JPH08233339A - Air conditioner - Google Patents

Abstract

(57) [Abstract] [Purpose] To provide an air conditioner that can centrally heat one of the rooms and improve efficiency. [Structure] When performing zone operation for heating the A side of the room, the flap control section 7a of the control section 7 fully opens the flap 4B on the B side, and the fan control section 7b of the control section 7 controls the air volume of the indoor fan 2B. To minimize. The warm air from the outlet 3B of the indoor unit 10 flows in the direction of arrow R and is immediately sucked into the suction port 5 together with the air from below. Then, the warm air warmed by the indoor heat exchanger 1B is sucked through the suction port 5, circulates through the indoor heat exchanger 1A, and raises the temperature of the warm air from the air outlet 3A to a high temperature.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an air conditioner for blowing warm air in two directions inside a room.

[0002]

2. Description of the Related Art Conventionally, as an air conditioner, Japanese Patent Application Laid-Open No. -1
There is one described in Japanese Patent No. 37633. As shown in FIG. 6, this air conditioner circulates room air through two indoor heat exchangers 11A and 11B in a case 18 embedded in a ceiling 19 and these indoor heat exchangers 11A and 11B. An indoor unit 20 having two indoor fans 12A and 12B is provided. Suction port 15 of the indoor unit 20
The air sucked in from each of the indoor heat exchangers 11A and 11B is blown out from the outlets 13A and 13B in two directions in the room, and the blowing directions of the outlets 13A and 13B are adjusted by the flaps 14A and 14B. .

[0003]

By the way, in the above air conditioner, as shown in FIG. 7, when the zone operation is performed to heat only the A side in which the person in the room 30 is living, the air flow rate on the A side is increased. While increasing B, the air volume on the B side is decreased. At this time, since hot air is also emitted to the B side where there is no person, there is a problem that the place where there is a person cannot be intensively heated.

Therefore, an object of the present invention is to provide an air conditioner capable of intensively heating one side of a room when the heating operation is performed on the one side of the room and improving the efficiency.

[0005]

In order to achieve the above object, an air conditioner according to claim 1 comprises two indoor heat exchangers,
In an air conditioner including two indoor fans that blow air from a suction port through each of the indoor heat exchangers to two directions in the room from each of the outlets, and a flap that adjusts the wind direction of each of the outlets, When only one side of the room is heated by the hot air from the one outlet, the flap that adjusts the wind direction of the other outlet, the hot air blown from the other outlet immediately to the suction port. It is characterized in that it is provided with flap control means for setting the direction of circulation.

The air conditioner of claim 2 is the same as that of claim 1.
In this air conditioner, when heating only one side of the room with warm air from the one outlet, fan air volume control that minimizes the air volume of the indoor fan that blows warm air from the other outlet It is characterized by having means.

[0007]

According to the air conditioner of claim 1, for example,
When a person resides on one side of the room and heats only one side of the room with warm air from the one outlet, the flap control means adjusts the wind direction of the other outlet. The flaps are oriented so that the hot air blown immediately circulates through the inlet. Therefore, the hot air from the other outlet is not only sucked from the inlet and circulates via the other indoor heat exchanger, but also blows out from one outlet via the one indoor heat exchanger. Therefore,
The warm air warmed by the indoor heat exchanger on the side without people,
The warm air at the outlet on the side where a person lives is heated to a high temperature through one of the indoor heat exchangers.

[0008] Therefore, it is possible to suppress the heating of the side not occupied by the person and use the heat quantity of the other indoor heat exchanger for heating the side where the person is living, so that one of the rooms can be centrally heated. Also, in the case of an air conditioner using a variable frequency compressor, when heating only the inhabited side, the operating frequency of the compressor can be lowered to obtain an equivalent blowout temperature, so Combined with the intensive heating of one side, the operating efficiency can be improved.

According to the air conditioner of the second aspect, in the air conditioner of the first aspect, when only one side of the room is heated by the hot air from the one outlet, the fan air volume The control means minimizes the air volume of the indoor fan that blows out warm air from the other outlet, so that the warm air from the other outlet is immediately sucked in through the suction port to heat the indoor side. There is nothing to do. Therefore, one of the rooms can be heated more intensively.

[0010]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The air conditioner of the present invention will be described in detail below with reference to an embodiment.

FIG. 1 is a sectional view showing the internal construction of an indoor unit 10 of an air conditioner according to an embodiment of the present invention.
FIG. 3 is a cross-sectional view of a main part of one outlet of the indoor heat exchanger 10. 1 and 2, 1A and 1B are indoor heat exchangers arranged in an inverted V shape in a case 8 embedded in a ceiling 9,
2A and 2B are indoor fans arranged on both sides of the indoor heat exchangers 1A and 1B in the case 8. The indoor unit 10
Has a suction port 5 below the indoor heat exchangers 1A and 1B, and blowout ports 3A and 3B on both sides of the suction port 5, respectively. The suction ports 5 side of the air outlets 3A, 3B are provided with flaps 4A, 4B for adjusting the wind directions of the warm air blown by the indoor fans 2A, 2B, respectively. Further, the air conditioner includes a control unit 7 that controls the operation of the indoor unit 10. The control unit 7 includes a flap control unit 7a as a flap control unit and a fan control unit 7b as a fan control unit.
And have. The indoor fans 2A and 2B are switched to three-level taps of strong wind, weak wind, and light wind.

In the air conditioner having the above-mentioned configuration, when performing zone operation for heating only one of the A side and the B side of the room 30, for example, as shown in FIG. When only the A side which is present is operated for heating, the flap 4A corresponding to the A side and the indoor fan 2A are normally operated, while the flap control section 7a of the control section 7 fully opens the flap 4B corresponding to the B side (shown in FIG. 2). Then, the fan control unit 7b of the control unit 7 sets the air volume tap of the indoor fan 2B to the minimum breeze. Thus, the outlet 3B of the indoor unit 10
The hot air from flows in the direction of arrow R shown in FIG. 1, is immediately sucked into the suction port 5 together with the air from below, circulates through the indoor heat exchanger 1B, and the hot air from the outlet 3B. Part of the air passes through the indoor heat exchanger 1A and is blown out from the air outlet 3A.

FIG. 3 shows the control unit 7 of the indoor unit 10.
It is a flowchart which shows the process of. The process of the control unit 7 will be described below with reference to FIG.

First, in step S1, it is determined whether or not the zone operation is selected. If it is determined that the zone operation is selected, the process proceeds to step S2, while if it is determined that the zone operation is not selected, Go to step S10, A
Side and B side perform normal operation.

Next, in step S2, it is determined whether the zone operation is on the A side, and if it is determined that the zone operation is on the A side, the process proceeds to step S3.

Next, in step S3, it is determined whether the indoor heat exchanger temperature is lower than or equal to the reference temperature, and if it is determined that the indoor heat exchanger temperature exceeds the reference temperature, the process proceeds to step S4 and B
After the side flap 4B is immediately angled so as not to circulate through the suction port 5, the process proceeds to step S6. That is, in the zone operation, the flaps are fully opened and the amount of heat exchange in the indoor heat exchanger on the side where the air volume is the minimum is small, and in order to prevent the high pressure from rising due to excess supply capacity, the indoor heat exchanger temperature exceeds the reference temperature. If it exceeds, the hot air is discharged into the room 30 from the B side as well, and the indoor heat exchanger temperature is lowered to the reference temperature or lower.

On the other hand, if it is determined in step S3 that the indoor heat exchanger temperature is lower than the reference temperature, the process proceeds to step S5, the flap controller 7a fully opens the flap 4B on the B side, and then proceeds to step S6.

Next, in step S6, the fan controller 7b minimizes the air volume of the B side indoor fan 2B. Then, in step S7, the A side is normally operated, and this process ends.

When it is determined in step S2 that the zone operation is not on the A side, that is, it is determined that the zone operation is on the B side, the process proceeds to step S11, and it is determined whether the indoor heat exchanger temperature is below the reference temperature. To do. Then, step S1
When it is determined in 1 that the indoor heat exchanger temperature exceeds the reference temperature, the process proceeds to step S12, and the angle is set so that the A-side flap 4A is not immediately circulated to the suction port 5, and then the process proceeds to step S14. That is, in the zone operation, the flaps are fully opened and the amount of heat exchange in the indoor heat exchanger on the side where the air volume is the minimum is small, and in order to prevent the high pressure from rising due to excess supply capacity, the indoor heat exchanger temperature exceeds the reference temperature. If it exceeds, hot air is discharged into the room 30 from the A side as well, and the indoor heat exchanger temperature is lowered to the reference temperature or lower.

On the other hand, if it is determined in step S11 that the indoor heat exchanger temperature is lower than the reference temperature, the process proceeds to step S12, in which the flap control section 7a fully opens the flap 4A on the A side, and then proceeds to step S14. move on.

Next, in step S14, the fan controller 7b
Minimizes the air volume of the indoor fan 2A on the A side. And
In step S15, the B side is normally operated, and this process ends.

In this way, when performing zone operation in which only one of the A side and B side of the room is heated, the other flap is fully opened and the air volume of the other indoor fan is minimized. The warm air from the outlet is immediately drawn into the suction port 5. Therefore, for example, when a person lives only on one side of the room, the warm air warmed by the indoor heat exchanger on the side without people is circulated in the vicinity of the air outlet and the air inlet to suck in the hot air. By circulating the air from the mouth to the indoor heat exchanger on the side where the person lives, the temperature of the hot air from the outlet on the side where the person lives is raised.

Therefore, it is possible to intensively heat the space in which a person lives. Further, when the compressor of the air conditioner is of a variable frequency type, the operating frequency of the compressor can be lowered by the amount that the temperature in which the space where a person lives is intensively heated and the blowing temperature becomes high, can be reduced. Can be improved.

In the above embodiment, the present invention is applied to the air conditioner mounted on the ceiling, but the present invention may be applied to a wall-hanging type in which warm air is blown out in two directions in the room.

Further, in the above embodiment, the indoor fans 2A, 2
In B, the air volume is switched stepwise by the three-step air volume taps of strong wind, weak wind, and light wind, but the air volume of the indoor fan may be changed infinitely.

Further, in the above embodiment, the flaps 4A and 4B are used.
Is provided on the suction port 5 side of the air outlets 3A and 3B, but as shown in FIG. 4, the flap 1 is provided on the opposite side of the air outlet 21 from the suction port 22.
5B may be provided. In this case, when the other indoor side of the air outlet 21 is zone-heated, the flap 15B is
The hot air from the outlet 21 is immediately fixed in the direction in which it is sucked into the suction port 22. In addition, as shown in FIG.
The flaps 16B and 17B may be respectively provided on both sides of 3.
In this case, when the other indoor side of the air outlet 23 is zone-heated, the flaps 16B and 17B are fixed so that the warm air from the air outlet 23 is immediately sucked into the air inlet 24.

[0027]

As is apparent from the above, the air conditioner according to the invention of claim 1 has two indoor heat exchangers and two indoor heat exchangers from the suction port to each indoor heat exchanger through each of the indoor heat exchangers. In an air conditioner equipped with two indoor fans that blow out air in one direction and a flap that adjusts the wind direction of each of the outlets, only one side of the room is heated by the warm air from the one outlet. At this time, the flap control means sets the flap, which adjusts the wind direction of the other outlet, in such a direction that the warm air blown from the other outlet is immediately circulated to the inlet.

Therefore, according to the air conditioner of the first aspect of the present invention, for example, when a person lives only on one side of the room and one side is subjected to the zone operation for heating operation, the other side is operated. The warm air from the air outlet is immediately drawn into the suction port, and the warm air warmed by the indoor heat exchanger on the side without people is circulated to the indoor heat exchanger on the side with people. Therefore, it is possible to suppress the heating on the side where there is no person and to raise the temperature of the hot air from the air outlet on the heating side, thereby centrally heating the space where the person lives. Further, when the compressor of the air conditioner is of a variable frequency type, the operating frequency of the compressor can be lowered and the operating efficiency can be improved by heating the space on the heating side intensively and raising the blowing temperature. be able to.

Further, in the air conditioner of the invention of claim 2, in the air conditioner of claim 1, when only one side of the room is heated by the hot air from the one outlet, the fan air volume control is performed. The means minimizes the air volume of the indoor fan that blows air from the other outlet.

Therefore, according to the air conditioner of the second aspect of the present invention, the warm air from the other outlet is immediately sucked from the suction port, and the warm air is circulated in the vicinity of the air outlet and the suction port. The heating of the other side can be suppressed well. In addition, the hot air warmed by the other indoor heat exchanger can be efficiently used to raise the blowing temperature of the one indoor heat exchanger. Therefore, one of the rooms can be heated particularly intensively.

[Brief description of drawings]

FIG. 1 is a sectional view showing an internal configuration of an air conditioner according to an embodiment of the present invention.

FIG. 2 is a cross-sectional view of a main part of an outlet of the air conditioner.

FIG. 3 is a flowchart showing a process of a control unit of the air conditioner.

FIG. 4 is a cross-sectional view of a main part of an outlet of an air conditioner of another example.

FIG. 5 is a cross-sectional view of a main part of an air outlet of an air conditioner of another example.

FIG. 6 is a cross-sectional view showing an internal configuration of a conventional air conditioner.

FIG. 7 is a diagram showing a state of the room when the air conditioner operates in a zone.

[Explanation of symbols]

1A, 1B ... Indoor heat exchanger, 2A, 2B ... Indoor fan, 3A, 3
B ... Blowout port, 4A, 4B ... Flap, 5 ... Suction port, 6 ... Insulation material, 7 ... Control part, 8 ... Case, 9 ... Ceiling, 10 ... Indoor unit.

Claims (2)

[Claims] 1. Two indoor heat exchangers (1A, 1B), a suction port (5), each indoor heat exchanger (1A, 1B) through each outlet (3A, 3B) to the indoor 2 Blowing air in the direction 2
In an air conditioner equipped with two indoor fans (2A, 2B) and flaps (4A, 4B) for adjusting the wind directions of the respective air outlets (3A, 3B), the air conditioner from the first air outlet (3A) When heating only one side of the room with warm air, the flap (4B) for adjusting the wind direction of the other outlet (3B) is connected to the other outlet (3B).
An air conditioner comprising flap control means (7a) for setting a direction in which hot air blown out from B) is immediately circulated to the suction port (5). 2. The air conditioner according to claim 1,
When only one side of the room is heated by the hot air from the one outlet (3A), the air volume of the indoor fan (2B) that blows out the warm air from the other outlet (3B) is minimized. An air conditioner comprising a fan air volume control means (7b).