KR20200009712A - Apparatus for acquiring data for simulation of energy consumption for FEMS - Google Patents

Abstract

The present invention relates to an energy consumption simulation data acquisition apparatus for a factory energy management system which can acquire energy consumption simulation data to incorporate the energy consumption simulation data in efficient factory energy management system improvement. According to an embodiment of the present invention, the energy consumption simulation data acquisition apparatus for a factory energy management system comprises: a worker behavior pattern analysis unit to analyze behavior of a worker in a factory by analysis of images photographed by a plurality of cameras installed in the factory; a factory temperature analysis unit to analyze a temperature change in the factory based on temperature data collected from a plurality of temperature sensors installed in the factory; a factory illumination analysis unit to analyze an illumination change in the factory based on illumination sensing data collected from a plurality of illumination sensing means installed in the factory; an energy consumption simulation data generation unit to divide worker behavior patterns analyzed by the worker behavior pattern analysis unit, factory temperature changes analyzed by the factory temperature analysis unit, and factory illumination changes analyzed by the factory illumination analysis unit into prescribed time units, and generate worker behavior pattern data, factory temperature data, and factory illumination data to display each of the worker behavior pattern data, the factory temperature data, and the factory illumination data on a single frame; and an energy consumption simulation data storage unit to store the worker behavior pattern data, the factory temperature data, and the factory illumination data for each sector.

Description

Apparatus for acquiring data for simulation of energy consumption for FEMS}

The present invention relates to an energy consumption simulation data acquisition device for a plant energy management system. The present invention relates to an energy consumption simulation data acquisition device for a factory energy management system that can acquire energy consumption simulation data and reflect the same in an efficient factory energy management system.

The factory consumes a considerable amount of power in a certain scale of factories equipped with various mechanical and electronic facilities, and the power consumption is increasing as most factory facilities become more modern. As a result, not only users who use energy, but also suppliers and management authorities that supply energy are conducting various researches on the Factory Energy Management System (FEMS) for efficient use of energy.

As a part of such research, technologies related to factory energy management systems, such as 10-1749456 and 10-1749457, which have been filed and registered with the Korean Intellectual Property Office, are disclosed.

On the other hand, a factory having a predetermined scale to which a factory energy management system should be applied is consumed for driving electric power consumed for the safety and security of a factory facility, and direct operation equipment installed in the factory, although each factory situation is different. There is no difference in the purpose and characteristics of power consumption such as the power consumed for the management of the space in which the movable equipment is installed, such as the electric power, lighting or heating and cooling, and the movable equipment, but the power consumed for the convenience of the worker or the work manager inside the plant. Will be.

In addition, a factory may be divided into sectors in which a worker or a work manager is to be arranged, a sector in which a worker or a work manager is not to be arranged, a sector in which a worker or a work manager is not required but a person enters or exits. . In addition to the factory facilities, there are also areas where power consumption is required in relation to air conditioning, lighting, and the like for workers' working environments.

Therefore, in addition to the parts that must be supplied with power at all times, which is essential for the operation of the plant, there are considerable areas where energy can be reduced through the attention of the operator or the work manager.

Accordingly, there is a growing interest in the development of simulations needed to improve the plant energy management system.

Korea Patent Office Registered Patent Publication No. 10-1749456 Korea Patent Office Registered Patent Publication No. 10-1812777 Korea Patent Office Registered Patent Publication No. 10-1749457

The purpose of the present invention is to analyze energy flow patterns and behavior patterns of workers or task managers in the factory, and to obtain energy consumption simulation data based on temperature and illuminance changes in the factory and reflect them in improving the efficient plant energy management system. It is an object of the present invention to provide an energy consumption simulation data acquisition device for a factory energy management system.

The present invention can be configured as follows to achieve the object of the invention as described above.

Energy consumption simulation data acquisition device for a plant energy management system according to an embodiment of the present invention comprises a worker behavior pattern analysis unit for analyzing the behavior of the workers in the factory through the analysis of images taken from a plurality of cameras installed in the factory; A factory temperature analyzer configured to analyze a temperature change inside the factory based on temperature data collected from a plurality of temperature sensors installed inside the factory; A factory illuminance analysis unit analyzing an internal illuminance change on the basis of illuminance detection data collected from a plurality of illuminance detecting means installed in the factory; The worker behavior pattern analyzed by the worker behavior pattern analysis unit, the factory temperature change analyzed by the factory temperature analysis unit, and the factory illuminance change analyzed by the factory illuminance analysis unit can be divided into a predetermined time unit and displayed on one frame. An energy consumption simulation data generator for generating worker behavior pattern data, factory temperature data, and factory illuminance data; And an energy consumption simulation data storage configured to store worker behavior pattern data, factory temperature data, and factory illuminance data for each sector. Configuration can be made, including.

In the energy consumption simulation data acquisition device for a factory energy management system according to an embodiment of the present invention, the worker behavior pattern analysis unit has a worker position distribution in which at least one worker is located in the factory at a predetermined time interval, and for at least one worker. The analysis of worker movement in the factory can be set to analyze the worker's behavior patterns.

In the energy consumption simulation data acquisition device for a factory energy management system according to an embodiment of the present invention, the factory temperature analyzer may be set to divide the inside of the factory into unit zones and analyze the average temperature for a predetermined time interval.

In the energy consumption simulation data acquisition device for the plant energy management system according to an embodiment of the present invention, the plant illuminance analyzer may be set to divide the inside of the plant into unit zones and analyze the average illuminance for a predetermined time interval.

In the energy consumption simulation data acquisition device for a factory energy management system according to an embodiment of the present invention, the illumination intensity sensing means may be configured to analyze the brightness of the image taken by the camera and compare the illumination within the factory.

According to the energy consumption simulation data acquisition device for the plant energy management system according to the present invention, the energy consumption simulation based on temperature change and illuminance change in the factory, along with analysis of copper wires and behavior patterns of workers or work managers in the factory There is an advantage that data can be obtained and reflected in an efficient plant energy management system improvement.

1 is a view for explaining the configuration of the energy consumption simulation data acquisition apparatus for a factory energy management system according to an embodiment of the present invention.
Figure 2 is a view showing an example of the position distribution frame of the worker in the factory analyzed by the worker behavior pattern analysis unit according to an embodiment of the present invention.
Figure 3 is a view showing an example of the copper frame of the worker in the factory analyzed by the worker behavior pattern analysis unit according to an embodiment of the present invention.
Figure 4 is a view showing an example of the factory temperature distribution frame analyzed in the factory roughness analysis unit according to an embodiment of the present invention.
Figure 5 is a view showing an example of a frame showing the illumination distribution in the factory analyzed in the factory roughness analysis unit according to an embodiment of the present invention.
Figure 6 is a view showing an example of a frame reflecting the worker position distribution in the factory temperature distribution frame analyzed in the factory illuminance analysis unit according to an embodiment of the present invention.
7 is a view showing an example of a frame reflecting the worker's copper distribution in the frame showing the illuminance distribution in the factory analyzed by the plant illuminance analysis unit according to an embodiment of the present invention.

Hereinafter, an energy consumption simulation data acquisition apparatus for a plant energy management system according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a view for explaining the configuration of the energy consumption simulation data acquisition apparatus for a factory energy management system according to an embodiment of the present invention.

An energy consumption simulation data acquisition device 100 (hereinafter, referred to as an energy consumption simulation data acquisition device) for a factory energy management system according to an embodiment of the present invention may have a worker behavior pattern analysis unit 110 as shown in FIG. The factory temperature analyzer 120, the factory illuminance analyzer 130, the energy consumption simulation data generator 140, and the energy consumption simulation data storage 150 may be configured.

In the energy consumption simulation data acquisition apparatus 100 according to an embodiment of the present invention, the worker behavior pattern analysis unit 110 analyzes images photographed by a plurality of cameras installed inside the factory to analyze behavior patterns of people including workers in the factory. Configured to analyze. To this end, a plurality of cameras may be installed in the factory according to the area or shape of the factory.

On the other hand, the images taken by the plurality of cameras may be configured to process the entire inside of the factory on one frame, or to process one frame per unit area for a wider factory area or other reasons. To this end, images captured by a plurality of cameras may be configured to display the entire area inside the factory in one frame or to divide the inside of the factory into unit zones and display them in one frame per unit zone.

The worker behavior pattern analysis unit 110 analyzes the images captured by the plurality of cameras to determine the location of the worker and to determine the location distribution of the worker at a predetermined time interval. The camera used for this purpose may be applied to a CCD camera, an infrared camera, an ultraviolet camera, and the like, and may be applied to other special cameras that can be identified by analyzing a worker's position.

The worker behavior pattern analysis unit 110 analyzes the worker's behavior pattern through distribution of worker positions in which one or more workers are located in the factory at predetermined time intervals and analysis of worker movements in the factory for one or more workers.

The position analysis process of the worker in the factory may be based on the image taken by the camera, and additionally reflect the position detected by the position detection means that can be carried by the individual including a mobile phone that can recognize the position of the worker. In addition, sensors or chips that can be attached to the body of the workers may be used for analyzing the factory worker behavior patterns.

In the energy consumption simulation data acquisition apparatus 100 according to an embodiment of the present invention, the factory temperature analyzer 120 analyzes a temperature change in a factory based on temperature data collected from a plurality of temperature sensors installed in the factory. In particular, it is configured to allow individual temperature measurement by unit of a certain area, reflecting the fact that there may be a difference in temperature measured according to a zone even if a factory has a large area or a facility difference within a factory.

On the other hand, the factory temperature analysis unit 120 may be set to divide the inside of the factory into a unit area having a predetermined area and to analyze the average temperature for a predetermined time unit.

In the energy consumption simulation data acquisition apparatus 100 according to an embodiment of the present invention, the factory illuminance analysis unit 130 is based on illuminance detection data in the factory collected from illuminance detection means such as a plurality of illuminance detection sensors installed in the factory. The illuminance inside the plant is analyzed. In particular, even if a large area of the factory or a single space for the difference in facilities within the factory because there is a large difference in the roughness measured according to the area is configured to enable individual roughness measurement by a certain area unit.

The factory illuminance analysis unit 130 may be set to analyze the average illuminance for a predetermined time interval by dividing the interior of the factory into unit zones. The illuminance detection means may be set to obtain a relative illuminance by comparing and analyzing the brightness of the image photographed by the camera.

The energy consumption simulation data generation unit 140 of the energy consumption simulation data acquisition apparatus 100 according to an embodiment of the present invention obtains the worker behavior pattern data based on the worker behavior pattern analyzed by the worker behavior pattern analyzer 110. In addition, the factory temperature data is acquired based on the factory temperature change analyzed by the factory temperature analyzer 120, and the factory illuminance data is obtained based on the factory illuminance change analyzed by the factory illuminance analyzer 130.

Meanwhile, as described above, the worker behavior pattern data, factory temperature data, and factory illuminance data acquired by the energy consumption simulation data generation unit 140 are stored for each sector in the energy consumption simulation data storage unit 150.

2 is an example of a frame showing a position distribution of a worker in a factory analyzed by a worker behavior pattern analyzer according to an embodiment of the present invention, and FIG. 3 is analyzed by a worker behavior pattern analyzer according to an embodiment of the present invention. This is an example of a frame showing the movement of workers in a factory.

As shown in FIG. 2, the frame 210 displaying the worker's behavior pattern is located within the entire area of the factory or a specific unit area at a predetermined time interval (for example, from 10:00 to 10:10) at a set time interval. The worker distribution in which the worker was located can be visually displayed.

In addition, the frame 220 displaying the worker's behavior pattern as shown in Figure 3 has a set time interval at a predetermined time interval (for example, from 10:00 am to 10: 10 am) the whole area inside the factory or a specific unit area The moving line of a specific worker or a plurality of specific workers can be visually displayed within.

For the basic data for analyzing the worker behavior pattern in the worker behavior pattern analysis unit 110, images captured by the plurality of cameras 110 may be stored as a video in the original state or a video in the compressed state as well. to be.

Figure 4 is an example of a frame showing the temperature distribution in the factory analyzed in the factory roughness analysis unit according to an embodiment of the present invention, Figure 5 is a factory temperature analyzed in the factory roughness analysis unit according to an embodiment of the present invention This is an example of a frame showing a distribution.

As shown in FIG. 4, the plant temperature data generated by the energy consumption simulation data generation unit 140 is integrated into one data based on the results analyzed by the plant temperature analyzer 120. After being displayed, it may be visually displayed on one factory room temperature distribution frame 230. In FIG. 4, the difference in temperature is represented by the intensity of the hatch, but may be displayed in a color corresponding to the temperature distribution and the temperature change.

Further, as shown in FIG. 5, the illuminance data generated by the energy consumption simulation data generation unit 140 based on the results analyzed by the plant illuminance analysis unit 130 is illuminance data for a predetermined period of time as one data. After the integrated process, it may be visually displayed on one factory indoor illuminance distribution frame 240. In FIG. 5 for explaining the present invention, the illuminance distribution and the illuminance difference inside the factory are expressed by the density of dots, but may be displayed more visually in color or contrast.

6 is a confusion of worker patterns, such as the location distribution of workers according to the temperature inside the factory, by fusing worker behavior pattern data and factory temperature data acquired in the energy consumption simulation data acquisition apparatus 100 according to an embodiment of the present invention. It is an example of a frame 310 for grasping the temperature distribution in the factory according to the worker's behavior pattern.

FIG. 7 is a fusion pattern of worker behavior pattern data and factory illuminance data acquired in the energy consumption simulation data acquisition apparatus 100 according to an embodiment of the present invention, such as worker's movement pattern according to the illuminance inside the factory, and vice versa. It is an example of a frame 320 for grasping a change in illuminance inside the factory according to the movement of these.

6 and 7 illustrate an example of one case, respectively, but the worker behavior pattern data, factory temperature data, and factory illuminance data acquired by the energy consumption simulation data acquisition apparatus 100 according to an embodiment of the present invention are further described. Many frame comparisons and more diverse combinations can be incorporated into simulations to build an efficient plant energy management system.

Depending on the purpose of the factory, it is essential for the operation of the factory, the equipment necessary to illuminate the inside of the plant, the equipment used to power the expense or management of the factory facility, used for the convenience of workers in the factory Devices and the like. In particular, inside the factory there is a temperature distribution and temperature change by the operation of the various devices, there are also a lot of differences in the illumination between the internal areas of the factory, such as the distance of the light or the shadow generation.

The energy consumption simulation data acquisition apparatus 100 according to the present invention analyzes patterns in which these differences occur, but analyzes them at a predetermined time interval or an entire zone interval so that they can be useful as simulation data in the process of constructing or changing an efficient factory energy management system. It will collect, analyze and process the data that can be used.

In the above, the energy consumption simulation data acquisition apparatus for the management system according to an exemplary embodiment of the present invention has been described with reference to the accompanying drawings. These embodiments are included in the technical spirit described in the claims of the present invention. In addition, the above-described embodiments are merely illustrative and should not be construed limitedly.

100: energy consumption simulation data acquisition device
110: worker behavior pattern analysis unit
120: factory temperature analysis unit
130: factory illuminance analysis unit
140: energy consumption simulation data generation unit
150: energy consumption simulation data storage unit

Claims (5)

A worker behavior pattern analyzer for analyzing a worker's behavior through analysis of images captured by a plurality of cameras installed in the factory;
A factory temperature analyzer configured to analyze a temperature change inside the factory based on temperature data collected from a plurality of temperature sensors installed inside the factory;
A factory illuminance analysis unit analyzing an internal illuminance change on the basis of illuminance detection data collected from a plurality of illuminance detecting means installed in the factory;
The worker behavior pattern analyzed by the worker behavior pattern analysis unit, the factory temperature change analyzed by the factory temperature analysis unit, and the factory illuminance change analyzed by the factory illuminance analysis unit are each divided into a predetermined unit of time, and on each frame. An energy consumption simulation data generator for generating worker behavior pattern data, factory temperature data, and factory illuminance data to be displayed; And
An energy consumption simulation data storage unit for storing the worker behavior pattern data, the factory temperature data, and the factory illuminance data for each sector; Energy consumption simulation data acquisition device for a factory energy management system, characterized in that comprising a. The method of claim 1,
The worker behavior pattern analysis unit is set to analyze the worker's behavior pattern through the analysis of the worker location distribution in the factory at least one worker is located in the factory and the worker movement in the factory for the one or more workers. Energy consumption simulation data acquisition device for factory energy management system. The method of claim 1,
The plant temperature analysis unit is configured to divide the inside of the plant into a unit zone to analyze the average temperature for a predetermined time interval, the energy consumption simulation data acquisition device for a plant energy management system. The method of claim 1,
The factory illuminance analysis unit is energy consumption simulation data acquisition device for a plant energy management system, characterized in that divided into the unit area inside the plant to analyze the average illuminance for a predetermined time interval. The method of claim 1,
The illuminance sensing means is energy consumption simulation data acquisition device for a plant energy management system, characterized in that configured to analyze the brightness of the image taken by the camera to compare and determine the illuminance in the factory.

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