KR20050074824A - Multi-air conditioner system and its operating method therefor - Google Patents

Abstract

The present invention relates to a multi-air conditioner system for displaying power consumption for each room and a method of operating the same, and a plurality of indoor units installed in each room in a building for air conditioning and an outdoor unit shared with the plurality of indoor units and controlling circulation of refrigerant. A multi-air conditioner, an integrated power meter connected to the outdoor unit to measure the total power consumption consumed when the multi-air conditioner is operated, and the total power consumption measured by the integrated power meter to receive actual power consumption according to operating conditions for each indoor unit. By including a power indicator that calculates and displays the power consumption pattern of the home or office installed indoor unit more accurately, as well as accurate heating and heating rates in each room in the common building can be efficiently managed power management The effect is that it can be done.

Description

Multi-air conditioner system and its operating method therefor}

The present invention relates to a multi-air conditioning system in which an indoor unit is installed in each room and an outdoor unit which is shared with a plurality of indoor units distributes refrigerant to perform indoor air conditioning. In particular, the power indicator communicates with the outdoor unit to consume air conditioning for each room. The present invention relates to a multi-air conditioner system capable of calculating power consumption and easy to manage power, and a method of operating the same.

Recently, as the use of air conditioners has increased significantly, air conditioners have been installed in each room in a home or in an office in a building.

The air conditioner can be classified into a single type air conditioner that is largely suitable for air conditioning in a small room, and a multi-air conditioner system installed in a large building and co-managed. First, the conventional air conditioner includes an indoor unit 10 installed in an indoor room. As the outdoor unit 20 connected to the indoor unit 10 to circulate the refrigerant is installed outdoors, each room can be individually controlled independently.

Since the air conditioner is installed / operated independently in each room in a small building, which does not require common management, the user inputs a control command through the indoor unit 10 installed in each room.

On the other hand, in the multi-air conditioner system, a plurality of indoor units 10 are installed in each room, and a plurality of outdoor units 20 connected to the plurality of indoor units are installed. The outdoor unit 20 monitors the state information of the connected indoor units 10 and controls the distribution and circulation of the refrigerant circulated through the connected multiple indoor units 10.

Such a multi-air conditioner system has an economical advantage in that the cost burden of electric energy consumption is reduced in terms of the management of the entire building rather than a normal air conditioner, but due to the characteristics of an air conditioner that performs air conditioning by circulating a refrigerant, This is considerable compared to the device, and thus the management cost is considerable.

In particular, the air conditioner is expensive due to the large amount of power consumed during operation. In addition, power providers such as KEPCO generally limit the maximum allowable power value allowed for each building by season, time zone, and region. Therefore, the maximum allowable power value is exceeded in the case of a common building with multiple air conditioners. There was a risk of power consumption.

Therefore, in a typical home or building, as shown in FIG. 1, the integrated power meter 30 is connected to a power lead line to measure the amount of power used in a home or building used for a certain period of time. The maximum allowable power value is displayed on the integrated power meter 30, and when the allowable value is exceeded, the electricity bill is progressively taxed to increase the electricity management cost, and the fuse is blown to automatically apply power applied to the home or building. Block it with

The integrated power meter 30 is usually numerically displayed in kWh (kilowatt-hours), and is sealed by an electric company so that it cannot be exchanged by an individual. The integrated power meter 30 typically measures the total power consumption consumed by all of the home appliances installed in the building.

However, the conventional invention was unable to measure the power consumption for each indoor unit 10 disposed in each room of a common building in which a plurality of air conditioners are installed, and thus it was inefficient because accurate power rate distribution was not made.

The present invention has been made to solve the above-mentioned problems of the prior art, the purpose of which is to calculate the power consumption separately separated by the power indicator for each room, by connecting the integrated power meter to the multi-air conditioning system installed in the building, By displaying the power consumption consumed by each indoor unit in real time, it is possible to provide a multi-air conditioner system and a method of operation of which power management is easy.

In order to solve the above problems, the multi-air conditioner system according to the present invention includes a multi-air conditioner including a plurality of indoor units installed in each room of the building for air conditioning and an outdoor unit which is shared with the plurality of indoor units and controls the circulation of the refrigerant; An integrated power meter connected to the outdoor unit to measure the total power consumption consumed when the multi-air conditioner is operated, and the total power consumption measured by the integrated power meter is input to calculate and display actual power consumption according to operating conditions of each indoor unit; Characterized in that it comprises a power indicator.

In addition, the operating method of the multi-air conditioning system includes a first step of receiving the total power consumption according to the operation of the air conditioner every predetermined period, a second step of receiving the state information of the indoor unit during the period, and the state information of the indoor unit A third step of calculating weights based on the indoor units and calculating actual power consumption according to the total power consumption and the weights of the indoor units, and the calculated actual power consumption, monthly cumulative consumption, and accumulated total power according to the button operation. And a fourth step of displaying the usage amount.

Hereinafter, an example in which the multi-air conditioner system of the present invention is installed will be described with reference to FIG. 2, and a configuration diagram of the multi-air conditioner system of the present invention, in which power management is easy, will be described with reference to FIG. 3.

The multi-air conditioner is an air conditioning facility that can connect the plurality of indoor units 100 to one outdoor unit 200 to satisfy the cooling and heating capacity of the building, and the outdoor unit 200 shared with the plurality of indoor units 100 is in response to a control command. Accordingly, by controlling the rotation speed of the compressor in the outdoor unit 200 by accumulating the opening and closing amount of the expansion valve of the indoor unit connected to the appropriate amount of refrigerant to be circulated.

In addition, since the speed of the condenser fan of the outdoor unit can be controlled according to the operating state of the outdoor unit 200, in order to minimize energy consumption, the outdoor unit 200 should detect the operating state of the connected indoor unit 100 in real time. To this end, the outdoor unit 200 is connected to the plurality of indoor units 100 in serial communication to transmit and receive signals. In FIG. 2, a home with one or more rooms is taken as an example, but in the case of a common building, the unit multi-air conditioner system may be expanded.

The indoor unit 100 installed in each room is not limited to its type such as a ceiling type, a wall hanging type, a standing type, and may have different power consumption according to the type or model of the indoor unit 100 to be installed. In addition, the outdoor unit 200 is connected to a plurality of indoor units 100 to control the circulation of the refrigerant according to the control command so that the air conditioning of each chamber is achieved.

In addition, the outdoor unit 200 is connected to the integrated power meter 300 is connected to the main power line to measure the power consumption consumed when operating the air conditioner for a period of time, the integrated power meter is a total power consumption measured through the pulse communication power indicator Output at 400.

The power indicator 400 calculates the power consumption of each indoor unit 100 based on the total power consumption, and displays it externally. The power indicator 400 is also connected to the outdoor unit 200 of the multi-air conditioner through a communication line.

In particular, since the plurality of indoor units 100 vary in the amount of power consumed during operation according to the type, function, model, installation year, frequency of use, and the like, the power indicator 400 adds weights to the indoor units to more accurately indoor units. Allow power usage to be calculated.

The power indicator 400 determines the amount of power to determine the actual power consumption based on the weight of each indoor unit received through the air conditioner communication unit 410 for transmitting and receiving signals with the outdoor unit 200 connected through a communication line and the air conditioner communication unit The unit 420 and a display unit 430 for displaying the actual power consumption determined by the power amount determination unit to the outside.

Here, the power amount determination unit 420 determines the weight of each indoor unit by using factors such as indoor unit operation, indoor unit cooling capability, compressor operation amount, LEV opening amount value, indoor fan rotation step.

The power amount determining unit 420 calculates power consumption for each room by multiplying the total power consumption of the outdoor unit with the weight of each indoor unit to the total weight.

Based on the calculated actual power consumption, the display unit 430 displays the accumulated total power consumption, power consumption for each room, and monthly power consumption.

The operation of the multi-air conditioner system of the present invention will be described with reference to the flowchart of FIG. 4.

First, the power indicator receives the total power consumption according to the operation of the air conditioner every predetermined period from the integrated power meter (S1).

In addition, the state information of each indoor unit is received through the connected outdoor unit. (S2)

After calculating the weight for each indoor unit based on the received state information of the indoor unit, the actual power consumption is calculated based on the total power consumption measured by the totalizing power meter and the weight for each indoor unit. (S3, S4)

At this time, the weight for each indoor unit is calculated based on factors such as indoor unit operation, indoor unit cooling capacity, compressor operation amount, indoor unit fan rotation stage, LEV opening amount value, the actual power consumption is [total power consumption X (per room) Weight / total weight)].

The calculated actual power consumption, monthly cumulative consumption, and accumulated total power consumption are displayed according to a button operation. (S5)

As described above, the multi-air conditioner system and its operation method according to the present invention have been described with reference to the illustrated drawings, but the present invention is not limited by the embodiments and drawings disclosed herein, and the technical spirit of the present invention is protected. The application is possible by those skilled in the art within the scope.

The multi-air conditioner system and its operation method of the present invention configured as described above can grasp the power consumption consumed for air conditioning in each room in real time, so that more efficient power management can be achieved, and more accurate power rates in the common building. The effect is that notification is possible.

1 is a block diagram of a conventional air conditioner system,

2 is an installation diagram of the multi-air conditioner system of the present invention;

3 is a block diagram of a multi-air conditioner system of the present invention;

4 is a flowchart illustrating a method of operating a multi-air conditioner system of the present invention.

<Explanation of symbols on main parts of the drawings>

100: indoor unit 200: outdoor unit

300: integrated power meter 400: power indicator

410: air conditioner communication unit 420: power amount determination unit

430: display unit

Claims (9)

A multi-air conditioner including a plurality of indoor units installed in each room in the building for air conditioning and an outdoor unit shared with the plurality of indoor units to control circulation of the refrigerant; An integrated power meter connected to the outdoor unit to measure a total power consumption consumed when the multi-air conditioner is operated; And a power indicator which receives the total power consumption measured by the integrated power meter and calculates and displays the actual power consumption according to the operating conditions for each indoor unit. The method of claim 1, And the power indicator performs pulse communication with the integrated power meter to read the power consumption measured by the integrated power meter. The method of claim 1, The power indicator includes an air conditioner communication unit for transmitting and receiving a signal to and from the outdoor unit connected through a communication line, and a power amount determination unit for determining the actual power consumption based on the weight of each indoor unit received through the air conditioner communication unit; And a display unit which displays the actual power consumption determined by the power amount determination unit to the outside. The method of claim 3, wherein The power amount determining unit is configured to determine the weight for each indoor unit by using the factors of indoor unit operation, indoor unit cooling capacity, compressor operation amount. The method of claim 4, wherein The power amount determining unit is configured to calculate the actual power consumption by the product of the total power consumption of the outdoor unit and the weight for each indoor unit to the total weight. The method of claim 4, wherein The power amount determining unit calculates the accumulated total power consumption, each room power consumption, monthly power consumption to be displayed on the display unit.  Calculating weights for each indoor unit based on a first step of receiving total power consumption according to the operation of the air conditioner at every predetermined period, a second step of receiving state information of the indoor unit during the period, and the state information of the indoor unit; And a third step of calculating actual power consumption according to the total power consumption and the weight of the indoor unit, and a fourth step of displaying the calculated actual power consumption, monthly cumulative consumption, and accumulated total power consumption according to a button operation. Operation method of a multi-air conditioner system characterized in that. The method of claim 7, wherein The third step is a method of operating a multi-air conditioner system comprising the step of determining the weight for each indoor unit based on factors such as indoor unit operation, indoor unit cooling capacity, compressor operation amount. The method of claim 7, wherein The third step includes the step of calculating the actual power consumption by the product of the total power consumption of the outdoor unit and the weight for each indoor unit with respect to the total weight.