KR20040044730A - Control method for airconditioner - Google Patents

Abstract

PURPOSE: A control method of an air conditioner is provided to make the spaces delightful all the time with selectively operating one of indoor devices installed in a living room and main rooms and to drive the two indoor devices at the same time only with the capacity of a single-type air conditioner. CONSTITUTION: In a single-type air conditioner for connecting a plurality of indoor devices installed to separated spaces to one outdoor device, a control method of the air conditioner is composed of steps for inputting an operation signal(100); deciding if the input operation signal is a drive demanding signal for which indoor device; controlling a refrigerant supply path to supply refrigerants generated from the outdoor device only to the indoor device demanding the drive operation; and controlling the operation until the interior temperature for an installation space of the driven indoor device reaches a set temperature(140). If the operation signal is input, the single-type air conditioner drives two indoor devices with single capacity by distributing and supplying the refrigerants generated from one outdoor device to two indoor devices.

Description

Control method for air conditioner

The present invention relates to a control method of an air conditioner, and more particularly, to a control method of an air conditioner for controlling to drive one or more indoor units using the capacity of a single type air conditioner.

In general, the type of air conditioner is a separate type that separates the indoor and outdoor units, an integrated unit that combines the indoor and outdoor units into a single unit, a wall-mounted unit configured to be mounted on a wall, and a slim type, frame type, and one unit that can be built in a living room. Single type configured to be used in a small place such as a home, medium to large sized to be used in a company or restaurant, and multi type configured to sufficiently drive several indoor units. And the like.

In the case of the separate type, the indoor unit is configured to supply hot air or cold air into an air conditioning space by being installed indoors, and an outdoor unit that performs high temperature and high pressure compression of a refrigerant to allow sufficient heat exchange operation in the indoor unit.

In the case of the multi type, the air conditioner is configured to be supplied individually and with sufficient hot or cold air into each air-conditioning space at a place having a plurality of air-conditioning spaces separated from a school. Thus, the multi type includes a plurality of indoor units and one or more outdoor units. However, the multi-type must have the capacity of an outdoor unit capable of driving the plurality of indoor units when the plurality of indoor units all have an output state of 100%. That is, the outdoor unit provided in the multi-type should have a capacity proportional to that when the plurality of indoor units all have 100% output state.

In the case of the single type, it is generally composed of one indoor unit and one outdoor unit, and the capacity of the indoor unit and the capacity of the outdoor unit have a proportional relationship. That is, the outdoor unit is configured to have a capacity that can drive the indoor unit at 100% output state. In addition to the above, many types of air conditioners are provided.

As described above, a single type and a separate type air conditioner will be described among the various types of air conditioners.

Most households in Korea consist of family members at the family level, and the life pattern in the family consists of common life. And given that the time zone where air conditioners are commonly used is afternoon, it is common for families staying at home during that time to live together in the living room or room.

The air conditioner used in many homes is a single type. In the case of the single type, as described above, one outdoor unit is configured to be connected to one outdoor unit. This single type has a capacity that the outdoor unit can match when the indoor unit is driven at the maximum capacity.

However, in the conventional single type, as shown in FIG. 1, it consists of one indoor unit 2 and one outdoor unit 1. As shown in FIG. Therefore, at home, the indoor unit 2 had to be installed in only one of the rooms or the living room.

Such a single type is not made to be movable inside a home. Therefore, the user must install the indoor unit in either the room or the living room, and because of this installation condition, the user can be provided with the effect of the air conditioner only in the room or the living room where the indoor unit is installed.

Therefore, if the single type purchased by the user is an air conditioner limited to the capacity of the living room or the size of the room, the user located in the place where the indoor unit is not installed does not feel the effect of the air conditioner. On the contrary, when the user purchases an air conditioner having both a living room and a room, it is possible to receive the effect of the air conditioner in the living room or the room. In this case, however, the air conditioner has to be purchased at a large capacity, which makes it economically burdensome.

As described above, since the conventional single type air conditioner is provided with only one indoor unit, the conventional single type air conditioner is formed in a form that does not match our lifestyle. For this reason, the user's satisfaction with the product is inevitably deteriorated, which causes a problem of lowering the purchasing power for the product.

Accordingly, the present invention provides a control method of the air conditioner to install the indoor unit in the living room and the room with the capacity of the single type air conditioner, and to control the operation of the indoor unit by the user selection.

1 is a block diagram of a single air conditioner according to the prior art,

2 is a configuration diagram of a single type air conditioner according to the present invention;

3 is a control block diagram of a single type air conditioner according to the present invention;

4 is an operation flowchart of a single air conditioner according to the present invention;

Explanation of symbols on the main parts of the drawings

10: outdoor unit 20, 25: indoor unit

30: pipe 40: valve

51,54: signal input unit 52,53: temperature sensor

55 control unit 57 compressor drive unit

59: fan drive unit

A control method of an air conditioner according to the present invention for achieving the above object comprises: a single type air conditioner connecting a plurality of indoor units installed in separate spaces to one outdoor unit: inputting a driving signal; Determining which indoor unit driving request signal is the input driving signal; Controlling a refrigerant supply path so that the refrigerant generated in the outdoor unit can be supplied only to the indoor unit requiring driving; And controlling the operation until the room temperature of the installed indoor unit of the driven indoor unit reaches a set temperature.

In addition, the control method of the air conditioner according to the present invention, in a single type air conditioner connecting two indoor units installed in separate spaces to one outdoor unit: when a driving signal is input, the refrigerant generated in one outdoor unit By distributing and supplying to two indoor units, it is characterized by driving two indoor units with a single type capacity.

Hereinafter, a control method of an air conditioner according to the present invention will be described in detail with reference to the accompanying drawings.

2 is a block diagram of a single air conditioner according to the present invention.

Single air conditioner of the present invention is shown, characterized in that one or more indoor unit is connected. However, the indoor units, unlike the multi-type, only one generates 100% output capacity or distributes 100% output capacity so that the output is controlled.

The general multi type is connected to a plurality of indoor units, and when all the connected indoor units generate 100% output capacity, the outdoor unit is capable of extinguishing all of them. However, the single type air conditioner proposed in the present invention, although the two indoor units are connected to one outdoor unit, the outdoor unit is configured with the same capacity as when connecting one indoor unit. As such, it is impossible for both indoor units connected to the outdoor unit to generate 100% capacity. That is, the output is generated by being distributed by 50%, or it is possible that only one indoor unit generates 100% output.

Therefore, in the single type air conditioner of the present invention, two indoor units 1, 2 (20, 25) are connected to one outdoor unit 10 through a pipe 30. In addition, the pipe 30 is provided with a valve 40 for opening and closing the refrigerant supplied to each of the two indoor units 1, 2 (20, 25). The valve 40 is controlled to open and close by the control of a controller to be described later.

The single type air conditioner of the present invention having the above configuration is used for home use. Therefore, one indoor unit 1 (20) is installed in the living room, the other indoor unit 2 (25) is installed in the room. The single type air conditioner of the present invention installed as described above can control only driving the indoor unit 1 (20) installed in the living room or driving only the indoor unit 2 (25) installed in the room. In addition, it is also possible to control to drive both the indoor unit 1, 2 (20, 25) installed in the living room and the room at the same time.

3 is a control block diagram for controlling the operation of a single air conditioner according to the present invention.

The control configuration of the single type air conditioner of the present invention analyzes the signals input from the signal inputs 1, 2 (51, 54) and the signal inputs 1, 2 (51, 54) for inputting various control operation signals of the air conditioner. And a control unit 55 for performing the necessary control. The signal input section 1 (51) is a configuration for inputting an operation signal of the indoor unit 1 (20), and the signal input section (2) 54 is a configuration for inputting an operation signal of the indoor unit 2 (25). The signal input units 1, 2 (51, 54) may be provided in the indoor unit main body, or a separate remote controller may be used.

In addition, a valve 40 for opening and closing the refrigerant supply is connected to the two indoor units 1, 2 (20, 25). The valve 40 adjusts or opens or closes the amount of refrigerant supplied from the outdoor unit 10 to the indoor unit 1 20, and controls or opens or closes the amount of refrigerant supplied from the outdoor unit 10 to the indoor unit 2 25. Therefore, it is preferable that the valve 40 connects a three-way valve.

Operation control of the valve 40 is made by the controller 55. The controller 55 controls the amount of refrigerant supplied to the two indoor units 1, 2 (20, 25) according to a predetermined value. For example, when only one indoor unit is operated, the open state of the valve 40 is controlled to be in a state of 100% output capacity. At this time, the valve 40 of the part connected to the indoor unit is controlled to be fully opened so that a large amount of refrigerant can be supplied to the indoor unit in operation. On the contrary, when both indoor units are operating, the controller 55 adjusts the open state of the valve 40 only partially. At this time, the amount of refrigerant supplied to the two indoor units 1, 2 (20, 25) is adjusted and supplied according to the open state of the valve. Therefore, the controller 55 stores a value for adjusting the open state of the valve 40 according to the operation state of the two indoor units 1, 2 (20, 25).

In addition to the above configuration, the control configuration of the single type air conditioner of the present invention includes a compressor driving unit 57 for driving a compressor, and a fan driving unit 59 for driving an outdoor fan and an indoor fan. And it is mounted on one side of the front of the indoor unit 1 (20) temperature sensor 1 (53) for measuring the indoor temperature, and is mounted on one side of the front of the indoor unit 2 (25) temperature sensor 2 (52) for measuring the indoor temperature Equipped. The temperatures detected by the two temperature sensors are input to the controller 55.

Next, the operation of the single-type air conditioner according to the present invention having the above configuration will be described.

First, the single type air conditioner of the present invention can be controlled in two ways. One way is to use only one of the two indoor units. At this time, the indoor unit to be used is used at 100% capacity. And another way is that both indoor units can be used, but the capacity is distributed and controlled. Both indoor units are used at the same time, but they are distributed and controlled for 100% output capacity.

Next, a process of using only one indoor unit, which is the first control method, will be described in detail with reference to FIG. 4. In the following process, the cooling operation control process will be described as an example.

The single type air conditioner of the present invention is generally used for home use. Therefore, indoor unit 1 (20) is preferably installed in the living room, indoor unit 2 (25) is generally installed in the room. The air conditioner installed in this way starts cooling operation by a user's operation command.

On the other hand, the time for which the air conditioner is used is afternoon time, evening, and night time zone. People in the home at this time, like living in a living room or room. Moreover, since most families have recently been nuclear-family, most of those who stay home in the afternoon are housewives and children, who usually spend time together in a room or living room.

Therefore, the user commands a driving signal to any one of indoor units located in the living room or the room (step 100). When the user commands a driving signal through the indoor unit 1 (20) located in the living room, the signal is applied to the control unit 55 through the signal input unit 1 (51), and the control unit 55 needs to operate the indoor unit 1 (20). (Step 110).

In step 110, when it is recognized that the driving unit 20 needs to be driven, the controller 55 controls the opening direction of the valve 40 connected to the indoor unit 1 20 to be opened. At this time, the valve 40 is controlled in a state in which the direction connected with the indoor unit 1 (20) is fully opened (step 120). On the contrary, the direction connected with the indoor unit 2 25 remains completely closed.

The controller 55 controls the driving of the compressor, the indoor fan, and the outdoor fan through the compressor driver 57 and the fan driver 59 (step 130). When the compressor starts to operate as described above, the refrigerant compressed in the outdoor unit 10 shown in FIG. 2 is supplied to the pipe 30, and the refrigerant flows in the controlled direction in the open state of the valve 40, thereby causing the indoor unit 1 ( 20) is supplied to the side.

The refrigerant supplied to the indoor unit 1 (20) performs a heat exchange operation with the indoor air, and at this time, the heat exchange operation is promoted while the indoor fan operates. The operation is continuously performed until the indoor temperature detected through the temperature sensor 1 53 reaches a set temperature set by the user (step 140). The room temperature detected from the temperature sensor 1 53 is a living room temperature. This is because the indoor unit 1 (20) is installed in the living room, the living room temperature is detected and controlled until the detected living room temperature becomes a user set temperature.

Through the indoor unit 1 (20) installed in the living room as described above it is possible for the user to feel a comfortable air conditioning environment inside the living room.

That is, in the single-type air conditioner of the present invention, the two indoor units are connected to one outdoor unit, but when the indoor unit 1 20 installed in the living room is operated, the indoor unit 2 25 installed in the room does not operate. It becomes a state. Therefore, the 100% output capacity of the outdoor unit is transmitted to the indoor unit 1 (20) in operation as it is, so that the indoor unit 1 (20) is also controlled to generate a 100% output capacity. Of course, the indoor unit 2 25 is in a 0% output capacity state.

On the other hand, during the operation of the indoor unit 1 (20) installed in the living room, the user can move the activity space to the room. In other words, watching TV in the living room or spending time with the children when they go to bed, they enter the room. In this case, a hot summer night requires a comfortable air-conditioning environment at night, even at bedtime. In this case, the cooling effect in the room is required.

In this case, the user controls the operation of the indoor unit 1 (20) installed in the living room to a stop state, and then commands the operation of the indoor unit 2 (25) installed in the room.

Therefore, when the user commands a driving signal through the indoor unit 2 (25) located in the room, the signal is applied to the control unit 55 through the signal input unit 2 (54), the control unit 55 is the indoor unit 25 that needs to operate (Step 170).

Thereafter, the controller 55 controls the opening direction of the valve 40 connected to the indoor unit 2 25 to be opened. At this time, the valve 40 is controlled in a state in which the direction connected with the indoor unit 2 25 is fully opened (step 180). On the contrary, the direction connected with the indoor unit 1 (20) remains completely closed.

Thereafter, the controller 55 controls the driving of the compressor, the indoor fan, and the outdoor fan through the compressor driver 57 and the fan driver 59 (step 130). When the compressor starts to operate, the refrigerant compressed in the outdoor unit 10 illustrated in FIG. 2 is supplied to the pipe 30, and the refrigerant flows in the controlled direction in the open state of the valve 40, thereby causing the indoor unit 2 ( 25) is supplied to the side.

The refrigerant supplied to the indoor unit 2 (25) performs a heat exchange operation with the indoor air, and at this time, the heat exchange operation is promoted while the indoor fan operates. The operation is continuously performed until the indoor temperature detected through the temperature sensor 2 52 reaches a set temperature set by the user (step 140). The room temperature detected from the temperature sensor 2 52 becomes room temperature. This is because the indoor unit 2 (25) is installed in the room, the room temperature is detected and controlled until the detected room temperature becomes a user set temperature.

Through the indoor unit 2 (25) installed in the room as described above, the user can feel a comfortable air conditioning environment inside the room.

That is, in this case, when the indoor unit 2 25 installed in the room is operated, the indoor unit 1 20 installed in the living room is in a state of not operating. Therefore, the 100% output capacity of the outdoor unit is transmitted to the indoor unit 2 (25) in operation as it is, so that the indoor unit 2 (25) is also controlled to generate 100% output capacity. Of course, the indoor unit 1 (20) is in a state of 0% output capacity.

Next, a description will be given of a control process when both indoor units, which are the second control method, are used.

When the user wants to operate both the indoor unit 1 (20) installed in the living room and the indoor unit 2 (25) installed in the room, the operation signal is controlled by the signal input unit 1, 2 (51, 54). ) Is entered. The controller 55 recognizes that both indoor units need to be operated by the input signal of step 200.

At this time, the controller 55 controls both directions of the valve 40 in the open state so that the refrigerant can be supplied to both indoor units 1, 2 (20, 25). At this time, the opening degree of the valve 40 is limited to a part. The opening degree is determined by the experimental value, and is determined by the capacity of the indoor unit, the possible pressure difference, and the like.

The refrigerant compressed and supplied from the outdoor unit 10 by the control is supplied to both the indoor unit 1 20 installed in the living room and the indoor unit 2 25 installed in the room through the pipe 30 and the valve 40. It is done. At this time, the amount of refrigerant supplied is a relatively small amount compared to when only one indoor unit is operated. This is because the outdoor unit 10 being operated has the same capacity. Therefore, the indoor units 1 (20) and the indoor units 2 (25) each generate an output capacity of 50% or 40%: 60%, respectively, to generate an output capacity. It is controlled differently according to the opening degree of 40.

That is, in this case, since the single indoor air conditioner of the present invention is driven simultaneously with two indoor units, the refrigerant compressed in one outdoor unit is configured to be distributed and supplied to the two indoor units. In this case, the output capacity is small, but the cooling effect can be obtained simultaneously in both the living room and the room.

In this case, the operation control is preferably performed based on either one. That is, the operation is controlled based on only one of the detection temperatures of the temperature sensor 1 (53) or the temperature sensor 2 (52) for detecting the room temperature of the living room or room.

The operation control described above has described the case where both indoor units are driven at the same time. However, there may be a case in which one indoor unit is in operation while further requiring the operation of the other indoor unit.

In this case, the operation can be controlled according to how the controller 55 adjusts the opening degree of the valve 40. That is, while only one indoor unit is being operated, the operation is performed by controlling the valve of the indoor unit side in operation as fully opened as shown in FIG. 4. When an operation signal is input from another indoor unit during such control, the controller 55 adjusts the open state of the valve 40 in both indoor unit directions. In this case, it is preferable that the opening degree of the valve is also adjusted by a predetermined value.

As explained above, although the single type air conditioner of this invention is equipped with two indoor units, it is produced according to the capacity of a single air conditioner. Therefore, it is impossible for two indoor units to generate 100% output capacity at the same time. However, it is possible that only one indoor unit generates 100% output capacity, or two indoor units generate 50% output capacity. Therefore, according to the present invention, the indoor unit is installed in the living room and the room in accordance with the domestic lifestyle, and by using the two indoor units appropriately, it is possible to always provide a comfortable air-conditioning environment to the consumer.

And in the embodiment of the present invention has been described a configuration that connects two indoor units to a single air conditioner, but need not be limited to this, it is also possible to connect a plurality of indoor units in a single capacity.

The single type air conditioner of the present invention described above can obtain the following effects.

Since our living pattern is living in a living room or a room, it is a single type but it is necessary to install indoor units in the living room and the room, and to create a comfortable environment at all times by selectively operating only one indoor unit. It is possible. Alternatively, the present invention is capable of simultaneously driving two indoor units with a single capacity. At this time, the two indoor units are connected to one outdoor unit, and the outdoor units are set for single type capacity. Therefore, each indoor unit has a relatively low output capacity compared to when one is driven, but since it is possible to form two spaces comfortably with a single capacity, it is possible to provide a cost-effective effect to the consumer. Done.

Claims (2)

In a single air conditioner connecting multiple indoor units installed in separate spaces to one outdoor unit: Inputting a driving signal; Determining which indoor unit driving request signal is the input driving signal; Controlling a refrigerant supply path so that the refrigerant generated in the outdoor unit can be supplied only to the indoor unit requiring driving; And controlling operation until the room temperature of the installed indoor unit of the driven indoor unit reaches a set temperature. In a single air conditioner that connects two indoor units to one outdoor unit that are installed in separate spaces: When a driving signal is input, the refrigerant generated in one outdoor unit is distributed to two indoor units to supply the two indoor units with a single type capacity, characterized in that the control method of the air conditioner.