conditioning can be improved.

[Brief description of drawings]

FIG. 1 is a sectional view of an arrangement in a building showing an embodiment of the present invention. FIG. 2 is a partial arrangement sectional view showing the switching damper and the blower fan. FIG. 3 is a partial layout sectional view showing another layout example of the switching damper and the blower fan. FIG. 4 is a partial cross-sectional view showing another example of suction / blowing of the circulation duct. FIG. 5 is a plan view illustrating a conventional air conditioning facility. 1 …… Circulation duct 2 …… Blower fan 11,12,13,14 …… Switching damper 3 …… Suction / Blowout port 4 …… Blowout port 5 …… Suction port 6,7 …… Temperature sensor 8 …… Controller 15,16 …… Switching damper 21,22 …… Blower fan

Claims (2)

(57) [Claims] 1. A damper for air flow switching and a blower are connected to a circulation duct that forms an air flow in one direction or in the other direction installed in a building, and the air circulation path in either direction is switched by switching the damper. Indoor air circulation equipment characterized by being formed. 2. The indoor air circulation equipment according to claim 1, wherein the damper is switched by detecting a temperature difference between the upper and lower sides in the building.