KR20070045021A - Airconditioner energy diagnostic apparatus and its diagnostic method - Google Patents

Abstract

The present invention relates to an energy consumption diagnosis device and a diagnostic method of an air conditioner, and more particularly, an air conditioner for diagnosing an energy consumption form of an air conditioner in consideration of the power consumption of the air conditioner as well as an ambient condition that changes over time. The present invention relates to an energy consumption diagnosis device and a diagnosis method thereof. An object of the present invention is to accurately diagnose the appropriate energy consumption of the air conditioner. To this end, the air conditioner energy consumption diagnosis apparatus of the present invention includes a power consumption measuring unit for measuring power consumption of the air conditioner; A sensor unit which collects information on peripheral factors of the air conditioner to calculate a heat load of the air conditioner; A heat load calculator for calculating a heat load of a current air conditioner using information from the sensor unit; And a comparison determination unit for diagnosing whether the energy consumption of the air conditioner is appropriate by using the power consumption from the power consumption measuring unit and the calculated heat load of the current air conditioner.

Description

Air conditioner energy consumption diagnostic device and method for diagnosis thereof {Airconditioner Energy diagnostic Apparatus and its diagnostic Method}

1 is a block diagram of an air conditioner energy consumption diagnosis apparatus according to the present invention.

2 is a table showing the standard value of the heat load calculated in consideration of the ambient conditions of the air conditioner and the actual calculated heat load.

3 is a flow chart of the air conditioner energy consumption diagnostic method according to the present invention.

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

10: sensor unit 12: heat load calculation unit

14: air conditioner power consumption measuring unit 16: comparison determination unit

18: storage unit

The present invention relates to an energy consumption diagnosis device and a diagnostic method of an air conditioner, and more particularly, an air conditioner for diagnosing an energy consumption form of an air conditioner in consideration of the power consumption of the air conditioner as well as an ambient condition that changes over time. The present invention relates to an energy consumption diagnosis device and a diagnosis method thereof.

In general, the multi-type air conditioner refers to an air conditioner that is installed to cool and heat various spaces of various sizes, such as a school or a building, which is composed of a large capacity outdoor unit and a plurality of indoor units. The multi-type air conditioner can reduce power consumption compared to installing a plurality of air conditioners consisting of a single outdoor unit and a conventional indoor unit. In addition, integrated control of each indoor unit has the advantage of efficiently cooling and heating the entire air conditioning space.

The outdoor unit of the multi-type air conditioner is equipped with a plurality of compressors and operates by selectively controlling a plurality of compressors provided in the outdoor unit according to the necessary air conditioning capacity according to factors such as the number of indoor units operated and the operation type of the indoor unit. By adjusting the operating capacity of the outdoor unit according to each operating environment it is possible to reduce the use of unnecessary power that can occur in the individual air conditioning operation in each conventional space.

The multi-type air conditioner has the above advantages of efficiently cooling and heating various sizes of space at the same time, but it is difficult to check the individual state of each indoor unit because a plurality of indoor units are individually installed in various places. Therefore, in reality, it is difficult to determine whether energy consumption is appropriate even in a central management system such as an integrated control method such as a failure of each indoor unit or a selection of a driving pattern that does not fit the space where each indoor unit is located.

A conventional air conditioner energy diagnosis system is disclosed in Japanese Patent Laid-Open No. 2004-085087. As disclosed in this publication, it is checked whether the energy consumption of an air conditioner is appropriate. Only the power consumption of each air conditioner is measured, and the energy consumption is compared numerically with the reference data (last week, last month, last year). Determined is appropriate. However, errors in energy consumption diagnosis, such as deciding that the energy consumption is not proper even if the unavoidable increase in power consumption due to various factors such as the weather change at that time, the number of people in each room, the temperature and humidity change, etc. There is a problem that can occur.

The present invention is to solve the above-mentioned problems, an object of the present invention is to diagnose whether the air conditioner energy consumption appropriately considering the ambient conditions of the air conditioner more accurately diagnose the air conditioner energy to inform the user It is to provide a consumption diagnostic apparatus and a diagnostic method thereof.

The air conditioner energy consumption diagnosis apparatus of the present invention for achieving the above object and the power consumption measuring unit for measuring the power consumption of the air conditioner; A sensor unit which collects information on peripheral factors of the air conditioner to calculate a heat load of the air conditioner; A heat load calculator for calculating a heat load of a current air conditioner using information from the sensor unit; And a comparison determination unit for diagnosing whether the energy consumption of the air conditioner is appropriate by using the power consumption from the power consumption measuring unit and the calculated heat load of the current air conditioner.

The heat load calculation unit may include a heat load fixedly generated in the air conditioner in the current heat load of the air conditioner, and calculate the change every time.

In addition, the comparison determination unit may calculate the power consumption per unit heat load from the calculated current heat load and compare it with a reference value to diagnose whether the energy consumption of the air conditioner is appropriate.

The apparatus may further include a display device for displaying various data including the current heat load and a transmission means for notifying the user when the energy consumption of the air conditioner is not appropriate. Display and warn the user through the delivery means if the energy consumption of the air conditioner is not appropriate.

The air conditioner energy consumption diagnostic method of the present invention for achieving the above object comprises collecting information for calculating the heat load of the air conditioner and measuring the power consumption of the air conditioner; Calculating current heat load of the air conditioner using the information and deriving power consumption per unit heat load using the power consumption; The power consumption per unit heat load is compared with a reference value to diagnose proper energy consumption of the air conditioner.

In addition, the information collected to calculate the heat load of the air conditioner is composed of information on the heat load fixedly generated in the air conditioner and information on the heat load that changes dynamically with time do.

In addition, in the diagnosis step of determining whether energy consumption of the air conditioner is appropriate, the heat load of the air conditioner is calculated by counting the predetermined amount of time, and the energy consumption of the air conditioner is diagnosed.

The method may further include a display step of displaying various data including the calculated current heat load and a delivery step of informing the user of the case where the energy consumption of the air conditioner is not appropriate.

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

1 is a block diagram of an air conditioner energy consumption diagnosis apparatus according to the present invention. The air conditioner energy consumption diagnosis apparatus of the present invention measures the power consumption of the sensor unit 10 for collecting the ambient information of the air conditioner and the heat load calculation unit 12 and the air conditioner to calculate the heat load using the same. By using the air conditioner power consumption measurement unit 14 and the calculated heat load and the measured power consumption information, the air is compared with the data of the heat load of the existing air conditioner and the storage unit 18 in which the power consumption is stored. Comparative determination unit 20 for diagnosing the energy consumption of the harmonic, the display device 20 for displaying a variety of information including the calculated heat load and the transmission means 22 for transmitting a variety of information to the user It is configured to include.

The operation of the air conditioner energy consumption diagnosis apparatus of the present invention having the above configuration will be described below. In general, when installing a multi-type air conditioner, the air conditioning capacity, ie, the heat load (kcal), is calculated by investigating various information such as the building area, the direction of the building, and the wall material of the building to perform the air conditioning function. The harmonizer will be installed. This kind of heat load is usually semi-permanent and not time-varying. This kind of information is usually stored in the storage unit 18 provided in the integrated controller such as an outdoor unit.

The heat load of the air conditioner has a heat load due to a dynamic factor that changes with time as opposed to the heat load. The sensor unit 10 of the present invention is composed of several types of sensors for detecting such a change in dynamic factors. The sensor unit 10 includes a human body detecting sensor for checking the number of people in each room, a door opening and closing sensor for checking whether the door is opened or closed, a temperature humidity sensor for detecting temperature and humidity, an illuminance sensor for detecting the intensity of sunlight, and the like. It includes a sensor. Using the information from these sensors, it is possible to calculate the heat load on the air conditioner which changes from time to time. The calculation of the heat load through the information of each sensor can derive an appropriate correspondence through experiments. For example, considering the size of each room, the heat load is increased by 10 for each 1 ℃ rise of the outside temperature, and the corresponding relationship is stored in the storage device and the current heat load is stored using the information that changes every moment. Can be calculated. The heat load calculator 12 calculates the heat load due to the dynamic factors of the air conditioner using the information from the various sensors of the sensor unit 10. In addition, as mentioned above, the semi-permanent heat load stored in the storage unit 18 is added to calculate the current heat load of the air conditioner.

2 is a table showing the standard value of the heat load calculated in consideration of the ambient conditions of the air conditioner and the heat load actually calculated. Standard values are reference values calculated through experiments. The calculation of the heat load of the surrounding environment shown in the table indicates that it is about 1000 kacl. This shows an example and shows different values according to changes in the installation environment. The table below shows the current heat load. As the heat load has increased due to the deterioration of the situation, it is a natural result that the power consumption has increased. Therefore, in the related art, energy consumption may be determined to be inadequate according to an increase in power consumption, but may be determined based on a change in heat load due to dynamic factors, and thus may indicate different diagnosis results.

It is more efficient to calculate the heat load in a unit of time. For example, the heat load due to dynamic factors is calculated every hour, and the ratio between the power consumption of the air conditioner measured by the air conditioner power consumption measurement unit 14 is calculated, and the comparison determination unit 16 consumes per unit heat load. Calculate the power. This is compared with the data of last year, last month, last week, etc. stored in the storage to diagnose whether the energy consumption of the air conditioner is appropriate.

The previously calculated heat load and information on the dynamic factors based on the calculation are displayed to the user through the display device. This is to allow the user to utilize variously using this. That is, it is possible to determine whether the energy consumption of the room is not appropriate, and to utilize it for the control management of the air conditioner, such as checking the indoor unit of the room or adjusting the operation pattern. In addition, when the energy consumption is not appropriate, it can be alerted to the remote user using the delivery means 22, such as e-mail.

3 is a flowchart of a method for diagnosing energy consumption of an air conditioner according to the present invention. In order to diagnose the energy consumption of the air conditioner according to the present invention, information on the surroundings of the air conditioner, that is, data on dynamic factors for calculating the heat load is collected through the sensor unit 10 (step S301). Therefore, when installing a multi-type air conditioner, the required air conditioning capacity is calculated by using information such as the area of a building, and a fixed heat load can be calculated using this. Such information is input to the storage unit 18 and added to the calculation of the current heat load of the air conditioner. (S302) The power consumed by the air conditioner is measured by the air conditioner power consumption measurement unit 14 The current heat load of the air conditioner is based on the information collected in step S301 and the heat load by the dynamic factor calculated by the heat load calculation unit 12 and the storage unit. It is calculated by summing the fixed heat load stored in (18). (Step S304) The calculated heat load is calculated as a ratio with the power consumption measured in step S303 to calculate the power consumption per unit heat load. Step) As mentioned above, it is effective that a series of processes including calculating the heat load are performed at regular time intervals. The power consumption per unit heat load thus calculated is compared with the reference value of the storage unit 18 (last month, last week, etc.) to determine whether the energy consumption is appropriate. (Step S306) When the energy consumption of the air conditioner is appropriate. In the above, the information on the dynamic factors, the calculated heat load, power consumption, and power consumption per unit heat load are displayed to the user through the display device 20 in a graph or table. If the energy consumption of the conditioner is not appropriate, display data such as heat load and the like as in step S308 and use the transfer means 22 to warn the user that energy consumption is not appropriate (step S307). If there is a diagnosis of energy consumption, the room diagnosed as inappropriate energy consumption will check the operating pattern of the indoor unit or check the opening and closing of the window. Alternatively, it may be checked whether the filter is clogged or whether the amount of refrigerant is appropriate.

As described in detail above, the present invention diagnoses the energy consumption of the air conditioner in consideration of the dynamic factors, it is possible to more accurately diagnose whether the energy consumption of the air conditioner. Furthermore, it is possible to manage the multi-type air conditioner more efficiently through the accurately diagnosed energy consumption form.

Claims (8)

A power consumption measuring unit measuring power consumption of the air conditioner; A sensor unit which collects information on peripheral factors of the air conditioner to calculate a heat load of the air conditioner; A heat load calculator for calculating a heat load of a current air conditioner using information from the sensor unit; And a comparison judging unit for diagnosing whether the energy consumption of the air conditioner is appropriate by using the power consumption from the power consumption measuring unit and the calculated heat load of the current air conditioner. The method of claim 1, And the heat load calculation unit includes a heat load fixedly generated by the air conditioner in the current heat load of the air conditioner, and calculates a change of the air conditioner every predetermined time. The method of claim 2, The comparison determination unit calculates power consumption per unit heat load from the calculated current heat load and compares it with a reference value to diagnose whether the energy consumption of the air conditioner is appropriate. The method of claim 1, And displaying the calculated heat load through the display device, further comprising a display device for displaying various data including the current heat load and a transmission means for notifying the user when the energy consumption of the air conditioner is not appropriate. If the energy consumption of the air conditioner is not appropriate, the air conditioner energy consumption diagnostic device characterized in that it warns the user through the transmission means. Collecting information for calculating a heat load of the air conditioner and measuring power consumption of the air conditioner; Calculating a current heat load of an air conditioner using the information and deriving power consumption per unit heat load using the power consumption; An air conditioner energy consumption diagnosis method for diagnosing the proper energy consumption of an air conditioner by comparing the power consumption per unit heat load with a reference value. The method of claim 5, The information collected to calculate the heat load of the air conditioner is composed of information on the heat load fixedly generated in the air conditioner and information on the heat load that changes dynamically with time Energy consumption diagnostic method. The method of claim 5, Diagnosis of energy consumption of the air conditioner in the step of diagnosing the energy consumption of the air conditioner is calculated by counting the heat load of the air conditioner at regular intervals and diagnosing whether the energy consumption of the air conditioner is proper. Way. The method of claim 5, And a display step of displaying various data including the calculated current heat load and a delivery step of informing a user of when the energy consumption of the air conditioner is not appropriate.

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