KR100653060B1 - Air Conditioning System - Google Patents

Abstract

The present invention relates to an air conditioning system having a plurality of indoor units, comprising: a memory for storing a predetermined peak power value and idle priority of each indoor unit; A power evaluation unit for evaluating a current power consumption value of the air conditioning system; And an operation control unit configured to sequentially stop the indoor unit according to a resting priority, when the current power consumption value exceeds the peak power value. According to the above configuration, efficient power consumption can be achieved by preferentially stopping the indoor units set in advance among the plurality of indoor units.

Air Conditioning System, Indoor Unit, Peak Power Control, Priority

Description

Air Conditioning System {AIR CONDITIONER}

1 is a block diagram showing the configuration of an air conditioning system according to a preferred embodiment of the present invention,

2 is a flowchart illustrating a process of power control according to a first embodiment of the present invention.

3 to 5 are views for explaining the operation of the movable control unit according to the second embodiment of the present invention.

6 is a flowchart illustrating a process of power control according to a second embodiment of the present invention.

* Explanation of symbols for the main parts of the drawings

10: air conditioning system 12: peak power value setting section

14: memory 16: operation control unit

30: power supply 40: power evaluation unit

50: indoor unit 60: power line

70: outdoor unit

The present invention relates to an air conditioning system. More specifically, the present invention relates to an air conditioning system that can achieve efficient power consumption by preferentially stopping a preset indoor unit among a plurality of indoor units.

In an air conditioning system having a plurality of indoor units that operate by receiving electric power from the same power line, when the indoor units are driven at a large operating capacity at the same time, there is a possibility that overcurrent flows in the power lines. There have been various attempts.

As one example, according to the Korean patent application "Multi-indoor central management method" (Publication No. 10-2004-0023315, hereinafter also referred to as "cited invention 1"), the operating state in the below range of peak power Central control for indoor unit use. That is, the output level of the indoor unit is lowered or the control of some indoor units in the idle state is repeated for a predetermined time so that the peak power is not exceeded.

However, in Cited Invention 1, it is not possible to cope with the environment in which the indoor unit is arranged because there is no standard for selecting the indoor unit to be stopped even if all indoor units are reduced in operation collectively or some of the indoor units are stopped. .

As another example, according to the Republic of Korea patent application "control device and method of a multi-indoor unit" (published No. 2003-0077671, hereinafter referred to as "cited invention 2"), based on the indoor temperature change rate with respect to the set temperature difference and time of the indoor unit By determining the priority of the indoor unit according to the environment of each indoor, the operation of the indoor unit is controlled.

However, in Cited Invention 2, the operation is controlled according to the environment in which each indoor unit is arranged, but it does not provide a solution when the cooling and heating of a specific space should be prioritized. For example, in an office with a lot of people and a corridor with few people, it is inefficient to operate the indoor unit according to the priority based on the same criteria.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and an object of the present invention is to provide an air conditioning system capable of achieving efficient power consumption by preferentially stopping a preset indoor unit among a plurality of indoor units.

In order to achieve the above object, the present invention provides an air conditioning system having a plurality of indoor units, comprising: a memory for storing a predetermined peak power value and the resting priority of each indoor unit; A power evaluation unit for evaluating a current power consumption value of the air conditioning system; And an operation control unit configured to sequentially stop the indoor unit according to the resting priority, when the current power consumption value exceeds the peak power value.

When there are a plurality of indoor units having the same resting priority, the movable control unit may cyclically stop a predetermined number of indoor units of the plurality of indoor units at predetermined time intervals.

According to still another aspect, the present invention provides an air conditioning system including a plurality of indoor units, wherein the upper priority power value, the lower peak power value, and the idle priority of each indoor unit corresponding to each peak power value are stored. Memory; A power evaluation unit for evaluating a current power consumption value of the air conditioning system; And an operation control unit for stopping the indoor unit having a resting priority corresponding to the exceeded peak power value and the lower peak power value when the current power consumption value exceeds the upper or lower peak power value. It provides an air conditioning system characterized in that.

The movable control unit is configured to, when there are a plurality of indoor units having a resting priority corresponding to the exceeded peak power value and the lower peak power value, the number of indoor units corresponding to the exceeded peak power value among the plurality of indoor units. It can be cyclically rested at predetermined time intervals.

Hereinafter, with reference to the accompanying drawings will be described in detail with reference to the preferred embodiment of the present invention. 1 is a block diagram showing the configuration of an air conditioning system 10 of an indoor unit according to a preferred embodiment of the present invention.

The air conditioning system 10 of the present invention includes a plurality of indoor units 50.1, 50.2, ..., 50.n and an outdoor unit 70, and controls the operation of the plurality of indoor units 50.1, 50.2, ..., 50.n. The power consumption of the system is controlled so as not to exceed the peak power.

In addition, the air conditioning system 10 further includes a power evaluator 40, which is inserted into the power line 60 between the power supply 30 and the outdoor unit 70 to evaluate the power consumption of the entire system.

The air conditioning system 10 further includes a peak power value setting unit 12, a memory 14, and an operation control unit 16. The peak power value setting unit 12 inputs, through a predetermined input device (not shown), the idle priority indicating the priority of the indoor units 50.1, 50.2,. And store it in the memory 14. For example, the peak power value setting unit 12 may set that the indoor units 50.1, 50.2, ..., 50.n having low resting priorities (for example, 1, 2, and 3) should be preferentially rested.

In addition, the peak power value setting unit 12 sets the peak power value corresponding to the resting priority of each of the inputted indoor units 50.1, 50.2, ..., 50.n, and stores it in the memory 14. The peak power value setting unit 12 may set one peak power value or may set a plurality of peak power values. Here, the peak power value is the maximum value set such that no overcurrent flows through the power line 60.

On the other hand, when setting the plurality of peak power values, the peak power value setting unit 12 preferably sets sequential power values smaller than the maximum peak power value. For example, the peak power value setting unit 12 may set 100%, 90%, and 80% of the maximum peak power values to three peak power values. In this case, the plurality of peak power values is an example of the upper and lower peak power values of the present invention.

In addition, the peak power value setting unit 12, for example, when the user gives each one of the three idle priority (1, 2 and 3) to each indoor unit (50.1, 50.2, ..., 50.n) In response, it is preferable to set three peak power values.

As the first embodiment, the movable control unit 16 determines the indoor units 50.1, 50.2, ..., 50.n when it is determined that the current power consumption of the air conditioning system 10 exceeds the peak power value. Pause sequentially according to the priority of the pause. The operation of the operation control unit 16 according to the first embodiment of the present invention will be described in detail with reference to FIG. 2. 2 is a flowchart illustrating a process of power control according to a first embodiment of the present invention.

First, the peak power value setting unit 12 stores the appropriate peak power value in the memory 14 as a resting priority of the indoor unit input from the user (S10). Next, the power evaluation unit 40 evaluates the current power consumption of the air conditioning system 10 (S12).

Next, the operation control unit 16 determines whether the current power consumption exceeds the peak power value (S14), and sequentially stops each indoor unit according to the resting priority (S16).

If there are a plurality of indoor units having the same resting priority, the operation control unit 16 determines whether a predetermined time has elapsed (S18), and circulates a predetermined number of indoor units (S20).

On the other hand, the movable control unit 16, as the second embodiment, when the current power consumption value of the air conditioning system 10 exceeds any one of the plurality of peak power values, the exceeded peak power value and smaller than that. The indoor unit having the resting priority corresponding to the peak power value is stopped. If there are a plurality of indoor units corresponding to the peak power value below the exceeded peak power value, the operation control unit 16 cyclically stops the number of indoor units corresponding to the exceeded peak power value at predetermined time intervals.

The operation of the movable control unit 16 will be described in detail with reference to FIGS. 3 to 5. 3 to 5 are diagrams for explaining the operation of the movable control unit 16 according to the second embodiment of the present invention. 2 to 4, a total of six indoor units (indicated by the first to sixth indoors (50.1 to 50.6)) to be controlled by the air conditioning system 10, and the first to third indoors (50.1 to 50.3). The resting priority is set to 1, the fourth and fifth rooms 50.4 and 50.5 are set to have a resting priority of 2, and the sixth indoor room 50.6 is set to have a resting priority of 3.

First, when the current power consumption exceeds the smallest peak power value, the idle priority corresponding thereto is 1, and in this case, the operation control unit 16 sets the first to third indoor rooms 50.1 to 50.3 for a predetermined time. One by one at intervals to be sequentially stopped.

Next, when the current power consumption exceeds the second peak power value, the corresponding resting priorities are 1 and 2, and in this case, the operation control unit 16 performs the first room 50.1 and the second room. (50.2) for a predetermined time (indicated by 72), next to the third room (50.3) and the fourth room (50.4) for a predetermined time (indicated by 74), and then to the fifth room (50.5) and the second. One room 50.1 is rested for a predetermined time (indicated by 72). In this way, the operation control unit 16 selects two indoor units and sequentially stops at predetermined time intervals.

Next, when the current power consumption exceeds the highest peak power value, the corresponding priorities are all 1, 2, and 3, and in this case, the operation control unit 16 controls the first to third rooms 50.1. To 50.3) for a predetermined time (indicated by 82), and then to the fourth to sixth indoors (50.4 to 50.6) for a predetermined time (indicated by 84), and then to the second to fourth indoors (50.2). To 50.4) for a predetermined time (indicated by 86), and then the fifth to first indoors (50.5 to 50.1) are inactive for a predetermined time (indicated by 88). In this way, the movable control unit 16 cyclically stops the three indoor units at predetermined time intervals.

Next, a process of power control according to the second embodiment of the present invention will be described with reference to FIG. 6. 5 is a flowchart illustrating a process of power control according to a second embodiment of the present invention.

First, the peak power value setting unit 12 receives the priority of each indoor unit from the user (S50), sets a plurality of peak power values corresponding to the input priority (S52), and stores it in the memory 14. do. Next, the power evaluation unit 40 evaluates the current power consumption of the system (S54).

Next, the operation control unit 16 determines whether the current power consumption value exceeds the peak power value (S56), and if it does not exceed (No in S56), the power evaluation unit 40 continues the system. The current power consumption is evaluated (S54).

If the operation control unit 16 determines that the current power consumption value exceeds the peak power value (Yes in S56), the operation control unit 16 exceeds in the indoor unit having the resting priority corresponding to the peak power value below the exceeded peak power value. It is cyclically rested by the number corresponding to the peak power value (S58).

Next, the operation control unit 16 checks whether a predetermined time has elapsed after stopping the indoor unit (S60), and if it is determined that the predetermined time has not elapsed (No in S60), the operation unit 16 continuously stops the operation of the indoor unit, If it is determined that the predetermined time has elapsed (Yes in S60), the power evaluation unit 40 evaluates the current power consumption of the system again, and the operation control unit 16 responds to the current power consumption value and the peak power value to the indoor unit. Repeat the control process (S54 to S60) to stop the.

As mentioned above, the present invention has been described in detail through preferred embodiments, but the present invention is not limited thereto, and various modifications can be made within the scope of the claims. For example, the operation control unit 16 cyclically stops the indoor unit having the resting priority corresponding to the peak power value equal to or less than the exceeded peak power value by the same number as the number of the exceeded peak power values. In an embodiment, the indoor unit having a higher number of resting priorities may be stopped than the indoor unit having a lower resting priority. In addition, the operation control unit 16 may control the rest frequency by varying the frequency of the rest so that the indoor unit having the lowest priority is paused twice, and the indoor unit having the lowest priority is paused once.

As described above, according to the present invention, it is possible to provide an air conditioning system which can achieve efficient power consumption by preferentially resting a preset indoor unit among a plurality of indoor units.

Claims (6)

delete delete In the air conditioning system having a plurality of indoor unit, A memory for storing a plurality of peak power values of the air conditioning system and idle priority of each indoor unit respectively corresponding to the plurality of peak power values; A power evaluation unit for evaluating a current power consumption value of the air conditioning system; And When the current power consumption value exceeds any one of the plurality of peak power values, the indoor unit having the idle priority corresponding to the exceeded peak power value and the lower peak power value is exceeded. And an operation control unit which cyclically stops at a predetermined time interval by the number corresponding to the peak power value. delete The method of claim 3, And, when the indoor control unit stops the indoor unit, the air conditioner system which stops the indoor unit having a higher toilet priority priority by a larger number than the indoor unit having a low toilet priority priority. The method of claim 3, And the movable control unit, when the indoor unit is to be stopped, the indoor unit having the highest resting priority, at a higher pause frequency than the indoor unit having the lowest resting priority.

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