KR100808863B1 - Method and peak electric power control system of multi-air conditioner - Google Patents

Abstract

A method and a system for controlling peak power in a multi-air conditioner are provided to equally maintain cooling of a plurality of rooms and efficiently manage energy by turning on and off multi-compressors in accordance with total power energy and turning off all compressors if total power energy exceeds peak power energy. Peak power energy and reference power energy are predetermined at a central controller(S1). Usable power energy range is divided into certain ranges and multi-stage levels are predetermined by the certain ranges(S2). A compressor on/off command for each compressor is set to turn off some multi-compressors while turning on the rest of multi-compressors by levels(S3). The central controller calculates total power energy of a multi-air conditioner(S4). The central controller judges whether the calculated total power energy is above the predetermined peak power energy(S5). If so, the central controller turns off all compressors(S7). If not, the central controller judges the level of the reference power energy based on the calculated total power energy(S6). The central controller turns off some compressors related to the judged level while turning on the rest of compressors to supply compressed refrigerant to a plurality of indoor units through the operating compressors(S8).

Description

Maximum power control system and method of multi-air conditioner {Method and peak electric power control system of multi-air conditioner}

1 is a block diagram of a multi-air conditioning system according to the prior art,

2 is a configuration diagram of a maximum power control system of a multi-air conditioner according to an embodiment of the present invention;

3 is a setting table of the compressor that is controlled off according to the power level according to an embodiment of the present invention,

4 is a flowchart of a method of controlling a maximum power of a multi-air conditioner according to an embodiment of the present invention.

* Description of the symbols for the main parts of the drawings

10: indoor unit 20: outdoor unit

30: central controller

The present invention relates to a maximum power control system and method of a multi-air conditioner. More specifically, when the total power amount is more than the maximum power amount, the total power amount does not exceed the maximum power amount by controlling off the multi compressor provided in the outdoor unit. The present invention relates to a maximum power control system and a method of a multi-air conditioner that uniformly supplies a plurality of indoor units with a refrigerant having reduced cooling / heating ability by controlling some compressors and controlling the remaining compressors off according to the total amount of power not exceeding the amount of power.

In general, a multi-air conditioner system refers to a system in which a plurality of indoor units connected to an outdoor unit exist and a system for controlling a plurality of indoor units installed in a building through a central controller connected to the outdoor unit.

In a place such as a school or a building, there are a plurality of separate spaces. Each space is equipped with an air conditioner for air conditioning, and a plurality of air conditioners are installed in the same building. It is powered.

As shown in FIG. 1, the conventional multi-air conditioner system includes a central controller 30 for integrated control of a multi-air conditioner, an outdoor unit 20 connected to the central controller, and a refrigerant supplied from one outdoor unit 20. It consists of a plurality of indoor unit 10 to share.

At this time, the central controller 30 controls the maximum power by operating the operation mode of the indoor unit 10 when controlling the maximum power of the multi air conditioner. That is, the operating capacity of the indoor unit 10 is set to the maximum capacity and the total operating capacity of the outdoor unit 20 is determined, so that the total operating power of the plurality of indoor units 10 for the operation of the multi-air conditioner is set in advance. Control to be limited to less than the maximum power.

However, the conventional multi-air conditioner system is configured to stop the operation of the indoor unit in a specific space when the total amount of power exceeds the maximum amount of power, the user living in the space where the indoor unit 10 is stopped operating winter or summer There is a problem that the inconvenience is increased.

For example, when 10 4.2KW indoor units are operating, a total of 42KW is used. If the maximum power setting is 30KW, the three indoor units are stopped or switched to blowing, so that the maximum power is not exceeded.

In this case, the indoor temperature is raised in the place where the indoor unit is stopped or switched to blowing air, the user is harmed.

In particular, since the air conditioner is a home appliance that consumes a considerable amount of power during normal operation as well as during initial operation, when a plurality of such air conditioners are installed in the building, the maximum power of the air conditioner is within the allowable range of the power circuit breaker installed in the building. There is a danger of exceeding the risk of power cut off. Accordingly, physical impact on the air conditioner and other home appliances in operation can reduce the durability of the product.

The present invention has been made to solve the above problems of the prior art, an object of the present invention is to control the multi-compressor on or off in accordance with the total amount of power when the maximum power control in the outdoor unit having a multi-compressor The present invention provides a maximum power control system and method of a multi-air conditioner that adjusts the cooling capacity so that the entire chamber is evenly cooled and heated.

Another object of the present invention is to provide a maximum power control system and method for a multi air conditioner that can prevent power cut off of other home appliances used in a building due to the multi air conditioner.

Technical means according to the present invention for achieving the above object is an outdoor unit having a plurality of compressors; A plurality of indoor units connected to the outdoor unit; And a central controller configured to set a maximum power amount and a reference power amount, calculate a total power consumption, compare the calculated total power amount with a preset reference power amount, and control the plurality of compressors on or off by a preset algorithm, respectively. do.

In order to achieve the above object, the technical method according to the present invention calculates the total power amount of the multi air conditioner when the multi air conditioner is operated, compares the total power amount with a reference power amount, and is provided to the outdoor unit with a preset algorithm. Performing on or off control of each of the plurality of compressors.

According to the present invention, by controlling some compressors according to the total amount of electric power, cooling of a plurality of spaces in which indoor units are installed can be maintained evenly, and energy can be managed efficiently.

In addition, when the total amount of power exceeds the maximum amount of power, the central controller controls the multi-compressor of the outdoor unit to control the total amount of use not to exceed the maximum amount of power, thereby preventing the power of other devices used in multiple spaces from being cut off. There is an effect that can prevent the failure of the equipment in advance.

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

2 is a block diagram of a maximum power control system of a multi-air conditioner according to an exemplary embodiment of the present invention, and includes an indoor unit 10, an outdoor unit 20, and a central controller 30.

The indoor unit 10 is an indoor heat exchanger in which heat exchange is performed after indoor air is sucked in, and indoor air is sucked in from the outside of the indoor unit 10 to pass through the indoor heat exchanger, and then discharged to the outside of the indoor unit 10 again. An indoor fan, an indoor fan motor for rotating the indoor fan, and an indoor unit micom for controlling the devices of the indoor unit 10 and communicating with the microcomputer of the outdoor unit 20.

In addition, an indoor electric valve for expanding the refrigerant is installed in the pipe connected to the indoor heat exchanger of the indoor unit 10 to expand the refrigerant during the cooling operation, and the indoor unit (the indoor flow valve) flows through the refrigerant discharged from the indoor heat exchanger during the cooling operation. 10) Refrigerant control to adjust the flow of the refrigerant flowing through the indoor heat exchanger automatically or by a control command of the microcomputer of the indoor unit 10 when a failure occurs in the communication between the indoor unit 10 and the outdoor unit 20 The valve is installed. In addition, an indoor temperature sensor that detects the indoor temperature is electrically connected to the indoor unit microcomputer.

In addition, since the indoor unit 10 supplies the amount of refrigerant lower than the present time in the multiple compressors of the outdoor unit whenever the total amount of power increases during the control of the maximum amount of power, the cooling / heating operation mode lower than the cooling / heating operation efficiency in the current setting mode. By operating in the air conditioner, all spaces can be evenly cooled and heated.

The outdoor unit 20 includes a multi-compressor for compressing a refrigerant, a four-way valve for controlling a flow direction of the refrigerant discharged from each of the compressors 21 to 24, and an outdoor unit for receiving heat from the multi-compressor and exchanging heat with external air. It includes a heat exchanger, an outdoor fan forcibly blown by the outdoor heat exchanger, and an outdoor fan motor for rotating the outdoor fan.

In addition, the outdoor unit 20 is closed during the cooling operation and the outdoor electric valve to expand the refrigerant by adjusting the opening degree during the heating operation, and the check valve installed in parallel to the outdoor electric valve to bypass the refrigerant only during the cooling operation, and the refrigerant Accumulator for delivering the gas to the compressor in a gas state, and an outdoor unit microcomputer for controlling the devices of the outdoor unit 20 and communicating with the microcomputer of the plurality of indoor units 10.

In addition, the outdoor unit 20 controls only some compressors of the multi-compressor according to a control command of the central controller 30 and adjusts the amount of refrigerant according to the capacity of the turned-on compressor to supply the plurality of indoor units 10. In addition, it is preferable that some of the multi-compressors provided in the outdoor unit 20 use a variable displacement type compressor and the remaining fixed capacity compressors.

The central controller 30 inputs a command for controlling the plurality of indoor units 10 and the outdoor unit 20 to which the plurality of indoor units 10 are connected, and the maximum power amount and the reference power amount are set. Similarly, a multi-level level is set that is smaller than the maximum amount of power but divides the available reference power by a certain range, and a multi-compressor on / off command is set in association with the level to control some of the multiple compressors off and others on. have.

In addition, the central controller 30 calculates the total power amount of the air conditioner when the air conditioner is operated, determines which level the calculated total power amount is included in, controls off some compressors according to the determined level, and turns on the remaining compressors. Control and limit all compressors to be turned off if the total power of the air conditioner is equal to the maximum power. At this time, the multi compressor on / off control command signal is transmitted to the outdoor unit 20.

In addition, the central controller 30 further includes a total power amount calculating unit for transmitting a use state of the total power amount, and a communication unit for an interface between the indoor unit 10 and the microcomputer of the outdoor unit 20.

4 is a flowchart illustrating a method of controlling a maximum power of a multi-air conditioner according to an exemplary embodiment of the present invention with reference to FIGS. 2 and 3.

First, the central controller 30 has a maximum amount of power and a reference amount of power set in advance (S1), multi-level levels are preset in advance (S2) for each divided reference power amount after dividing the available amount of reference power into a predetermined range, and the level For example, each compressor on / off command of some of the multi-compressor and the rest of the on-control is preset (S3) and stored in the central controller 30.

Next, the central controller 30 calculates the total amount of power of the multi-air conditioner (S4), and determines whether the calculated total amount of power is equal to or greater than the set maximum amount of power (S5).

In this case, when the calculated total power amount is more than the maximum power amount (100KW), all the compressors are turned off (S7) so that the total power amount of the multi air conditioner does not exceed the maximum power amount.

If the total power amount of the air conditioner is less than or equal to the maximum power amount, it is determined whether the calculated total power amount is included in the reference power amount set at which level among the levels of the multi-stage (S7).

Next, when it is determined in step S7 that the calculated total amount of power is a level, a part of the compressor set in association with the determined level is turned off and the remaining compressors are turned on (S8), and the plurality of indoor units of refrigerant compressed through the turned-on compressor are turned on. Supply (S9).

That is, referring to FIG. 3, if the calculated total power amount is included in the range of the set power amount (level 10 to 50 KW) of level 1 or if the calculated total power amount is not included in level 1, the total power amount It is discriminated whether it is included in the range of the set power amount of the level 2 (power amount 50 to 70 KW) or the total power amount is included in the range of the set power amount of the level 3 (power amount 70 to 99 KW) (S6).

Next, when the determined level is Level 1, the compressor 4 (24) is turned off, and the compressor 1 (21), the compressor 2 (22), and the compressor 3 (23) are turned on (S8) to lower the total capacity of the multi-compressor. The refrigerant is compressed through the compressors 21, 22, and 23.

If the determined level is level 2, compressor 3 (23) and compressor 4 (24) are turned off and compressor 1 (21) and compressor 2 (22) are turned on (S8) to lower the total capacity of the multi-compressor. The refrigerant is compressed through the compressors 21 and 22.

If the determined level is level 3, compressor 2 (22), compressor 3 (23) and compressor 4 (24) are turned off and compressor 1 (21) is turned on (S8) to lower the total capacity of the multi-compressor. The refrigerant is compressed through the compressor 1 (21).

Next, the on-controlled compressor compresses the refrigerant and supplies the refrigerant to the indoor units 10 installed in the plurality of spaces, respectively.

At this time, the plurality of indoor units 10 supply the refrigerant expanded through the indoor electric valve to the indoor heat exchanger during the cooling operation, and the refrigerant supplied to the indoor heat exchanger is converted into gas and then evaporated to supply cold air to the indoor space.

As such, by turning off the compressor according to the total amount of power, the total amount of power does not exceed the maximum amount of power and at the same time decreases the cooling / heating efficiency of the indoor unit of all the spaces without stopping the operation of the indoor unit of a specific space. All rooms can be evenly cooled and heated.

In addition, by reducing the capacity of the outdoor multi-compressor to reduce the total amount of power, it is possible to prevent the problem of power off of other electronic devices.

The present invention is not limited to the above-described embodiments, and various changes can be made by those skilled in the art without departing from the gist of the present invention as claimed in the following claims.

As described in detail above, the present invention controls the on-off of the multi-compressor according to the total power amount, and if the total power amount exceeds the maximum power amount, the central controller controls all the multi-compressors of the outdoor unit to control the maximum amount of power. As a result, the cooling of the plurality of spaces in which the indoor unit is installed can be maintained evenly, and the energy can be managed efficiently.

In addition, by controlling the total amount of power of the multi-air conditioner so as not to exceed the maximum amount of power can be prevented that the power of other devices used in a plurality of spaces is cut off, it is possible to prevent the failure of other devices in advance.

Claims (6)

An outdoor unit having a plurality of compressors; A plurality of indoor units connected to the outdoor unit; And The maximum amount of power and the plurality of reference powers are set, but a multi-level level is set according to the plurality of reference powers, and a compressor is set to be controlled off according to the level, and the total amount of power consumed is calculated by a preset algorithm. After comparing the calculated total amount of power and the reference power amount to determine the corresponding level of the total amount of power, according to the determined level, the central controller for controlling off some compressors and on the other compressor; multi air conditioner comprising a Power control system. According to claim 1, wherein the algorithm of the central controller The maximum power control system of the multi-air conditioner, characterized in that if the maximum amount of power and the total amount of power calculated is the same, all the compressor is controlled off. Multi-level level corresponding to the reference power amount, and the compressor to be turned on or off according to each level in advance to the central controller, Calculate the total power of the multi air conditioners when the multi air conditioners are running, And controlling the plurality of compressors provided in the outdoor unit on or off, respectively, by comparing the total amount of power with a reference amount of power and preset algorithms. delete The method of claim 3, wherein the controlling of the plurality of compressors on or off after comparing the total amount of power with a reference amount of power comprises: Comparing the total amount of power with a reference amount of power to determine a level including a total amount of power; The control method of the maximum power of the multi-air conditioner, characterized in that for controlling the off part of the compressor in accordance with the determined level and the other compressor on. The method of claim 3, wherein the calculating of the total power of the multi-air conditioner comprises: And controlling all the compressors to be off when the calculated total power amount and the preset maximum power amount are the same.

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