KR20130139006A - Energy management system for energy reduction of hvac system - Google Patents

Abstract

The present invention relates to an energy management system, more specifically, an energy managing system for reducing energy consumption of an air conditioning system. The amount of the energy consumption is checked in monthly, weekly, and day, and the amount of the energy consumption considering only energy usage hour is calculated based on the same and is grasped without additional hardware. A desired temperature desired in a distribution center or a production field is randomly set. The temperature difference between the inside and the outside is measured and is not exceeded in a range of the temperature difference set based on the same so that the energy consumption is reduced. The energy management system for reducing the energy consumption of the air conditioning system can perform automatized network based on PLC language for efficiently managing the energy. [Reference numerals] (100) Energy consumption time measuring unit;(150) Consumption amount calculating unit;(200) Temperature difference setting unit;(250) Temperature difference calculating unit;(300) Control unit;(400) PLC management unit;(500) Mode setting unit;(520) Priority allocating unit;(540) Timing regression unit;(600) Statistics processing unit;(700) Air conditioning system;(AA) Automatized mode;(BB) Manual mode

Description

Energy management system for energy reduction of air conditioning system {ENERGY MANAGEMENT SYSTEM FOR ENERGY REDUCTION OF HVAC SYSTEM}

The present invention relates to an energy management system, and more specifically, to investigate the energy consumption on a monthly, weekly, and weekly basis, and based on this, it is possible to determine the consumption without additional hardware by calculating the consumption considering only the use time of energy. In addition, it is possible to reduce the energy consumption by arbitrarily setting the appropriate temperature required in the distribution center or production site, and by measuring the temperature difference between the inside and the outside so as not to exceed the temperature difference range set based on the temperature difference. The present invention relates to an energy management system for reducing energy of an air conditioning system, which enables an automation network based on a PLC language for efficient energy management.

Recently, as the resources of coal and oil are depleted, the need for energy saving is emphasized. In particular, as the energy consumed to maintain the storage environment or the working environment of each space in a large space such as a distribution center or a production site increases, the need for energy management is increasing.

Conventionally, facilities for energy management are installed at the stage of building a facility such as a building, but the level of energy consumption by newly added devices is not properly managed at the stage of using the facility, so that energy consumption can be continuously managed. There was a difficult problem.

Accordingly, in recent years, the configuration information, performance information, operator information, failure information and various detailed information of the equipment that needs to be controlled are continuously stored to check the abnormality of the equipment and provide a message to the operator according to the abnormality of the equipment. The concept of Facility Management System (FMS) has been proposed.

In addition, as a related concept, a building automation system or a building automation control system (BAS) has been proposed. In recent years, as buildings have become very tall and large, the power, air conditioning, and control facilities have become complicated and systemized, and computers are automatically controlled to operate, control, and manage building facilities such as power, air conditioning, and control facilities. It is applied by means. As the computer is applied as an automatic control means, various attempts to control and control the air conditioning facilities for energy management, such as the introduction of a building automation system suitable for building use in small buildings, have recently been proposed.

However, these conventional facility management systems or building automation systems have generally focused on monitoring the normal operation of the facilities in the building and automating them for proper operation. The management of energy consumed in each facility or building as a whole is common. There was a problem that was reduced to ancillary.

In other words, the management of energy consumed in a building, that is, the automatic control to check in real time how much energy is consumed by which equipment at what time, or to reduce energy consumption by coping with the increase of energy consumption, There was a lack.

Accordingly, recently, as disclosed in Korean Patent Laid-Open Publication No. 10-2011-0122414, a system and method for enabling energy efficiency management for a facility (for example, a building) have been proposed. In Korean Patent Laid-Open Publication No. 10-2011-0122414, (a) acquiring facility management system (FMS) information, and calculating a guideline value of energy use for the equipment that is subject to the facility management system information. Acquiring the proposed energy baseline, and using the facility management system, acquiring performance data which is actual energy use data for equipment targeted for the facility management system; (b) mapping, by the energy baseline mapping module, the historical data in correspondence with an energy baseline; And (c) automatically detecting an inefficiency in energy use by comparing the mapped performance data with an energy baseline by the energy efficiency automatic tracking module.

However, such a conventional energy efficiency management method is to obtain a guideline value of the energy use for each equipment, and to compare the actual energy data used with these guidelines to detect the efficiency of energy use for each equipment as In the long term, the benefits of managing the energy use of each equipment can be obtained, but it is difficult to directly obtain a substantial energy reduction effect.

The problem to be solved by the present invention is to investigate the energy consumption on a monthly, weekly, and day-by-week basis, and to calculate the consumption considering only the use time of energy on the basis of this, it is possible to determine the consumption without additional hardware, It is possible to reduce the energy consumption by arbitrarily setting the appropriate temperature required in the distribution center or production site, and by measuring the temperature difference between the inside and the outside so as not to exceed the set temperature difference range. It is to provide an energy management system for energy reduction of the air conditioning system that enables the automation network based on the PLC language for efficient energy management.

Energy management system for reducing the energy of the air conditioning system for solving the above problems, Energy usage time measuring unit for measuring the energy usage time of the various facilities are substantially operating in the distribution center or production site; A consumption calculator for calculating an energy consumption amount used in various facilities in consideration of the energy usage time measured by the energy usage time measurement unit; A temperature difference setting unit for setting and storing a temperature difference between the inside and outside of the building in an appropriate range that is recognized as acceptable in a distribution center or a production site; A temperature difference calculator which measures an external temperature and an internal temperature and calculates a difference; A controller for recognizing a degree of energy consumption for each facility based on the amount of energy consumed by the consumption calculator and generating a driving control signal of a heating and cooling device based on the temperature difference determined by the temperature difference calculator; And a PLC management unit for controlling and controlling various equipments based on the PC and controlling and controlling them in a PLC language operable in a hard PLC.

In this case, when it is determined that the temperature difference calculated by the temperature difference calculation unit is out of the range set by the temperature difference setting unit, the controller drives the air conditioner, and the calculated temperature difference is the range set by the temperature difference setting unit. If it is determined to be within, characterized in that it is configured to generate a control command to stop the operation of the heating and cooling unit.

In addition, the present invention is based on the value calculated by the consumption calculation unit or the temperature difference calculation unit, the automatic mode (Auto Mode) to perform the operation of the equipment for the self-determination and energy saving even if there is no operation signal of the manager, the temperature input by the manager The apparatus may further include a mode setting unit configured to set an operation mode between manual modes in which driving for energy reduction is performed by a setting value of a difference range.

In this case, when the mode setting unit is driven in an auto mode, the mode setting unit is programmed differently according to the monthly, weekly, and day of the week by programming a comparison function between the internal temperature and the external temperature, which is the temperature difference set by the temperature difference setting unit. It is characterized in that it further comprises a priority assignment unit for giving a force to determine whether the operation of the facility having a priority to the temperature difference.

The mode setting unit may further include a timing return unit which counts the driving time in the manual mode and automatically switches to the automatic mode after a predetermined time when the driving mode is driven in the manual mode. It features.

The present invention may further include a statistical processor configured to graphically store and display a statistical value of the energy consumption time calculated by the energy usage time measurement unit and the energy consumption calculation unit, and the statistical processing unit may include: Energy consumption calculated on the basis of time spent energy is composed of one task using mathematical function block, and the set of tasks is named as one configuration and statistics of usage are generated. It is characterized in that configured to.

In addition, the present invention is characterized in that it is configured to enable the management of Asset Management System (AMS) by building a real-time system that enables the rapid data acquisition of process variables when an event occurs in the air conditioning system.

The present invention has the effect of enabling efficient energy management even in distribution centers, which were vulnerable to energy efficiency management, by enabling automatic control and manual control based on the energy consumption surveyed on a seasonal, climate, monthly, weekly and weekly basis. In addition, the present invention is implemented based on the PLC language has an effect that can easily cope with the addition of equipment.

In addition, the present invention arbitrarily set an appropriate temperature required in the distribution center or production site, and measure the temperature difference between the inside and outside to reduce the energy consumption by not exceeding the temperature difference range is set based on this It can be effected.

1 is a block diagram of an energy management system for reducing energy of an air conditioning system according to the present invention.
2 is a structural diagram of an energy management system for reducing energy of the air conditioning system according to the present invention.
3 is a block diagram showing a protocol structure of a smart device capable of communicating with the energy management system according to the present invention.
Figure 4 is an exemplary view showing a login login screen of the energy management system according to the present invention.
5 is an exemplary view showing a user interface in an automatic mode according to the present invention.
6 is an exemplary view showing a user interface in a manual mode according to the present invention.
Figure 7 is a statistical example of the power consumption time expressed after being visualized through the statistical processing unit according to the present invention.

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

1 is a block diagram of an energy management system for reducing energy of an air conditioning system according to the present invention, and FIG. 2 is a structural diagram of an energy management system for reducing energy of an air conditioning system according to the present invention.

1 and 2, the energy management system for reducing the energy of the air conditioning system according to the present invention, the energy use time measuring unit for measuring the energy use time of the actual operation of the various facilities in the distribution center or production site ( 100), the consumption calculation unit 150 for calculating the energy consumption used in various facilities in consideration of only the energy usage time measured by the energy usage time measuring unit, the temperature difference between the inside and outside the building in the distribution center or production site The temperature difference setting unit 200 for setting and storing the temperature within an appropriate range that is recognized as acceptable, the temperature difference calculating unit 250 for measuring the difference between the external temperature and the internal temperature, and calculating the difference. Recognize the energy consumption level of each facility based on the identified energy consumption and cool by the temperature difference found by the temperature difference calculator. Control unit 300 for generating a drive control signal of the room apparatus, and a PLC management unit for controlling the various devices on the basis of the PC (PC) and programming with a PLC to control in a PLC language that can be operated in a hard PLC ( 400).

The energy use time measuring unit 100 is configured to measure and store the use time of energy consumed by the facilities 700 installed in a distribution center or a production site on a monthly, weekly, and weekly basis. That is, the present invention is built on the basis of time-based energy consumption measurement and management as an approach for energy reduction, and thus is configured to measure the usage time of energy consuming energy while the facilities are substantially driven.

The consumption calculator 150 calculates the energy usage time of each facility measured by the energy usage time measurement unit based on the energy consumption per unit time stored after the calculation in the past, taking into account only the energy usage time of each facility 700. It is configured to calculate the energy consumption. As a result, it is possible to determine energy consumption after measuring only energy use time without adding additional hardware to the energy management system.

In addition, HVAC used in distribution centers means Heating, Ventilation, Air Conditioning. Actual energy consumption of general air conditioning system is mainly cooling in summer and heating in winter. Will account for the largest share.

Therefore, the temperature difference setting unit 200 and the temperature difference calculation unit 250 by the administrator arbitrarily set the appropriate temperature in the room to reduce the unconditional energy consumption in the distribution center, etc., the internal temperature and the outside of the room set in this way It is configured to substantially reduce energy by limiting the difference in actual external temperature due to the environment within a certain range.

Accordingly, the temperature difference setting unit 200 is selected as the most suitable by the existing statistical data within the range recognized as acceptable in the distribution center or production site, or by the administrator arbitrarily set the internal and external temperature difference Configured to store. At this time, the range of the temperature difference set by the temperature difference setting unit 200 may be set to an appropriate range according to the season.

The temperature difference calculator 250 receives a temperature measured from a thermometer installed inside and outside a building of a distribution center or a production site, and then calculates a difference so that the temperature difference between the inside and the outside is set by the temperature difference setting unit 200. It is configured to determine whether or not within the set range.

In this case, when it is determined that the temperature difference calculated by the temperature difference calculator 250 is out of the range set by the temperature difference setting unit, the controller 300 drives the equipment 700 such as a heating and cooling device, and calculates the temperature difference. When it is determined that the temperature difference is within the range set by the temperature difference setting unit, it is possible to stop the operation of the facility 700 such as heating and cooling. As a result, it is possible to prevent the equipment such as an air conditioner or the like from being excessively driven to consume more energy than necessary.

The control unit 300 recognizes the energy consumption of each facility by the energy consumption calculated based on the energy usage time in the consumption calculation unit 150, and stores the energy consumption by dividing it into monthly, weekly, and weekly units. In addition to acquiring an energy consumption per unit time that may serve as a calculation basis in the temperature difference calculator 250, the value calculated by the temperature difference calculator 250 may be equal to a value set by the temperature difference setter 200. By comparison, it is configured to generate a control command of the various facilities 700, including the generation of the drive signal of the air conditioning unit.

The PLC management unit 400 is a PLC-based control command of the various facilities (700) so that the operation of the various facilities (700) installed in the distribution center or production site to apply the energy management system based on the PC (PC) It is configured to be programmed to input, and to convert the drive signal or control command of the various equipment generated by the control unit suitable for each equipment and configured to transmit to each equipment 700.

Accordingly, the integrated control of the facilities 700 installed in the distribution center or the production site is enabled, and an efficient open structure can be easily implemented in which the addition and removal of the facilities 700 added or removed can be easily performed in the program. It becomes possible.

In addition, the energy management system for reducing the energy of the air conditioning system according to the present invention, by the value calculated by the consumption calculation unit or the temperature difference calculation unit to determine itself without the operation signal of the manager and to perform the driving of the equipment for energy reduction Further comprising a mode setting unit 500 for setting the operation mode between the automatic mode (Manual Mode) to perform the drive for energy reduction by the set value of the temperature difference range input by the administrator; It is preferred to be configured. 5 shows an exemplary view showing a user interface in the automatic mode according to the present invention, Figure 6 shows an exemplary view showing a user interface in the manual mode according to the present invention.

In this case, when driven in the auto mode, the temperature difference set in the temperature difference setting unit, that is, the internal temperature measured inside the distribution center or the like and the outside of the distribution center to increase the energy saving efficiency. Priority assigning unit 520 that programs the comparison function for the external temperature actually measured in the program to give priority to the temperature difference arbitrarily set for monthly, weekly, and day of the week and to determine whether the facility is driven. It is preferable that it is configured to include more.

In addition, when operated in the manual mode (Manual Mode), the administrator can set up the equipment installed in the distribution center to maintain the temperature difference specified by the administrator arbitrarily set, and also to prevent excessive energy consumption during operation It is preferable to further include a timing regression unit 540 for counting the time driven in the automatic switching to the automatic mode (Auto Mode) again after a predetermined time.

In addition, the energy management system for reducing the energy of the air conditioning system according to the present invention, the use time measured in the energy use time measuring unit so as to visually easily check the energy consumption consumed in the distribution center or production site for a long time or short term And a statistical processor 600 for visualizing and storing the statistical values of the energy consumption calculated by the consumption calculator and displaying them on a personal computer of an administrator.

Accordingly, as shown in FIGS. 1 and 2, the statistical processing unit 600 forms an integrated management level for various facilities or distribution center buildings, and is independently installed at each facility or distribution center buildings. The control level or IPC which controls the operation of the facility and the energy consumption form the control level, and the control commands such as Fan, Switch, Detecting Sensor, or such facilities are issued. PLCs and gateways for delivery form the field level.

To this end, the statistical processing unit 600 configures the energy consumption calculated based on the time when the energy is consumed using the power as one task using a mathematical function block, and sets the set of such tasks into one array ( After configuration, create usage statistics.

As shown in FIG. 7, the statistics generated as described above are stored to be graphically displayed on a monthly, weekly, and daily basis for the manager, and visually facilitate peak times or time zones with high energy consumption during the day. Make it clear.

In addition, the energy management system for reducing energy of the air conditioning system according to the present invention is configured to transmit the power consumption to the control unit and the statistical processing unit in real time after measuring the time consumed by the energy use time measuring unit, the administrator Energy usage can be easily checked without moving.

In addition, the control unit and the statistical processing unit is preferably configured to implement a graphic-based interface in order to give a degree of freedom that can be linked to other facilities of the production site. As a result, the manager can check the time that energy is used and the amount of energy consumed in each time in real time.

In addition, the control unit and the statistical processing unit is preferably configured to set a security password to prevent access of other operators other than the administrator, which is a specific operator. For such security management, it is preferable to press the password (combination of alphanumeric + numeric + special symbols) that the administrator arbitrarily set and stored in the initial screen as shown in FIG. 4, and to make access only after pressing the login button. .

In addition, the energy management system for reducing the energy of the air conditioning system according to the present invention, by implementing a real-time system that enables the rapid data acquisition of process variables when an event occurs in the air conditioning system to implement the AMS (Asset Management System) management It is desirable to.

In addition, the energy management system for reducing the energy of the air conditioning system according to the present invention, as shown in Figure 3 smart by utilizing the automation network technology based on Industrial Ethernet (Industrial Ethernet) that will be utilized in the domestic industry in the future It is desirable to implement distributed control to optimize the availability of field devices and increase efficiency.

The energy management system configured as described above can be implemented based on the HRT (Hard Realtime) Class 4 of the Industrial Automation Open Networking Alliance (IAONA), which guarantees the speed of data exchange.

While the present invention has been described in connection with what is presently considered to be the most practical and preferred embodiment, it is to be understood that the invention is not limited to the disclosed embodiments. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

100-Energy Usage Timer 150-Consumption Calculator
200-Temperature difference setting part 250-Temperature difference calculating part
300-control unit 400-PLC management unit
500-mode setting unit 520-priority assignment unit
540-Timing Regression 600-Statistics Processing Unit
700-Equipment

Claims (7)

An energy use time measuring unit for measuring an energy use time during which various facilities are substantially operated in a distribution center or a production site;
A consumption calculator for calculating an energy consumption amount used in various facilities in consideration of the energy usage time measured by the energy usage time measurement unit;
A temperature difference setting unit for setting and storing a temperature difference between the inside and outside of the building in an appropriate range that is recognized as acceptable in a distribution center or a production site;
A temperature difference calculator which measures an external temperature and an internal temperature and calculates a difference;
A controller for recognizing the energy consumption of each facility based on the energy consumption determined by the consumption calculator and generating a driving control signal of a heating and cooling device based on the temperature difference determined by the temperature difference calculator; And
For controlling the energy of the air conditioning system, the controller is configured to control and control various equipments based on PC, and to control the PLC language that can be operated by a hard PLC. Energy management system. The method of claim 1,
The controller, when it is determined that the temperature difference calculated by the temperature difference calculator is out of the range set by the temperature difference setting unit, drives the air conditioner and the calculated temperature difference is within the range set by the temperature difference setting unit. If it is determined that the energy management system for reducing the energy of the air conditioning system, characterized in that it is configured to generate a control command to stop the operation of the heating and cooling. 3. The method of claim 2,
The auto mode, which judges itself by the value calculated by the consumption calculator or the temperature difference calculator and performs the operation of equipment for energy reduction, and the set value of the temperature difference range input by the manager. Energy management system for energy reduction of the air conditioning system, characterized in that further comprises a mode setting unit for setting the operation mode between the manual mode (Manual Mode) to perform the drive for energy reduction by. The method of claim 3,
When the mode setting unit is driven in an auto mode, the temperature difference set differently according to the monthly, weekly, and day of the week by programming a comparison function between the internal temperature and the external temperature, which is the temperature difference set in the temperature difference setting unit. Energy management system for reducing the energy of the air conditioning system, characterized in that it further comprises a priority assignment unit for giving a priority to give a priority to determine whether the operation of the facility. The method of claim 3,
When the mode setting unit is driven in the manual mode (Manual Mode), it characterized in that it further comprises a timing return unit for counting the time driven in the manual mode to automatically switch to the automatic mode (Auto Mode) after a certain period of time. Energy management system for energy reduction of the air conditioning system. The method according to any one of claims 1 to 5,
The apparatus further includes a statistical processor configured to graphically store and display a statistical value of the energy consumption time calculated by the energy usage time measuring unit and the energy consumption calculation unit. The energy consumption calculated based on the time spent is configured as a task using a mathematical function block, and the set of such tasks is named as a configuration, and the statistics of usage are generated. Energy management system for energy reduction of air conditioning system. The method according to any one of claims 1 to 5,
Energy management system for energy reduction of the air conditioning system, characterized in that it is configured to enable the AMS (Asset Management System) management by building a real-time system that enables the rapid data acquisition of process variables when an event occurs in the air conditioning system.

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