KR20090081651A - A Method for Controlling An Operation Of A Multi Air-Conditioning System - Google Patents

Abstract

An operating controlling method of a multi-air conditioning system is provided to increase the operating efficiency and the convenience of a user by automatically keeping the preset temperature. An operating controlling method of a multi-air conditioning system comprises following steps. A first step is to set up the operating zone by adding an indoor unit self-temperature error to the preset temperature(SP2). A second step is to set up again the minimum operating zone based on a value in which the fixed temperature is taken out from the minimum of the preset operating zone. A third step is to operate an indoor unit based on a result that the indoor temperature is within the operating zone(SP7).

Description

A Method for Controlling An Operation Of A Multi Air-Conditioning System

The present invention relates to a driving control method of a multi-air conditioner system, and more particularly, in order to set the upper and lower limits of the driving range for operating each indoor unit in consideration of the temperature error and the set temperature difference of each indoor unit itself. The operation control method of the multi-air conditioner system.

1 is a configuration diagram schematically showing a general multi-air conditioner system structure.

As shown in the drawing, the multi-air conditioner system includes at least one outdoor unit 20 to which a plurality of indoor units 10 are connected, and a central control unit 30 to centrally control the outdoor unit 20 to which the indoor unit 10 is connected. . In addition, the control unit may further include a platform (not shown) provided between the outdoor unit 20 and the central control unit 30 to connect the indoor unit 10 and the central control unit 30.

Initially, the control program for individually controlling the plurality of indoor units 10 and the outdoor units 20 is not implemented in the central control unit 30, so that the detailed functions of each indoor unit 10 or the outdoor unit 20 are individually controlled. The efficiency is reduced by simply connecting or disconnecting the power of all the indoor unit 10 and the outdoor unit 20 connected at the same time, or by operating the same temperature applied to the desired temperature of all the indoor unit 10 and the outdoor unit 20. There was this.

In order to solve such a problem, setting information of an air conditioner, such as network information about each indoor unit 10 or outdoor unit 20 connected to the central control unit 30, and device information of the indoor unit 10 and the outdoor unit 20, are described. The user has registered in advance in the central control device 30, and implemented a control program in the central control device 30 that can individually control each air conditioner according to the registered setting information.

Accordingly, in order to increase the efficiency of air conditioner management in a common building such as a company or a school where air conditioners are recently installed, the central control unit 30 is installed. As the performance of the outdoor unit 20 is improved, a large number of indoor units ( 10 is shared and connected to the outdoor unit 20, and a plurality of indoor units 10 and outdoor units 20 are integrated and controlled through the central control unit 30.

The operation control method of the multi-air conditioner system according to the related art has a problem in that the operation mode is changed by manually observing the change in the room temperature when operating the multi-air conditioner installed in a place where the change in room temperature is large.

The present invention has been made to solve the problems of the prior art, an object of the present invention is to automatically set by setting the operating temperature in each air conditioner, and setting the operating area in consideration of a certain temperature in controlling the individual air conditioner The present invention provides a method for controlling operation of a multi-air conditioner system to maintain a temperature.

The operation control method of the multi-air conditioner system according to the present invention has an effect of increasing operating efficiency and providing user convenience by automatically maintaining a set temperature by setting an operating region of each air conditioner in consideration of the indoor unit's own temperature error.

In the operation control method of the multi-air conditioner according to the present invention, after setting the operating range by adding or subtracting the indoor unit's own temperature error to the set temperature, and after resetting the lower limit of the operating region to a value obtained by subtracting a predetermined temperature from the lower limit of the set operating region It is determined whether the indoor temperature is within the driving range, and the indoor unit is driven based on the determination result.

Here, the set temperature is a temperature at which the user wants to operate the air conditioner in each room where the air conditioner is installed, and all the indoor units are simultaneously controlled, grouped, or set according to each room by the central control unit of the multi-air conditioner. To drive.

In addition, the operating area is set in consideration of the temperature error of each indoor unit itself to the set temperature, the temperature error of each indoor unit itself is a measurement error of the machine determined at the manufacturing stage, and has a different value for each indoor unit. The temperature error of each indoor unit itself cannot be varied by the user or the like. Therefore, the upper limit of the operating region is set by adding the temperature error of the indoor unit itself to the set temperature, and the lower limit of the operating region is set by subtracting the temperature error of the indoor unit itself from the set temperature.

In addition, the lower limit of the operating region may be reset by subtracting a predetermined temperature from the lower limit of the set operating region. As the room temperature of each room generally decreases rather than rises, it is more efficient to increase only the lower limit of the operating range than to increase both the upper and lower limits. After setting the driving region, the indoor temperature of each room in which the indoor unit is currently installed is detected to determine whether the detected indoor temperature is included in the set operating region.

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

2 is a view illustrating a driving mode state according to a time change according to the present invention.

One embodiment of the operation control method of the multi-air conditioner system according to the present invention comprises the steps of operating each indoor unit according to the set temperature, setting the upper and lower limits of the operating area by adding or subtracting a predetermined temperature (T1) to the set temperature, Determining whether the indoor temperature is within an operating region, and operating the indoor unit by heating or cooling based on the determination result.

2A is a diagram illustrating an operation mode state according to an exemplary embodiment of the present invention, in which the operation region is set by adding or subtracting a predetermined temperature T1 to a set temperature. As shown in this figure, the temperature is set, the operating temperature is set by adding or subtracting a predetermined temperature (T1), and the indoor temperature is sensed, and when the indoor temperature is greater than the set temperature + T1, the operation mode is switched to the cooling mode, If the temperature is lower than the set temperature-T1, switch the operation mode to heating mode. Here, the temperature error of each indoor unit itself may be used as the constant temperature T1.

Another embodiment of the operation control method of the multi-air conditioner system according to the present invention, the step of operating each indoor unit according to the set temperature, the step of setting the upper and lower limits of the operating area by adding or subtracting a predetermined temperature (T1) to the set temperature; Resetting the lower limit of the operation area by subtracting a predetermined predetermined temperature (T2) from the lower limit of the set operation area, determining whether the indoor temperature is within the operation area, and heating or cooling based on the determination result. It consists of driving the indoor unit.

Figure 2b is a view showing the operation mode state according to another embodiment of the present invention, after the constant temperature (T1) is added to or subtracted from the set temperature, the constant temperature (T2) to the lower limit of the operating region is further lowered the lower limit of the operating region. This is due to the reset operation control method. As shown in the figure, the temperature is set, the operating temperature is set by adding or subtracting a predetermined temperature (T1), and the indoor temperature is sensed. If the temperature is lower than the set temperature-T1-T2, switch the operation mode to heating mode. Here, the temperature error of each indoor unit itself may be used as the constant temperature T1, and the constant temperature T2 is set by the user.

Hereinafter, with reference to the accompanying Figure 3 will be described in detail the operation control method according to the present invention.

3 is a flowchart illustrating an operation control method of a multi-air conditioner system according to the present invention. As shown in the drawing, the operation control method of the multi-air conditioner system according to the present invention includes the steps of operating the indoor unit according to the set temperature (SP1), setting the operating area (SP2), detecting the indoor temperature (SP3) ), Determining whether the indoor temperature is within the driving range (SP4, SP5), and driving the indoor unit (SP6, SP7, SP8) according to the determination result.

In the step SP1 of operating the indoor unit according to the set temperature, the indoor unit is operated by setting a temperature to be operated by the user or the like through the central controller for the specific indoor unit. For example, operate the indoor unit 1 in a cooling operation mode at 24 ° C.

In step SP2 of setting the operation region, a predetermined temperature T1 is added or subtracted to the set temperature. Here, the constant temperature T1 may use the temperature error of the indoor unit itself. In this case, the constant temperature T1 becomes an invariant value. On the other hand, the constant temperature T1 may be preset by the user. In this case, the constant temperature T1 may vary even during operation. While the range of the upper limit, the set temperature + T1, and the lower limit, the set temperature-T1, with respect to the set temperature as in one embodiment according to the present invention is constant, the upper limit, set temperature + T1, and as in another embodiment Set the lower limit and the range of set temperature-T1-T2 differently. In the latter case, the constant temperature T1 uses the indoor unit's own temperature error in the manufacturing stage as it is, and the constant temperature T2 uses the temperature difference set by the user.

Detecting the room temperature (SP3) is a well-known technique for detecting the room temperature using a detection sensor, so a detailed description thereof will be omitted. In addition, the detected indoor temperature is compared with a preset set temperature, and it is determined whether the indoor temperature exists within an operating area by the set temperature.

Driving the indoor unit according to the determination result (SP6, SP7, SP8), if the indoor temperature is greater than the upper limit of the operating area, operating the indoor unit in cooling (SP6), the room temperature is lower than the lower limit of the operating area If small, operating the indoor unit with heating (SP7), and if the room temperature is in the operating area, and maintaining the first determined operating mode (SP8).

For example, in an embodiment of the operation control method according to the present invention, it is assumed that the indoor unit is operated with the initial operation mode being cooled, the set temperature being 24 ° C, and the constant temperature T1 being 1 ° C. In this case, the upper limit of the operation region is 25 ° C, and the lower limit is 23 ° C. After the indoor unit operates, if the room temperature reaches 26 ° C. after a predetermined time, the cooling wind speed is increased or the input power is increased to lower the temperature. When the room temperature drops and becomes equal to or lower than the upper limit of the operating range, the air conditioner switches to the initial cooling operation mode. In addition, when the room temperature reaches 22 ° C., the operation mode is switched to the heating mode to increase the room temperature. When the room temperature rises above 23 ℃, the lower limit of the operating area, it switches to the cooling mode, which is the initial operation mode. Repeat this operation.

For example, in another embodiment of the operation control method according to the present invention, it is assumed that the indoor unit is operated with the initial operation mode being cooled, the set temperature being 22 ° C, and the constant temperature T2 being 1 ° C. In addition, the indoor unit itself temperature error of the indoor unit to be operated at present is 0.5 ℃. Therefore, the upper limit of the operation region is 22.5 ° C, and the lower limit is 20.5 ° C. After a certain period of time by operating the indoor unit, when the room temperature reaches 22.6 ° C., the cooling wind speed is increased or the input power is increased to decrease the temperature. When the room temperature drops and becomes equal to or lower than the upper limit of the operating range of 22.5 ° C., the initial cooling operation mode is switched. In addition, when the room temperature is 20.4 ° C., the operation mode is switched to the heating mode to increase the room temperature. When the elevated room temperature reaches the lower limit of the operating range of 20.5 ° C, it switches to the cooling mode, which is the initial operation mode. Repeat this operation.

As described above, the operation control method of the multi-air conditioner system according to the present invention can prevent a sudden change in room temperature, easily predict the temperature range that a user changes, and improve the operation efficiency of the multi-air conditioner system. .

1 is a configuration diagram schematically showing the configuration of a general multi-air conditioner system;

2A illustrates a driving mode state according to an embodiment of the present invention;

2B is a view showing a driving mode state according to another embodiment of the present invention;

3 is a flowchart illustrating an operation control method of a multi-air conditioner system according to the present invention.

Claims (6)

The operating range is set by adding or subtracting the indoor unit's own temperature error to the set temperature, and after resetting the lower limit of the operating region by subtracting a predetermined temperature from the lower limit of the set operating region, determining whether the indoor temperature is within the operating region. Driving control method of the multi-air conditioner system for driving the indoor unit on the basis. Driving each indoor unit according to a set temperature; Setting an upper limit and a lower limit of an operation region by adding or subtracting a predetermined temperature T1 to the set temperature; Determining whether an indoor temperature is within the driving range; And And operating the indoor unit by heating or cooling based on the determination result. The method of claim 2, wherein the constant temperature (T1), Operation control method of a multi-air conditioner system, characterized in that the temperature error of the indoor unit itself. The method of claim 3, wherein And resetting the lower limit of the operating area to a value obtained by subtracting a predetermined predetermined temperature (T2) from the lower limit of the set operating area. The method of claim 2, wherein the driving of the indoor unit comprises: And operating the indoor unit by cooling if the indoor temperature is greater than an upper limit of the operation region. The method of claim 2, wherein the driving of the indoor unit comprises: And operating the indoor unit by heating if the indoor temperature is smaller than a lower limit of the operating region.

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