KR102306033B1 - Method for controlling of air conditioner - Google Patents

Abstract

The present invention provides an indoor unit and an outdoor unit for circulating a refrigerant in a heat pump cycle; A duct type air conditioner comprising: a discharge duct connected to the indoor unit and guiding air conditioned by the indoor unit into a room, wherein the discharge duct includes: a main discharge duct through which air discharged from the indoor unit flows; a first duct connected to the main discharge duct and connected to the lower side of the room to discharge the air supplied from the main discharge duct; a second duct connected to the main discharge duct and connected to the upper side of the room to discharge the air supplied from the main discharge duct; and a guide unit disposed in the first main discharge duct and configured to select and flow air into any one of the first duct and the second duct.
In the present invention, when air is discharged from the upper side of the room in the cooling mode, cold air flows from the upper side to the lower side of the room, and in the heating mode, air is discharged from the lower side of the room, so that warm air flows from the lower side of the room to the upper side. There are advantages to making it happen.

Description

Duct-type air conditioner {Method for controlling of air conditioner}

The present invention relates to a duct-type air conditioner, and more particularly, to a duct-type air conditioner capable of controlling the discharge direction of air in a cooling mode or a heating mode.

In general, an air conditioner is composed of a compressor, a condenser, an evaporator, and an expander, and supplies cold or warm air to a building or room using an air conditioning cycle.

Structurally, the air conditioner is divided into a separate type in which the compressor is disposed outdoors, and an integral type in which the compressor is integrally manufactured.

In the separation type, an indoor heat exchanger is installed in an indoor unit, an outdoor heat exchanger and a compressor are installed in the outdoor unit, and two separated devices are connected through a refrigerant pipe.

The integral type is an indoor heat exchanger, an outdoor heat exchanger and a compressor installed in one case. The integrated air conditioner includes a window type air conditioner which is installed directly by hanging the device on a window, and a duct type air conditioner which is installed outside the room by connecting a suction duct and a discharge duct.

The separate type air conditioner includes a stand-type air conditioner installed upright, a wall-mounted air conditioner installed on a wall, and the like.

Also, as a type of a separate type air conditioner, there is a system air conditioner capable of providing air-conditioned air to a plurality of spaces.

In the case of the system air conditioner, there are a type in which a plurality of indoor units are provided to air-condition a room, and a type in which air-conditioned air is supplied to each space through a duct.

In the case of a type in which each indoor unit is provided in each indoor space, there is an advantage that it can be operated in response to each load in the room, but there is a disadvantage in that it is expensive.

In the case of a type that supplies air-conditioned air to each indoor space through a duct, while the cost is relatively low, there is a disadvantage in that it cannot precisely respond to the indoor load.

In the case of the conventional duct-type air conditioner, since air is supplied only from the ceiling of the room downward, it is advantageous in the cooling mode, but in the heating mode, the discharged air gathers at the upper part of the room and effective heating is not performed. .

Republic of Korea Patent Publication 10-2014-0056851 A

An object of the present invention is to provide a duct-type air conditioner capable of controlling the discharge direction of air according to a cooling mode or a heating mode.

An object of the present invention is to provide a duct type air conditioner that discharges air from an upper side of a room in a cooling mode and discharges air from a lower side of the room in a heating mode.

The problems of the present invention are not limited to the problems mentioned above, and other problems not mentioned will be clearly understood by those skilled in the art from the following description.

The duct-type air conditioner according to the present invention can control the discharge direction of air according to a cooling mode or a heating mode.

The duct-type air conditioner according to the present invention may discharge air from the upper side of the room in the cooling mode, and may discharge air from the lower side of the room in the heating mode.

The present invention provides an indoor unit and an outdoor unit for circulating a refrigerant in a heat pump cycle; a discharge duct connected to the indoor unit and guiding air conditioned by the indoor unit into a room, wherein the discharge duct includes: a main discharge duct through which air discharged from the indoor unit flows; a first duct connected to the main discharge duct and connected to the lower side of the room to discharge the air supplied from the main discharge duct; a second duct connected to the main discharge duct and connected to the upper side of the room to discharge the air supplied from the main discharge duct; and a guide unit disposed in the first main discharge duct and configured to select and flow air into any one of the first duct and the second duct.

In the cooling mode, the guide unit blocks the first duct, guides the air of the main discharge duct to the second duct, and blocks the second duct in the heating mode, and the air in the main discharge duct It may further include a guide for guiding to the first duct.

The guide unit may include: a guide for guiding the air of the main discharge duct to either the first duct or the second duct; a guide driving unit providing a rotational force to the guide; It may include; a guide connecting part for connecting the guide driving part and the guide to transmit the driving force of the guide driving part to the guide.

The guide unit may further include a guide stopper for limiting rotation of the guide, and when the guide is caught with the guide stopper, air flowing into either the first duct or the second duct may be shielded.

The main discharge duct may include a main guide duct connected to the indoor unit; a first guide duct connecting the main guide duct and the first duct; and a second guide duct connecting the main guide duct and the second duct.

The present invention provides an indoor unit and an outdoor unit for circulating a refrigerant in a heat pump cycle; a main discharge duct through which the air discharged from the indoor unit flows; a first duct connected to the main discharge duct and connected to the lower side of the room to discharge the air supplied from the main discharge duct; a second duct connected to the main discharge duct and connected to the upper side of the room to discharge the air supplied from the main discharge duct; a guide for guiding the air of the main discharge duct to either the first duct or the second duct; a guide driving unit providing a rotational force to the guide; A control method of a duct-type air conditioner comprising a; a guide connecting part connecting the guide driving part and the guide to transmit the driving force of the guide driving part to the guide, the method comprising: determining an operation mode; when the operation mode is the cooling mode, rotating the guide in a forward direction, closing the first duct, and controlling the air to be discharged from the upper side of the room through the second duct; and when the operation mode is the heating mode, rotating the guide in the reverse direction, closing the second duct, and controlling the air to be discharged from the lower side of the room through the first duct.

The control method of the air conditioner according to the present invention has one or more of the following effects.

First, the present invention has the advantage of being able to control the discharge direction of air according to the cooling mode or the heating mode.

Second, the present invention has an advantage in that air can be discharged from the upper side of the room in the cooling mode, and air can be discharged from the lower side of the room in the heating mode.

Third, in the present invention, in the cooling mode, air is discharged from the upper side of the room so that cold air flows from the upper side to the lower side, and in the heating mode, air is discharged from the lower side of the room, so that warm air is discharged from the lower side of the room to the upper side. It has the advantage of being flexible.

Fourth, according to the present invention, when guiding air to either the first duct or the second duct through the rotation of the guide, since the guide shields the other, the direction change and configuration of the discharge air can be concisely configured. There are advantages.

1 is a perspective view of an air conditioner according to a first embodiment of the present invention.
FIG. 2 is a block diagram of the air conditioner control unit shown in FIG. 1 .
3 is a schematic front view showing a discharge duct of the duct type air conditioner according to the first embodiment of the present invention.
FIG. 4 is a front view showing the inside of the main discharge duct of FIG. 3 .
FIG. 5 is a plan view of FIG. 4 .
6 is a flowchart illustrating a method for controlling a guide unit according to a first embodiment of the present invention.

Advantages and features of the present invention and methods of achieving them will become apparent with reference to the embodiments described below in detail in conjunction with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but may be implemented in various different forms, and only these embodiments allow the disclosure of the present invention to be complete, and common knowledge in the art to which the present invention pertains It is provided to fully inform those who have the scope of the invention, and the present invention is only defined by the scope of the claims. Like reference numerals refer to like elements throughout.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view of an air conditioner according to a first embodiment of the present invention, FIG. 2 is a block diagram of the air conditioner control unit shown in FIG. 1, and FIG. 3 is a duct type according to the first embodiment of the present invention. It is a schematic front view showing the discharge duct of the air conditioner, FIG. 4 is a front view showing the inside of the main discharge duct of FIG. 3, and FIG. 5 is a plan view of FIG.

<Configuration of duct-type air conditioner according to the first embodiment>

Referring to the drawings, the air conditioner according to an embodiment of the present invention includes an indoor unit 10 and an outdoor unit 100 . The indoor unit 10 and the outdoor unit 100 are connected through refrigerant pipes 101 and 102 . One of the refrigerant pipes is a high-pressure pipe 101 , and the other is a low-pressure pipe 102 .

The high pressure pipe 101 is a pipe through which the refrigerant discharged from the compressor 14 flows, and the low pressure pipe 102 is a pipe through which the refrigerant discharged from the compressor 14 flows to the compressor 14 through the indoor unit 100 .

The air conditioner according to the present embodiment may be operated in any one of a cooling mode, a heating mode, a blowing mode, and a dehumidifying mode. To this end, the duct type air conditioner operates the refrigerant as a heat pump cycle.

<Configuration of indoor unit>

The indoor unit 10 may include a case 11 , a supply duct 21 for supplying air to the case 11 , and a discharge duct 200 for discharging air conditioned by the indoor unit 10 . have.

<Configuration of discharge duct>

The discharge duct 200 includes a main discharge duct 220 through which the air discharged from the indoor unit 10 flows, and a first duct 230 and a second duct 240 connected to the main discharge duct 220 . and the first branch ducts 31 to 38 branched from the first duct 230, the second branch ducts 31 to 38 branched from the second duct 240, and the first main discharge duct ( 220), and includes a guide unit 250 for selecting and flowing air into any one of the first duct 230 or the second duct 240.

For each branch duct 31 to 38, respective diffusers 41 to 48 through which air is discharged may be provided. In each of the branch ducts 31 to 38, respective dampers 61 to 68 for controlling the air flow may be provided.

The diffusers 41 to 48 of the first duct 230 and the diffusers 41 to 48 of the second duct 240 may be disposed to face each other.

The dampers 61 to 68 may open and close the branch ducts 31 to 38 . In addition, each of the dampers 61 to 68 is connected to the damper motors 51 to 58, and the opening angle of each damper can be adjusted by driving the respective damper motors.

In this embodiment, each damper motor 51 to 58 can be driven independently.

Although eight branch ducts, dampers, and damper motors are disclosed in this embodiment, the number of branch ducts, dampers and damper motors is not limited in the present invention.

The main discharge duct 220 may be provided with a pressure sensor 72 for sensing the pressure of the discharged air. The indoor unit 10 includes a fan motor 12 for rotating the fan, a current sensor 13 for sensing a current of the fan motor 12, a controller 71 for controlling the fan motor 12, and A memory 73 in which current value information according to the open number of the dampers 61 to 68 is stored may be included.

The indoor unit 10 may receive a command through the input unit 15 . The input unit 15 may be a single controller or may be provided in each room. In addition, the user may open and close at least one or more dampers 61 to 68 using the input unit 15 .

A plurality of branch ducts or diffusers may be disposed in one room, and when a user inputs an on/off command through the input unit 15, a plurality of damper motors disposed in one room are simultaneously operated to operate the entire room. You can turn the damper on/off.

In addition, the user may turn on/off only some branch ducts disposed inside the room through the input unit 15 .

On the other hand, a low pressure pipe pressure sensor 75 for sensing the pressure of the refrigerant is disposed in the low pressure pipe 102 , and an indoor heat exchanger pressure sensor 76 for detecting the pressure of the refrigerant is also disposed in the indoor heat exchanger.

The air conditioner according to the present embodiment adjusts the operating frequency of the compressor 14 based on the number of open dampers, the low pressure pipe pressure sensor 75 and the indoor heat exchanger pressure sensor 76 .

The main discharge duct 220 includes a main guide duct 222 connected to the indoor unit 10 and a first guide duct 224 connecting the main guide duct 222 and the first duct 230 to each other. and a second guide duct 226 connecting the main guide duct 222 and the second duct 240 .

In this embodiment, the main guide duct 222 is arranged horizontally, and the first guide duct 224 and the second guide duct 226 are arranged in the vertical direction.

In this embodiment, the first duct 230 is disposed on the lower side, and the second duct 240 is disposed on the upper side. Therefore, the first guide duct 224 is connected to the lower side of the main guide duct 222 , and the second guide duct 226 is connected to the upper side of the main guide duct 222 .

The first guide duct 224 and the second guide duct 226 are vertically arranged.

The guide unit 250 may be disposed between the first guide duct 224 , the second guide duct 226 , and the main guide duct 222 .

<Configuration of guide unit>

The guide unit 250 includes a guide 252 for guiding the air of the main guide duct 222 to either the first guide duct 224 or the second guide duct 226, and a rotational force applied to the guide 252. A guide driving unit 254 providing and a guide control unit 258 for receiving and controlling the guide driving unit 254 .

The guide 252 is rotatable in the duct in a clockwise (forward) or counterclockwise (reverse) direction.

In this embodiment, when the guide 252 is rotated counterclockwise, the first guide duct 224 is closed, and the air in the main guide duct 222 is guided to the second guide duct 226 . do.

In this embodiment, when the guide 252 is rotated clockwise, the second guide duct 226 is closed, and the air in the main guide duct 222 is guided to the first guide duct 224 .

In this embodiment, the guide 252 is formed in an arc shape. The air flowing through the may guide duct 222 is guided along the arc-shaped inner surface of the guide 252 .

The arc shape can minimize air resistance.

The guide 252 is disposed between the first guide duct 224 and the second guide duct 226 for the air of the main guide duct 222 .

In this embodiment, the guide unit 250 further includes a guide stopper 259 for limiting rotation of the guide 252 .

The guide stopper 259 may be disposed in the main guide duct 222 .

Unlike the present embodiment, the guide spotter 259 may be disposed in the first guide duct 224 or the second guide duct 226 .

In this embodiment, a motor is used for the guide driving unit 254 . The rotational force of the motor is transmitted to the guide 252 through the guide connection part 256 .

The motor may rotate the guide connection part 256 in a clockwise or counterclockwise direction. The shaft 257 of the guide connection part 256 may be installed to pass through the main guide duct 222 in a horizontal direction.

The guide control unit 258 receives a control signal from the control unit 71 of the duct type air conditioner, and controls the guide driving unit 254 according to the received control signal.

The configuration of the guide control unit 258 may be replaced by the control unit 71 of the duct type air conditioner. In this case, the control unit 71 of the duct type air conditioner directly controls the guide driving unit 254 .

The control unit 71 of the duct type air conditioner may control the guide driving unit 254 by wire or wirelessly.

The guide control unit 258 may include a communication module, and may receive a control signal from the control unit 71 of the duct-type air conditioner through a wired or wireless signal.

<Control process of guide unit>

6 is a flowchart illustrating a method for controlling a guide unit according to a first embodiment of the present invention.

The user may select any one of cooling, heating, dehumidification, or ventilation through the input unit 15 . The duct-type air conditioner is operated in any one of a cooling mode, a heating mode, a dehumidifying mode, or a blowing mode by the user's manipulation.

In this embodiment, the air discharge direction is controlled according to the operating mode.

For example, when the user selects the cooling mode, the guide unit 250 flows the air to the second duct 240 disposed on the upper side. And when the user selects the heating mode, the guide unit 250 flows the air to the first duct 230 disposed on the lower side.

In order to flow the air as above, the guide unit 250 is controlled as follows.

When the user selects the cooling mode, the guide 252 shields the passage connected to the first duct 230 in order to flow the air cooled through heat exchange to the second duct 240 .

The guide driving part 254 rotates the guide connection part 256 in a counterclockwise direction, and the guide 252 rotates in the counterclockwise direction together with the guide connection part 256, and the first guide duct 224 is rotated in the counterclockwise direction. shield it

The guide 252 is caught by the guide stopper 259 to limit rotation.

The air flowing through the main guide duct 222 is guided along the arc-shaped inner surface of the guide 252 to the second guide duct 226 .

The air guided to the second guide duct 226 is discharged into the room through the diffusers 41 to 48 connected to the second duct 240 .

It is advantageous for cooling the room that the heat-exchanged cold air is discharged into the room through the second duct 240 disposed on the upper side. The cold air discharged from the upper side of the room flows slowly to the floor of the room, so that the entire room can be cooled more uniformly.

Next, when the user selects the heating mode, the guide 252 shields the passage connected to the second duct 240 in order to flow the heated air through the heat exchange to the first duct 230 .

The guide driving part 254 rotates the guide connection part 256 clockwise, and the guide 252 rotates clockwise together with the guide connection part 256, and shields the second guide duct 226. .

The guide 252 is caught by the guide stopper 259 to limit rotation.

The air flowing through the main guide duct 222 is guided along the arc-shaped inner surface of the guide 252 and guided to the first guide duct 224 .

The air guided to the first guide duct 224 is discharged into the room through the diffusers 41 to 48 connected to the first duct 240 .

It is advantageous for indoor heating that the heat-exchanged warm air is discharged into the room through the second duct 240 disposed on the lower side. The warm air discharged from the upper side of the room flows to the upper side of the room, so that the entire room can be heated more uniformly.

Although embodiments of the present invention have been described above with reference to the accompanying drawings, the present invention is not limited to the above embodiments, but may be manufactured in various different forms, and those of ordinary skill in the art to which the present invention pertains. It will be understood by those skilled in the art that the present invention may be embodied in other specific forms without changing the technical spirit or essential features of the present invention. Therefore, it should be understood that the embodiments described above are illustrative in all respects and not restrictive.

10: indoor unit 100: outdoor unit
101: high pressure piping 102: low pressure piping
200: discharge duct 220: main discharge duct
230: first duct 240: second duct
250: guide unit 252: guide
254: guide driving part 256: guide connection part
258: guide control unit

Claims (6)

an indoor unit and an outdoor unit circulating a refrigerant in a heat pump cycle; In the duct type air conditioner comprising a; a discharge duct connected to the indoor unit and guiding the air conditioned by the indoor unit into the room,
The discharge duct is
a main discharge duct through which the air discharged from the indoor unit flows;
a first duct connected to the main discharge duct and connected to the lower side of the room to discharge the air supplied from the main discharge duct;
a second duct connected to the main discharge duct and connected to the upper side of the room to discharge the air supplied from the main discharge duct; and
A guide unit disposed in the main discharge duct, which selects and flows air into any one of the first duct and the second duct; includes;
The guide unit is
and a guide for guiding the air of the main discharge duct to one of a first duct and a second duct, and a guide formed in an arc shape.
The method according to claim 1,
The guide is
In the cooling mode, the first duct is cut off, the air of the main discharge duct is guided to the second duct, and in the heating mode, the second duct is cut off, and the air of the main discharge duct is supplied to the first duct. A duct type air conditioner that guides you to The method according to claim 1,
The guide unit is
a guide driving unit providing a rotational force to the guide; and
A duct-type air conditioner comprising a; a guide connecting part that connects the guide driving part and the guide to transmit the driving force of the guide driving part to the guide. 4. The method according to claim 3,
The guide unit further comprises a guide stopper for limiting the rotation of the guide,
When the guide is engaged with the guide stopper, the duct type air conditioner blocks air flowing into either the first duct or the second duct. The method according to claim 1,
The main discharge duct is
a main guide duct connected to the indoor unit;
a first guide duct connecting the main guide duct and the first duct;
and a second guide duct connecting the main guide duct and the second duct. an indoor unit and an outdoor unit circulating a refrigerant in a heat pump cycle;
a main discharge duct through which the air discharged from the indoor unit flows;
a first duct connected to the main discharge duct and connected to the lower side of the room to discharge the air supplied from the main discharge duct;
a second duct connected to the main discharge duct and connected to the upper side of the room to discharge the air supplied from the main discharge duct;
a guide for guiding the air of the main discharge duct to either the first duct or the second duct, and formed in an arc shape;
a guide driving unit providing a rotational force to the guide;
In the control method of a duct-type air conditioner comprising a; a guide connecting part for connecting the guide driving part and the guide to transmit the driving force of the guide driving part to the guide,
determining a driving mode;
when the operation mode is the cooling mode, rotating the guide in a reverse direction, closing the first duct, and controlling the air to be discharged from the upper side of the room through the second duct;
and when the operation mode is a heating mode, rotating the guide in a forward direction, closing the second duct, and controlling the air to be discharged from the lower side of the room through the first duct. control method.

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