JPH11211125A - Air conditioner - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an air conditioner to effectively execute heating and cooling operations and improve comfortableness. SOLUTION: A first vent hole 1 is arranged on the upper part inside of a room, and a second vent hole 2 is arranged in the lower part inside of the room. In the cooling operation mode on one hand, by means of a change-over device, the first vent hole 1 is connected to an air outlet side of an indoor unit 3, and the second vent hole 2 is connected to an air inlet side of the indoor unit 3. In the heating operation mode on the other hand, by means of the change-over device, the first vent hole 1 is connected to the air inlet side of the indoor unit 3, and the second vent hole 2 is connected to the air outlet side of the indoor unit 3.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an air conditioner capable of performing a comfortable cooling and heating operation.

[0002]

2. Description of the Related Art Conventionally, air conditioners include a ceiling-mounted type, a ceiling-mounted type, a wall-mounted type, and a wall-mounted type. Because it is in such a position, increase the wind speed of the balloon,
The air is circulated throughout the room to uniformly air-condition the room. However, in the above air conditioner, the wind speed at the outlet is as fast as 2 to 4 m / sec, and the wind speed in the living space is 0.
When the distance is 5 m or more, the wind hits a person and a sense of draft is felt, so that there is a disadvantage that comfort is impaired.

An object of the present invention is to provide an air conditioner capable of effectively performing a cooling and heating operation without a sense of draft and improving comfort.

[0004]

In order to achieve the above object, an air conditioner according to claim 1 is connected to an indoor unit and an outlet or a suction side of the indoor unit.
A first ventilation port arranged on the upper side of the room, a second ventilation port connected to a suction side or a blowing side of the indoor unit, and disposed on a lower side of the room; A connection state in which the second ventilation port is connected to a suction side of the indoor unit, the connection state being connected to an air outlet side of the unit;
A switching device that connects the ventilation port to a suction side of the indoor unit and switches the second ventilation port to a connection state in which the second ventilation port is connected to a blowing side of the indoor unit.

[0005] According to the air conditioner of the first aspect, for example, the first ventilation port is disposed on the ceiling surface of the room,
The second ventilation port is disposed on a wall surface near the floor facing the ventilation port. Then, the indoor unit and the first and second ventilation ports arranged behind the ceiling and the like are connected by the duct via the switching device. During cooling operation, by the above switching device,
When the first ventilation port is connected to the outlet side of the indoor unit and the second ventilation port is connected to the suction side of the indoor unit, the conditioned air blown out from the outlet side of the indoor unit becomes the first air outlet in the room. Blow out from the ventilation opening
The air is sucked in through the vent and returns to the suction side of the indoor unit. By doing so, the cool air blown out from the first vent is naturally heavier than the room air and flows downward naturally and is sucked in the second vent, so that the cool air is blown into the room without increasing the wind speed of the blow. Sent to a wide range of living spaces. On the other hand, during the heating operation, the first ventilation port is connected to the suction side of the indoor unit by the switching device, and the second ventilation port is connected to the second unit.
When the ventilation port is connected to the blowing side of the indoor unit, the conditioned air blown from the blowing side of the indoor unit blows out from the second ventilation port on the lower side of the room, and is sucked into the first ventilation port on the upper side of the room, Return to the suction side of the indoor unit. By doing so, the warm air blown out from the second ventilation port naturally flows upward because it is lighter than the room air, and
Since the air is sucked through the ventilation opening, the warm air is sent to a wide range of living space in the room without increasing the wind speed of the blowout.
Therefore, the air conditioning operation can be effectively performed without a sense of draft, and the comfort can be improved.

[0006] The air conditioner of the second aspect is characterized by the first aspect.
In this air conditioner, the conditioned air is blown at a speed of 2 m / sec or less from the first ventilation port or the second ventilation port connected to the blowing side of the indoor unit.

According to the air conditioner of the second aspect, the speed of the conditioned air blown from the first ventilation port or the second ventilation port is set to 2 m / sec or less, so that the person in the indoor living space can draft. Comfortable air conditioning can be performed without feeling a feeling.

[0008] The air conditioner according to the third aspect of the present invention is the first aspect of the invention.
In the air conditioner of (1), conditioned air is blown out from the first ventilation port or the second ventilation port connected to the blowing side of the indoor unit so that the wind speed of the living space in the room is 0.5 m / sec or less. It is characterized by:

According to the air conditioner of the third aspect, the air is blown out from the first ventilation port or the second ventilation port so that the wind speed in the living space in the room is 0.5 m / sec or less, thereby making it possible to supply the indoor air. People in the living space do not feel a sense of draft, and can perform comfortable air conditioning.

[0010]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an air conditioner according to the present invention will be described in detail with reference to the illustrated embodiments.

FIG. 1 shows a room using an air conditioner according to an embodiment of the present invention. Reference numeral 1 denotes a first ventilation port disposed on a ceiling surface of the room, and 2 denotes a first ventilation port 1. It is a second ventilation port arranged on the wall surface near the floor on the opposite side.

FIG. 2 shows a schematic configuration of the air conditioner. In this air conditioner, an indoor unit 3 having a heat exchanger 4 and a blower fan 5 is arranged at the back of a ceiling or the like. While the outlet side of the indoor unit 3 and the input port 31 (shown in FIG. 3) of the switching device 6 are connected via the duct 11, the suction side of the indoor unit 3 and the output port 34 of the switching device 6 (shown in FIG. 3). ) Are connected via a duct 12.
Then, one of the input / output ports 33 (shown in FIG. 3) of the switching device 6 is connected to the first ventilation port 1 arranged on the upper side of the room through the duct 13, while the input / output port 32 of the switching device 6 is connected. The other end (shown in FIG. 3) is connected through a duct 14 to the second ventilation port 2 arranged on the lower side of the room.

FIG. 3 is a schematic sectional view of the switching device 6. The casing 20 has an input port 31 connected to the outlet side of the indoor unit 3 (shown in FIG. 2) and a first ventilation port 1 ( 2) and an input / output port 32 connected to the second ventilation port 2 (shown in FIG. 2).
And an output port 3 connected to the suction side of the indoor unit 3
4 are provided. Further, a flap 21 rotatably mounted is disposed in the casing 20.
FIG. 4 is a perspective view showing the external appearance of the switching device 6, in which a cylindrical input port 31 is provided on one side of the box-shaped casing 20, and a cylindrical output port is provided on the side opposite to the side. The input / output ports 32 and 33 are provided on two side surfaces adjacent to both side surfaces of the casing 20 where the input port 31 and the output port 34 are provided.

In the air conditioner having the above configuration, as shown in FIG.
3, the outlet side of the indoor unit 3 is connected to the first ventilation port 1 via the duct 11, the switching device 6 and the duct 13, and the suction side of the indoor unit 3 is connected to the duct 12. It is connected to the second ventilation port 2 via the device 6 and the duct 14. Then, the conditioned air blown out from the indoor unit 3 enters the input port 31 of the switching device 6 via the duct 11, and blows out from the first ventilation port 1 via the duct 13 from the input / output port 33 of the switching device 6. . The conditioned air blown out from the first ventilation port 1 is sucked from the second ventilation port 2 through the room, enters the input / output port 32 of the switching device 6 through the duct 14, and outputs from the output port of the switching device 6. The air is sucked into the indoor unit 3 from the suction side through the duct 12.

On the other hand, during the heating operation, the flap 21 of the switching device 6 is set to the position shown by the solid line in FIG.
And the suction side of the indoor unit 3 is connected to the first ventilation port 1 via the duct 12, the switching device 6 and the duct 13. Then, the conditioned air blown out from the indoor unit 3 enters the input port 31 of the switching device 6 via the duct 11 and blows out from the second ventilation port 2 via the duct 14 from the input / output port 32 of the switching device 6. . Then, the conditioned air blown out from the second ventilation port 2 passes through the room and is sucked from the first ventilation port 1,
The air enters the input / output port 33 of the switching device 6 via the duct 13, and is sucked from the output port 34 of the switching device 6 via the duct 12 to the suction side of the indoor unit 3.

As described above, during the cooling operation, the first ventilation port 1 is connected to the outlet side of the indoor unit 3 and the second ventilation port 2 is connected to the suction side of the indoor unit 3 by the switching device 6. On the other hand, during the heating operation, the switching device 6
By connecting the ventilation port 1 to the suction side of the indoor unit 3 and connecting the second ventilation port 2 to the blowing side of the indoor unit 3, the conditioned air can be supplied to a wide area of the room without increasing the blowing speed of the blowing. Since the air is sent to the living space, the comfort can be improved without a sense of draft in any of the cooling and heating operations. In this case, it is desirable that the first ventilation port 1 and the second ventilation port 2 are respectively arranged at positions as far apart as possible in the room so as to air-condition a wide area in the room.

Further, by reducing the speed of the conditioned air blown from the first ventilation port 1 or the second ventilation port 2 to 2 m / sec or less, a person in the indoor living space does not feel a draft feeling and is comfortable. Air conditioning can be performed.

Further, the wind speed of the living space in the room is set to 0.
By blowing the air from the first ventilation port 1 or the second ventilation port 2 so that the distance is 5 m or less, it is possible to perform comfortable air-conditioning without a person in the indoor living space feeling a draft feeling. In this case, the living space is a room space at least 1 m away from the first ventilation port 1 or the second ventilation port 2 serving as an air outlet.

In the above embodiment, the first ventilation port 1 is disposed on the ceiling surface of the room and the second ventilation port 2 is disposed on the lower side of the wall surface of the room. Not limited to this,
Depending on the shape of the room or the like, the first ventilation port may be arranged on the upper side of the room, and the second ventilation port may be appropriately arranged on the lower side of the room.

In the above embodiment, the switching device 6 shown in FIGS. 3 and 4 is used. However, the structure of the switching device is not limited to this, and the first ventilation port is connected to the outlet side of the indoor unit. ,
A connection state in which the second ventilation port is connected to the suction side of the indoor unit, and a connection state in which the first ventilation port is connected to the suction side of the indoor unit and the second ventilation port is connected to the blowing side of the indoor unit. Any switching device for switching may be used.

[0021]

As is clear from the above, in the air conditioner of the first aspect of the present invention, the first ventilation port connected to the outlet side or the suction side of the indoor unit is arranged above the indoor unit, and A second ventilation port connected to the suction side or the blowing side of the indoor unit is arranged below the room, and the first ventilation port is connected to the blowing side of the indoor unit by the switching device, and the second ventilation port is connected to the indoor unit. Connect to suction side or first
The first and second air vents are connected to the suction side of the indoor unit, and the second air vent is connected to the air outlet side of the indoor unit.
The connection between the second ventilation port and the indoor unit is switched.

Therefore, according to the air conditioner of the first aspect of the present invention, during the cooling operation, the switching device connects the first ventilation port to the outlet side of the indoor unit, and connects the second ventilation port to the indoor unit. When connected to the suction side of the indoor unit,
The conditioned air blown out from the blowout side of the indoor unit blows out from the upper first ventilation port in the room, and the cool air blown out from the first ventilation port naturally flows downward because it is heavier than the room air, and the second ventilation flow. Since the air is sucked into the mouth, the indoor living space is air-conditioned without increasing the wind speed of the blowing. On the other hand, at the time of the heating operation, when the first ventilation port is connected to the suction side of the indoor unit and the second ventilation port is connected to the blowing side of the indoor unit by the switching device, from the blowing side of the indoor unit, The blown-out air-conditioning air blows out from the lower second ventilation port of the room, and the warm air blown out from the second ventilation port flows naturally upward because it is lighter than the room air and is sucked into the first ventilation port. Air conditioning of a wide range of living space in the room without increasing the wind speed of the balloon. Therefore, the air conditioning operation can be effectively performed without a sense of draft, and the comfort can be improved.

According to a second aspect of the present invention, in the air conditioner of the first aspect, a speed of 2 m / sec or less from the first ventilation port or the second ventilation port connected to the air outlet side of the indoor unit. The air-conditioning air is blown out, so that people in the indoor living space do not feel a draft feeling, and can perform comfortable air-conditioning.

According to a third aspect of the present invention, there is provided the air conditioner according to the first aspect, wherein the indoor unit has a blowing space on an air outlet side of the indoor unit such that a wind speed of the indoor living space is 0.5 m / sec or less. Since the conditioned air is blown out from the connected first ventilation port or the second ventilation port, a person in the indoor living space does not feel a draft feeling and can perform comfortable air conditioning.

[Brief description of the drawings]

FIG. 1 is a diagram showing a room using an air conditioner according to an embodiment of the present invention.

FIG. 2 is a diagram showing a schematic configuration of the air conditioner.

FIG. 3 is a schematic sectional view of a switching device of the air conditioner.

FIG. 4 is a perspective view of the switching device.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 ... 1st ventilation port, 2 ... 2nd ventilation port, 3 ... indoor unit,
4 heat exchanger, 5 blower fan, 6 switching device, 11 to 11
14 ... duct.

Claims (3)

[Claims] 1. An indoor unit (3), a first ventilation port (1) connected to a blowing side or a suction side of the indoor unit (3), and disposed at an upper side in a room; The second ventilation port (2) connected to the suction side or the blowing side of 3) and arranged below the room, and the first ventilation port (1) is connected to the blowing side of the indoor unit (3). Connect the second ventilation port (2) to the indoor unit (3)
The first air vent (1) is connected to the suction side of the indoor unit (3), and the second air vent (2) is blown out of the indoor unit (3). An air conditioner comprising: a switching device (6) for switching between a connection state and a connection state on the side. 2. The air conditioner according to claim 1, wherein the first ventilation port (1) or the second ventilation port (2) connected to the outlet side of the indoor unit (3) has a speed of 2 m / sec or less. An air conditioner characterized by blowing out conditioned air at 3. The air conditioner according to claim 1, wherein the first unit is connected to an outlet side of the indoor unit (3) such that a wind speed of a living space in the room is 0.5 m / sec or less. An air conditioner characterized in that conditioned air is blown out from the ventilation port (1) or the second ventilation port (2).