KR101625423B1 - Integration management method for electric equipment - Google Patents
Integration management method for electric equipment Download PDFInfo
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- KR101625423B1 KR101625423B1 KR1020160007721A KR20160007721A KR101625423B1 KR 101625423 B1 KR101625423 B1 KR 101625423B1 KR 1020160007721 A KR1020160007721 A KR 1020160007721A KR 20160007721 A KR20160007721 A KR 20160007721A KR 101625423 B1 KR101625423 B1 KR 101625423B1
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- electrical equipment
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01R—MEASURING ELECTRIC VARIABLES; MEASURING MAGNETIC VARIABLES
- G01R31/00—Arrangements for testing electric properties; Arrangements for locating electric faults; Arrangements for electrical testing characterised by what is being tested not provided for elsewhere
- G01R31/12—Testing dielectric strength or breakdown voltage ; Testing or monitoring effectiveness or level of insulation, e.g. of a cable or of an apparatus, for example using partial discharge measurements; Electrostatic testing
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01K—MEASURING TEMPERATURE; MEASURING QUANTITY OF HEAT; THERMALLY-SENSITIVE ELEMENTS NOT OTHERWISE PROVIDED FOR
- G01K13/00—Thermometers specially adapted for specific purposes
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01R—MEASURING ELECTRIC VARIABLES; MEASURING MAGNETIC VARIABLES
- G01R21/00—Arrangements for measuring electric power or power factor
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- G—PHYSICS
- G08—SIGNALLING
- G08B—SIGNALLING OR CALLING SYSTEMS; ORDER TELEGRAPHS; ALARM SYSTEMS
- G08B21/00—Alarms responsive to a single specified undesired or abnormal condition and not otherwise provided for
- G08B21/18—Status alarms
- G08B21/182—Level alarms, e.g. alarms responsive to variables exceeding a threshold
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- G—PHYSICS
- G08—SIGNALLING
- G08B—SIGNALLING OR CALLING SYSTEMS; ORDER TELEGRAPHS; ALARM SYSTEMS
- G08B21/00—Alarms responsive to a single specified undesired or abnormal condition and not otherwise provided for
- G08B21/18—Status alarms
- G08B21/185—Electrical failure alarms
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- G—PHYSICS
- G08—SIGNALLING
- G08B—SIGNALLING OR CALLING SYSTEMS; ORDER TELEGRAPHS; ALARM SYSTEMS
- G08B25/00—Alarm systems in which the location of the alarm condition is signalled to a central station, e.g. fire or police telegraphic systems
- G08B25/14—Central alarm receiver or annunciator arrangements
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- G—PHYSICS
- G08—SIGNALLING
- G08C—TRANSMISSION SYSTEMS FOR MEASURED VALUES, CONTROL OR SIMILAR SIGNALS
- G08C19/00—Electric signal transmission systems
- G08C19/02—Electric signal transmission systems in which the signal transmitted is magnitude of current or voltage
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W4/00—Services specially adapted for wireless communication networks; Facilities therefor
- H04W4/12—Messaging; Mailboxes; Announcements
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- H02J2003/007—
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- Physics & Mathematics (AREA)
- General Physics & Mathematics (AREA)
- Business, Economics & Management (AREA)
- Emergency Management (AREA)
- Engineering & Computer Science (AREA)
- Power Engineering (AREA)
- Computer Networks & Wireless Communication (AREA)
- Signal Processing (AREA)
- Remote Monitoring And Control Of Power-Distribution Networks (AREA)
Abstract
The present invention relates to an integrated management method for an electric facility, which comprises measuring the surface temperature of at least one point of the electric facility through an electric facility monitoring device to obtain temperature information of the electric facility, The temperature information of the electric equipment is stored in a database and stored and managed by using the device identification information together with the temperature information of the electric equipment transmitted from the facility monitoring apparatus. Based on the temperature information, at least one By providing the electric facility integrated management service so that the surface temperature condition on the point is displayed on the display screen, the electric facility manager can always monitor the temperature condition of the electric equipment placed in each electric equipment place even in the uninterrupted state of the electric equipment It is effective to manage electric facilities efficiently and integrally. All.
Description
BACKGROUND OF THE
Generally, electrical equipment may be a term collectively referred to as electrical machinery, equipment, dams, waterways, reservoirs, electric lines, and security communication lines installed for power generation, transmission, substation, distribution or electricity use.
These electric facilities have become larger and larger in size as electric power consumption of electric power consumers is rapidly increasing as the buildings and industrial main facilities are becoming larger and diversified in recent years and the society is gradually developed into a highly informationized society.
Thus, recently, accidents and power failures of electrical equipment have brought about huge economic losses and obstacles in a highly industrial society with high electrical dependence, and therefore there is a demand for reliable power supply and reliability of electric equipment.
Particularly, since such electrical equipment is subject to various stresses due to long-term use, the electrical condition and the mechanical strength may be deteriorated, and eventually it may develop into a fire. Therefore, the temperature condition of the electric equipment must be constantly monitored.
However, in order to diagnose the temperature condition of the electric equipment at present, there is an offline inspection method in which the temperature of the electric equipment is periodically measured at the electric equipment place where the electric equipment is installed.
In order to carry out such an offline inspection method, it is necessary to charge the electric equipment to an external professional after power failure, so that the electric equipment operator is not only burdened with cost and time, but also has many There is a problem in that the temperature state of the electric equipment can not be integrally managed.
Therefore, it is necessary to develop an electric equipment management method that can efficiently and integrally manage the temperature states of the electric equipment disposed in each electric equipment site even in the uninterrupted state of the electric equipment.
SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems, and an object of the present invention is to provide an electric equipment integrating system capable of efficiently and integrally managing the temperature states of electric equipments arranged in each electric equipment place even in an uninterrupted state of the electric equipments. Management method.
In order to achieve the above-mentioned object, a first aspect of the present invention provides a power supply system for a power user, comprising: at least one electricity A method for managing an electrical facility using a system including an integrated management server, comprising: (a) measuring the surface temperature of at least one point of the electrical facility through each electrical facility monitoring device, Obtaining temperature information of the electrical equipment, and transmitting the device identification information together with the acquired temperature information of the electrical equipment; And (b) receiving the device identification information together with the temperature information of the electric equipment transmitted in the step (a) through the electric equipment integrated management server, and using the device identification information, And stores the temperature information of the electrical equipment in a database in the database, stores and manages the temperature information of the electrical equipment according to the searched location of the electrical equipment, and displays the surface temperature state of at least one point of the electrical equipment on the display screen, And providing an integrated facility management service.
Here, the electric equipment includes electric power generating facilities for generating electric power, substation facilities for converting electric power, transmission facilities for transmitting the electric power of the electric power generating facilities to electric power distribution facilities, electric power distribution facilities for transmitting electric power to electric power consumers, Wherein the electric equipment monitoring device includes at least one of an electric power source receiving apparatus and an electric material stock storing apparatus for storing an electric raw material for producing electric power, wherein, in the step (a) It is preferable to obtain the temperature information of the electric equipment by measuring the surface temperature at the point where the devices are connected to each other.
Preferably, the surface temperature for the point at which each electrical device is connected is selected from the group consisting of a clamp, a connector, a terminal, a spacer, a bushing, a coupler, a terminal lug terminal lug, and cable for at least one of the devices.
Preferably, the step (a) includes the steps of: (a-1) measuring the thermal energy generated on the surface of the electric equipment by photographing the electric equipment through the at least one infrared camera module provided in the electric equipment monitoring device; Obtaining thermal image information including temperature information of the electric equipment based on the thermal image information; And (a-2) transmitting device identification information together with thermal image information of the electrical equipment obtained in the step (a-1) through the electrical equipment monitoring apparatus to the electrical equipment integrated management server in the step (b) . ≪ / RTI >
Preferably, in the step (b), the electric equipment integrated management server receives the device identification information together with the thermal image information of the electric equipment transmitted in the step (a-2) And stores and manages thermal image information of the electrical equipment in the searched locations of the electrical equipment, and stores and manages the thermal image information of at least one location of the electrical equipment It is possible to provide the electric equipment integrated management service so that the thermal image state is displayed on the predetermined 2D or 3D electric equipment image.
Preferably, the method further comprises the step of photographing the electrical equipment through at least one real camera module provided in the electrical equipment monitoring apparatus before or after the step (a-1) to obtain real image information of the electrical equipment, (A-1) through the electric equipment monitoring apparatus and the electrical equipment information obtained before or after the step (a-1), in the step (a-2) And transmits the device identification information together with the real image information to the electric equipment integrated management server in the step (b).
Preferably, in the step (b), the electric equipment integrated management server receives the device identification information together with the thermal image information and the real image information of the electrical equipment transmitted in the step (a-2) The system searches the predetermined electrical equipment location information corresponding to the electrical equipment monitoring apparatus and stores the real image information and the thermal image information of the electrical equipment in a database in accordance with the searched electric equipment location and stores and manages the database. It is possible to provide the electric equipment integrated management service so that the thermal image condition for at least one point of the electric equipment is displayed on the real image of the electric equipment by matching the real image information of the facility with the thermal image information.
Preferably, the temperature and humidity of the inside of the apparatus are measured through the electrical equipment monitoring apparatus before, after, or after the step (a), and the measured temperature and humidity values inside the apparatus are preset And controlling the operation of at least one of the heater and the fan so as to maintain the temperature and humidity inside the apparatus in a predetermined temperature / humidity normal value range when the temperature / humidity is outside the normal temperature / humidity normal value range.
Preferably, the electrical equipment monitoring apparatus further includes a pan or tilt operation of the infrared camera module or the real camera module according to a position control signal of the driving module transmitted from the electrical equipment integrated management server Or controls the zooming operation of the thermal imaging camera module or the room image camera module according to the zoom control signal of the driving module transmitted from the electric equipment integrated management server to enlarge or reduce the shooting object Can be reduced.
Preferably, in the step (b), the electric equipment integrated management server receives the device identification information together with the temperature information of the electric equipment transmitted in the step (a) And stores and manages the temperature information of the electric equipment according to the searched location of the electric equipment in a database for each day / day / week / month / quarter / year, A temperature graph of the generated electric equipment by day / day / week / month / quarter / year can be displayed on the display screen or the electric equipment integrated management service can be provided so that it is outputted through the printing device.
Preferably, in the step (b), when the surface temperature for at least one point of the electrical equipment exceeds a preset temperature normal value range, the integrated electrical equipment management server generates a notification occurrence signal, (B), after receiving the notification generation signal transmitted in the step (b) through the notification generating device, to provide a notification to the notification device And a second step.
Preferably, in the step (b), the electrical equipment integrated management server may generate a notification signal in the form of an SMS and transmit the notification signal to a predetermined administrator terminal.
Preferably, when at least one point of the electrical installation is a plurality of points, the electrical installation integrated management server is configured to determine whether the surface temperature for each point of the electrical installation is within a predetermined temperature range corresponding to each point of the electrical installation Value range, it is possible to generate a notification occurrence signal and to provide the electric equipment integrated management service so as to be transmitted to the notification generating device disposed in the place of the electric equipment.
Preferably, in the step (b), when the electric equipment integrated management server operates in a POSITION VIEW mode according to a manager input signal inputted by an administrator, Based on the real image information and the thermal image information of the electrical equipment transmitted through the device, based on the real image information and the thermal image information of the electrical equipment in the database, the actual image information and heat The image information is matched to provide brief information about the thermal state of the electrical installation including at least one of a current temperature value, a temperature status rating, and a name for at least one point of the electrical installation on a real- To provide an integrated management service for electrical equipment to be displayed.
Preferably, in the step (b), when the electric equipment integrated management server is operated in a monitoring view mode according to a manager input signal input by an administrator, Based on the real image information and the thermal image information of the electrical equipment in the database, based on the real image information and the thermal image information of the electrical equipment transmitted through the device, at least one point The list of the electrical equipment monitoring list including at least one of the current temperature value, the temperature status class, and the name of the electrical equipment can be displayed on the display screen or the electric equipment integrated management service can be provided through the printing device.
Preferably, in the step (b), when the electric equipment integrated management server is operated in a status view mode according to a manager input signal inputted by an administrator, the electric equipment integrated management server transmits, Based on the real image information and the thermal image information of the electrical equipment in the database based on the real image information and the thermal image information of the electrical equipment transmitted through the surveillance device, Thermal image information is matched to display a thermal image and a real image state of the current electric equipment at the same point in each area of the display screen and a system log indicating the state of the present system is displayed on a display screen in real time It is possible to provide an integrated management service of electric facilities.
Preferably, in the step (b), when the electric equipment integrated management server operates in a SEARCH VIEW mode according to a manager input signal inputted by an administrator, Based on actual image information and thermal image information of the electrical equipment databaseed on the basis of the real image information and thermal image information of the electrical equipment transmitted through the device, the current electrical equipment for at least one point of the electrical equipment And displays the temperature value and the external atmosphere temperature value for at least one point of the electric equipment during the interest period set by the manager to the temperature value corresponding to the temperature value It is possible to provide an electric equipment integrated management service so that the search view temperature graph for each color is displayed on the display screen.
Preferably, the electrical equipment integration management server is further configured to determine a thermal state and an actual state of a current electrical installation for at least one point of the electrical installation, A report of the search view report including at least one of a temperature value, a maximum temperature value, and an outside air temperature value may be displayed on a display screen or an integrated electric equipment management service may be provided so that the report is outputted through a printing device.
Preferably, the electrical equipment integrated management server may provide an integrated electrical equipment management service such that a system log listing a system log indicating a current system status is displayed on a display screen or output through a printing device have.
Preferably, in the step (b), when the electric equipment integrated management server operates in a trend view mode according to an administrator input signal input by an administrator, The present temperature value for at least one point of the electrical equipment based on the real image information and the thermal image information of the electrical equipment databaseed by the electrical equipment location based on the real image information and the thermal image information of the electrical equipment transmitted through the device , A temperature status grade and a name, on the display screen for each color corresponding to the temperature value, and displays at least one of the corresponding electrical equipments during the interest period set by the manager A trend view temperature graph is shown on the display screen in which the temperature value of the point corresponding to the point corresponding to the temperature value is indicated by the color corresponding to the temperature value. That can provide integrated electrical equipment management services.
Preferably, the electric equipment integrated management server may display the trend view report on which the temperature value of at least one point of the corresponding electrical equipment is reported during the period of interest set by the administrator, on the display screen or through the printing device And can provide integrated management service of electric equipment.
Preferably, in the step (b), when the electric equipment integrated management server operates in an alarm view mode according to an administrator input signal input by an administrator, Based on the real image information and the thermal image information of the electrical equipment in the database based on the real image information and the thermal image information of the electrical equipment transmitted through the device, When there is an alarm log recorded according to a notification occurrence signal generated when the surface temperature for one point exceeds a predetermined temperature normal value range, the actual image information and the thermal image information Can be provided on the display screen.
Preferably, in the step (b), the electric equipment integrated management server receives the temperature information of the electric equipment from the respective electric equipment monitoring devices, and receives ambient temperature information of the electric equipment, The temperature increase rate of the electric equipment and its periphery is calculated for each unit time, and the calculated rate of temperature rise for the surrounding electric equipment is greater than a predetermined first reference temperature increase rate, When the temperature increase rate of the electric equipment is greater than a predetermined second reference temperature increase rate, generates a notification signal and provides the electric equipment integrated management service to be transmitted to the notification device separately provided at the electric equipment location, (b), the notification generating unit receives the notification generation signal transmitted in the step (b) through the notification generating apparatus and generates a notification It may further comprise the step.
Preferably, in the step (a), the electric equipment monitoring device measures thermal energy generated on the surface of the electric equipment by photographing the electric equipment through the at least one infrared camera module, Acquiring thermal image information including information, photographing an electric facility through at least one real camera module, acquiring real image information of the electric facility, and then acquiring thermal image information and real image information of the electric facility And transmits the device identification information to the electric equipment integrated management server. In the step (b), the electric equipment integrated management server transmits temperature information and real image information of the electric equipment from each electric equipment monitoring device, And the temperature of the electric equipment and its surroundings are measured using a temperature value that varies according to a predetermined unit time, And calculating the illuminance value of the electric equipment using the real image information, and calculating a state where the calculated temperature increase rate of the surrounding electric equipment is greater than a predetermined first reference temperature increase rate, When a calculated temperature of the corresponding electrical equipment is higher than a predetermined second reference temperature increase rate in a state where the calculated illuminance value of the corresponding electrical equipment is greater than a preset reference illuminance value, (B), receives a notification signal transmitted in the step (b) through the notification generating device, and generates a notification after the step (b) The method comprising the steps of:
According to the integrated facility management method of the present invention as described above, the surface temperature of at least one point of the facility is measured through the facility monitoring system to obtain the temperature information of the facility, The temperature information of the electric equipment is stored in a database and stored and managed by using the device identification information together with the temperature information of the electric equipment transmitted from each electric equipment monitoring device through the electric equipment monitoring device, By providing the electric equipment integrated management service so that the surface temperature state for at least one point of the electric equipment is displayed on the display screen, even when the electric equipment manager is in the uninterrupted state of the electric equipment, the temperature state of the electric equipment placed in each electric equipment place is always Monitor the electrical equipment efficiently and integrally. It has the advantage that you can.
In addition, according to the present invention, the surface temperature of a point where each electric device constituting the electric equipment is connected to each other is measured through the electric equipment monitoring device to obtain temperature information of the electric equipment, By providing the electric equipment integrated management service so that the surface temperature condition of the point where the respective electric devices constituting the electric equipment constituting the electric equipment are connected to each other on the display screen, It is possible to constantly monitor the connection portion of the electrical equipment in which the electrical and mechanical strengths are rapidly lowered due to the stress due to the rapid progress of the deterioration. Thus, there is an advantage that the connection portion of the weak electrical equipment can be intensively managed.
Also, according to the present invention, the information such as the temperature information of the electric equipment is encrypted through the electric equipment integrated management server and the integrated management service of the electric equipment is provided based on the information, thereby causing security problems such as information disclosure There is an advantage not to.
According to the present invention, an electric equipment integrated management service is provided so that simple information or detailed information on a temperature state of an electric equipment is displayed on a display screen on a predetermined image through an electric equipment integrated management server, The information displayed on the display screen allows the administrator to easily and precisely understand the temperature status of the electrical equipment so that the temperature of the electrical equipment placed in each electrical equipment location There is an advantage of being able to manage efficiently and integrally.
Further, according to the present invention, it is possible to manage a state (e.g., a temperature state) with respect to an electric facility through an administrator terminal (e.g., a mobile communication terminal) It is possible to always monitor the temperature state of the electric equipment disposed in each electric equipment place, and thus it is possible to efficiently and integrally manage the electric equipment.
In addition, according to the present invention, when the temperature condition of the electric equipment is monitored through the electric equipment integrated management server and the temperature condition is exceeded, the alarm generating device generates a notification signal, By providing the integrated management service of electric equipment to be transferred, the electric equipment manager can always monitor the abnormality of the electric equipment in the electric equipment even in the uninterrupted state of the electric equipment, so that it is possible to efficiently and integrally manage the electric equipment have.
According to the present invention, thermal image information including temperature information of the electric equipment is captured by photographing the electric equipment through the thermal camera module, the electric equipment is photographed through the real camera module, and real image information And the thermal image state of at least one point of the electric equipment is displayed on the real image of the electric equipment by matching the real image information and the thermal image information of the electric equipment by the electric equipment integrated management server through the electric equipment integrated management server It is advantageous that the electric facility manager can easily know the abnormality with respect to the electric facilities in the place of the electric facilities even in the uninterrupted state of the electric facilities, and thus can efficiently manage the electric facilities.
Also, according to the present invention, when the temperature and humidity values inside the device measured by the temperature and humidity sensor module exceed the preset temperature and humidity normal value range through the electric equipment monitoring device, the temperature and humidity inside the device are preset Humidity control module is automatically controlled to maintain the temperature and humidity inside the monitoring device at a normal level by automatically controlling the operation of the temperature and humidity control module so that the temperature and humidity remain within the normal value range, There is an advantage in that the temperature status of the electric equipment can be accurately monitored at the electric equipment integrated management server.
In addition, according to the present invention, it is possible to change the object to be photographed by controlling the pan or tilt operation of the thermal imaging camera module or the real image camera module through the electric equipment monitoring device, By controlling the zoom operation of the image camera module to enlarge or reduce the object to be photographed, the electric equipment monitoring apparatus can precisely measure the surface temperature of at least one point of the electric equipment, There is an advantage in that the temperature condition of the electric equipment can be accurately monitored.
In addition, the electric equipment integrated management server according to the present invention can be provided with a POSITION VIEW, a MONITORING VIEW, a STATUS VIEW, a SEARCH VIEW, a TREND VIEW, (ALARM VIEW) and so on, it is possible for the electric facility manager to integrally manage the temperature condition of the electric facilities disposed in each electric facility even in the uninterrupted state of the electric facility, It is possible to efficiently and integrally manage the electric equipment.
FIG. 1 is a block diagram illustrating an electrical equipment integrated management system for implementing an integrated electrical equipment management method according to an embodiment of the present invention. Referring to FIG.
FIG. 2A is an overall block diagram illustrating an electrical equipment monitoring apparatus for implementing an integrated electrical equipment management method according to an embodiment of the present invention. Referring to FIG.
2B is a perspective view illustrating an electrical equipment monitoring apparatus for implementing an integrated electrical equipment management method according to an embodiment of the present invention.
FIG. 2C is a layout diagram showing the inside of a camera housing of an electrical equipment monitoring apparatus for implementing an integrated electrical equipment management method according to an embodiment of the present invention. FIG.
FIG. 2D is an assembled view of a camera housing and a driving housing of an electrical equipment monitoring apparatus for implementing an integrated electrical equipment management method according to an embodiment of the present invention.
3A to 3D are photographs for explaining a display screen of an electric equipment integrated management server for implementing an integrated electric equipment management method according to an embodiment of the present invention.
4 is an overall flowchart for explaining an electric equipment integrated management method according to an embodiment of the present invention.
5A and 5B are specific flowcharts for explaining an electric equipment integrated management method according to an embodiment of the present invention.
6A to 6F are flowcharts for explaining an operational flow when an integrated electrical equipment management method according to an embodiment of the present invention is operated in various modes.
7A and 7B are photographs illustrating a display screen configuration and functions when the electric equipment integrated management server for implementing the electric equipment integrated management method according to an embodiment of the present invention is operated in the system start mode.
8 to 13 are photographs for explaining the display screen configuration and functions when the electric equipment integrated management server for implementing the electric equipment integrated management method according to the embodiment of the present invention is operated in the electric equipment management mode.
14 to 17 are photographs for explaining a display screen when the electric equipment integrated management server for implementing the electric equipment integrated management method according to an embodiment of the present invention is operated in the system setting mode.
BRIEF DESCRIPTION OF THE DRAWINGS The advantages and features of the present invention and the manner of achieving them will be more apparent from the following detailed description taken in conjunction with the accompanying drawings. The present invention may, however, be embodied in many different forms and should not be construed as being limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art. Is provided to fully convey the scope of the invention to those skilled in the art, and the invention is only defined by the scope of the claims. Like reference numerals refer to like elements throughout the specification. "And / or" include each and every combination of one or more of the mentioned items.
Although the first, second, etc. are used to describe various elements, components and / or sections, it is needless to say that these elements, components and / or sections are not limited by these terms. These terms are only used to distinguish one element, element or section from another element, element or section. Therefore, it goes without saying that the first element, the first element or the first section mentioned below may be the second element, the second element or the second section within the technical spirit of the present invention.
The terminology used herein is for the purpose of illustrating embodiments and is not intended to be limiting of the present invention. In the present specification, the singular form includes plural forms unless otherwise specified in the specification. It is noted that the terms "comprises" and / or "comprising" used in the specification are intended to be inclusive in a manner similar to the components, steps, operations, and / Or additions.
Unless defined otherwise, all terms (including technical and scientific terms) used herein may be used in a sense commonly understood by one of ordinary skill in the art to which this invention belongs. Also, commonly used predefined terms are not ideally or excessively interpreted unless explicitly defined otherwise.
In the following description of the present invention, detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. The following terms are defined in consideration of the functions in the embodiments of the present invention, which may vary depending on the intention of the user, the intention or the custom of the operator. Therefore, the definition should be based on the contents throughout this specification.
Hereinafter, an electric equipment integrated management system according to an embodiment of the present invention will be described with reference to the accompanying drawings.
FIG. 1 is a block diagram illustrating an electrical equipment integrated management system for implementing an integrated electrical equipment management method according to an embodiment of the present invention. Referring to FIG.
Referring to FIG. 1, an electric equipment integrated management system for implementing an integrated electric equipment management method according to an embodiment of the present invention includes an electric equipment monitoring apparatus 100-1 to 100-N, (200), and the like.
At least one of the electrical equipment monitoring apparatuses 100-1 to 100-N may be disposed in an electrical equipment place where electrical equipment is installed. In one example, a plurality of electrical equipment monitoring apparatuses 100-1 to 100-N may be disposed in an electrical equipment facility where electrical equipment is installed as shown in the figure. In another example, the electrical equipment monitoring apparatuses 100-1 to 100-N may be disposed within an electrical equipment installation where the electrical equipment is installed.
Here, the electrical equipment can perform the production, conversion or transmission of power so that the power user of the power consumer can use the power. In particular, it will be appreciated by one of ordinary skill in the art that the term power may be substituted for other terms having equivalent meanings such as electricity, current, and voltage.
On the other hand, according to Korea Electrical Equipment Technical Standard, extrinsic pressure can mean AC or DC voltage exceeding 7000 volts, and high voltage exceeding 600 volts, AC voltage less than 7000 volts, 750 volts and less than 7000 volts And the low voltage may mean an AC voltage of 600 V or less and a DC voltage of 750 V or less.
The electric equipment may include at least one of a power generation facility, an electric power reception facility, a substation facility, a transmission facility, a distribution facility, and an electric material storage facility, but is not limited thereto. Any facility capable of processing power (eg, producing, converting, or transmitting power) for use may be included.
The power generation facility may be a facility for generating electric power. That is, a power generation facility is a plant facility in which a large number of electrical devices (or equipment, etc.) are connected to each other so as to produce electric power, and at least any one of a thermal power generation facility, a hydroelectric power generation facility, a nuclear power generation facility, But not limited to, any facility capable of producing electricity.
The power reception equipment may be a power supply facility. For example, the power reception facility may be a plant facility in which a large number of electric devices (or equipment, etc.) are connected organically so as to receive single-phase or three-phase power (or power) from the power generation facility. In addition, the above-mentioned receiving equipment may mean the configuration of the electric equipment from the receiving point to the primary side of the transformer.
The substation facility may be a facility for converting power (for example, power up or down). For example, the substation facility may be configured to organically connect a plurality of electric devices (or equipment, etc.) so that the electric power generated from the electric power generating facility is received through the electricity receiving facility and converted (for example, power up or down) It may be a plant facility.
The transmission facility may be a facility for transmitting electric power. For example, the power transmission facility may be a plant facility in which a large number of electric devices (or equipment, etc.) are connected organically so that electric power generated from a power generation facility or converted power from a power storage facility can be transmitted to a power distribution facility.
The distribution facility may be a facility for transferring power to a power consumer. For example, the power distribution facility is provided with a plurality of electric apparatuses (or a plurality of electric apparatuses) that can receive power converted from power generating facilities or substation facilities through power transmission facilities and transmit the converted power to power consumers , Equipment, etc.) can be organically connected to the plant facility.
The electric raw material storage facility may be a facility for storing the electric raw material. For example, the above-mentioned electric material storage facility is a plant facility in which a large number of electric devices (or equipment, etc.) are connected organically so as to store electric raw materials capable of producing electric power. Such facilities include low- And a nuclear material storage facility. However, the present invention is not limited to this, and any facility capable of storing an electric raw material may be included.
The electrical equipment may be a transformer, a circuit breaker, a disconnector, a switch (for example, a gas insulated switchgear (GIS), a lightning arrester, a transformer for a meter, a power fuse, a power capacitor, a transformer protection device, a charger, a control panel, a clamp, a connector, a terminal, a spacer, a bushing, a coupler, a terminal, a transformer, But are not limited to, terminal lugs, templates, anchor bolts, and cables, but are not limited to, power handling (e.g., power production, conversion, or transmission Etc.) can be included in any device.
Here, the location of the electric equipment may include at least one of a power plant, a switchgear, a substation, a water storage room, a power distribution room, a low-lean warehouse, a gas storage, a gas storage, However, the present invention is not limited to this, and any place where electric equipment is installed may be included.
Also, the electrical equipment monitoring apparatuses 100-1 through 100-N may obtain temperature information of the electrical equipment by measuring the surface temperature of at least one point of the electrical equipment, but not limited thereto, (For example, ambient temperature information) can be obtained by measuring the temperature of the environment of the electric equipment by measuring the temperature of the environment, and the internal temperature (for example, the inside temperature of coal) Temperature information on the electric raw material can be obtained.
In one example, the electrical equipment monitoring apparatuses 100-1 through 100-N may obtain temperature information of the electrical equipment by measuring the surface temperature for at least one point of the electrical equipment in real time.
In another example, the electrical equipment monitoring apparatuses 100-1 through 100-N periodically measure the surface temperature of at least one point of the electrical equipment to obtain temperature information of the electrical equipment.
In another example, the electrical equipment monitoring apparatuses 100-1 to 100-N may receive at least a part of electrical equipment at a certain time (for example, when receiving the manager control signal transmitted from the electrical equipment integrated management server 200) The temperature information of the electrical equipment can be obtained by measuring the surface temperature of one point.
Here, the temperature information of the electric equipment is information indicating the temperature of the inside or the surface of the electric equipment, and includes information obtained by directly or indirectly measuring the inside or the surface of the electric equipment as well as information obtained by processing For example, an operation, etc.).
Particularly, the electrical equipment monitoring apparatuses 100-1 to 100-N can obtain temperature information of the electrical equipment by measuring the surface temperature at the point where the respective electrical equipment constituting the electrical equipment are connected to each other.
Here, the surface temperature for the point at which each electric device is connected may be the surface temperature for electric devices that are disposed between and connect (or connect to, etc.) or insulate the electric devices.
For example, the electrical equipment monitoring apparatuses 100-1 to 100-N may include a clamp, a connector, a terminal, a spacer, a bushing, a coupler, a terminal lug lug, and cable, and obtain the temperature information of the electrical equipment.
In addition, the electrical equipment monitoring apparatuses 100-1 to 100-N can transmit the device identification information together with the acquired temperature information of the electrical equipment through the
In one example, the electrical equipment monitoring apparatuses 100-1 to 100-N transmit the device identification information together with the obtained temperature information of the electrical equipment through the
In another example, the electrical equipment monitoring devices 100-1 to 100-N periodically transmit the device identification information together with the obtained temperature information of the electrical equipment to the electrical equipment integrated
In another example, the electrical equipment monitoring apparatuses 100-1 to 100-N may transmit the device identification information together with the obtained temperature information of the electrical equipment through the
Here, the device identification information may be information indicating only the corresponding device for distinguishing from other devices. Such device identification information may be provided from at least one of the producer and the manager (for example, the electric facility manager or the operator) of the electric equipment monitoring apparatuses 100-1 to 100-N, and the electric equipment monitoring apparatuses 100-1 To 100-N. ≪ / RTI >
The device identification information may include identification information for the electric equipment monitoring devices 100-1 to 100-N, but the present invention is not limited thereto and may be applied to the electric equipment monitoring devices 100-1 to 100-N (E.g., thermal
The device identification information includes device name information, device password information, device serial number information, device type information, device manufacturer information, MAC (Media Access Control) address information of the device, model information of the device, Information on at least one of the device version information, device labeling person information, device production date information, and device location information. However, .
Here, the
If the
The
The electric equipment integrated
In one example, the electrical equipment integrated
In another example, the electrical equipment integrated
In another example, the electrical equipment integrated
In addition, the electric equipment integrated
In addition, the electrical equipment
Here, the electric equipment integrated
In one example, when a key is required to perform a cryptographic operation, such as a keyed-hash message authentication code (HMAC) cryptographic mechanism or a cryptographic key (e.g., symmetric key, public key or private key) The
In order to decrypt the encrypted data transmitted from the electrical equipment integrated management server 200 (for example, the database information and the temperature information of the encrypted electrical equipment by the location of the electrical equipment, etc.) (300-1 to 300-N).
In particular, the set key may be updated after a predetermined time, and the set key of the electric equipment integrated
As described above, the electric equipment integrated management system for implementing the electric equipment integrated management method according to an embodiment of the present invention encrypts information such as temperature information of the electric equipment through the electric equipment integrated management server, By providing integrated management service of electric facilities, there is no security problem such as information disclosure for data transmission.
In addition, the electric equipment integrated
Here, the temperature condition of the electrical equipment may include a surface temperature condition for at least one point of the electrical equipment. The temperature condition of the electrical equipment may also include the temperature magnitude of the electrical equipment, the temperature condition rating, the name and location of at least one point, and so on.
In one example, the electrical equipment integrated
In another example, the electrical equipment integrated
In another example, the electrical equipment integrated
Here, the display screen may include a liquid crystal display (LCD), a light emitting diode (LED), a thin film transistor-liquid crystal display (TFT LCD), an organic light emitting diode Emitting Diode (OLED), Flexible Display, Lasermar Display Panel (PDP), Surface Alternating Lighting (ALiS), Digital Light Source Processing (DLP), Silicon Liquid Crystal (LCoS) (TDEL), a quantum dot display (QD-SED), a field emission display (FED), a laser TV (quantum dots laser, a liquid crystal laser), a photodetector liquid display (FLD), an interferometer modulator display (iMoD) (LED), a telescopic pixel display (TPD), an organic light emitting transistor (OLET), a laser fluorescent display (LPD), or a 3D display But not limited to, any device capable of indicating the temperature status of the electrical equipment by the location of the electrical equipment.
In addition, the electric equipment integrated
That is, the electrical equipment integrated
In one example, the electrical equipment integrated
In another example, the electrical equipment integrated
Here, the brief information on the temperature state of the electrical equipment may be information expressed in an image or text as a temperature state of the electrical equipment.
For example, the brief information on the temperature condition of the electrical equipment may include color, shape (e.g., circle, etc.), icon, number, abbreviation, image (e.g., May include at least one piece of information, but it is not so limited and may include any kind of brief information as long as the temperature condition of the electrical equipment can be briefly expressed.
Here, the detailed information on the temperature condition of the electrical equipment may be information expressed in detail in the form of an image or a text.
For example, the detailed information on the temperature condition of the electrical equipment may include color, shape (e.g., a circle, etc.), icon, number, abbreviation, image But may include any type of detailed information as long as the temperature state of the electrical equipment can be expressed in detail.
As described above, the electrical equipment integrated management system for implementing the integrated management method of electrical equipment according to an embodiment of the present invention is a system for managing the integrated state of the electrical equipment according to the temperature state It is possible for the administrator to grasp the temperature state of the electric equipment in a simple and detailed manner using the information displayed on the display screen by providing the electric equipment integrated management service so that the simple information or the detailed information on the electric equipment The manager can efficiently and integrally manage the temperature status of the electric equipment disposed in each electric equipment site even in an uninterrupted state of the electric equipment.
1, the electric equipment integrated
The electrical equipment integrated
Then, the electric equipment integrated
In addition, the electrical equipment integrated
For example, the electric equipment integrated
In addition, the electric equipment integrated
Here, the
As described above, the electrical equipment integrated management system for implementing the integrated electrical equipment management method according to an embodiment of the present invention includes: an electrical equipment monitoring device for measuring the surface temperature of at least one point of the electrical equipment, Obtains the temperature information of the facility, and stores the temperature information of the electrical equipment in the database by using the device identification information together with the temperature information of the electrical equipment transmitted from each of the electrical equipment monitoring devices through the integrated equipment management server And by providing the electric equipment integrated management service so that the surface temperature condition of at least one point of the electric equipment is displayed on the display screen based on the electric equipment, It is always possible to monitor the temperature status of the electrical equipment placed in the electrical installation site. Yet efficient electrical equipment can be integrated into management.
In addition, the integrated electrical equipment management system for implementing the integrated method for managing electrical equipment according to an embodiment of the present invention is characterized in that, through the electrical equipment monitoring device, the surface temperature To obtain temperature information of the electric equipment, and to display the surface temperature state at a point where the respective electric devices constituting the electric equipment constituting the electric equipment by the electric equipment facilities are connected to each other through the electric equipment integrated management server, By providing the integrated management service, the electric facility manager can monitor the connection part of the electric equipment which is under the stress due to the extraordinary pressure and can be rapidly deteriorated in the uninterrupted condition of the electric equipment, and the electric and mechanical strength is rapidly reduced. It is possible to intensively manage the connection portion of the electrical equipment weak in heat.
In addition, the electrical equipment integrated management system for implementing the integrated electrical equipment management method according to an embodiment of the present invention may further include at least one administrator terminal 300-1 to 300-N.
The administrator terminals 300-1 to 300-N may be connected to the electric equipment integrated
The administrator terminals 300-1 to 300-N are connected to the electric equipment integrated
Also, the administrator terminals 300-1 to 300-N may be provided to download the integrated management service application for electric equipment from the integrated
Also, the administrator terminals 300-1 to 300-N may include at least one terminal of an administrator, an operator, a user, a user of the electric facility, and a terminal of the maintenance company, but the present invention is not limited thereto. A person's terminal can include any person's terminal.
For example, the terminal of the maintenance company can receive a maintenance request for the electric equipment through the electric equipment integrated management service of the electric equipment integrated
As described above, the electric equipment integrated management system for implementing the electric equipment integrated management method according to an embodiment of the present invention can be applied to a state of the electric equipment (for example, , Temperature condition, etc.), it is possible to monitor the temperature condition of the electric equipment placed in each electric equipment site even in the uninterrupted state of the electric equipment, thereby managing the electric equipment efficiently and integrally .
In addition, the administrator terminals 300-1 to 300-N may include a mobile communication terminal (for example, a smart phone) capable of transmitting and receiving data using wireless communication in real time or in non-real time, And any device capable of transmitting and receiving data through a network including the Internet can be included.
For example, the administrator terminals 300-1 to 300-N may be a personal computer (PC), a notebook computer, a personal digital assistant (PDA), a portable multimedia player (PMP) It may be a server terminal such as a PSP (PlayStation Portable), a wireless communication terminal, a smart phone, a TV application server and a service server, and may be a user terminal such as various devices or a wired / A communication device such as a communication modem for performing communication, a communication device such as a communication modem, a program for an electric equipment integrated management service, a memory capable of storing data, and / or a microprocessor for executing and controlling a program .
Unlike a general mobile phone (a feature phone), the smart phone is a phone based on an open operating system that allows a user to freely use and delete various application programs desired by the user, All mobile phones with mobile office functions or communication (including voice communication), including all Internet phones or Tablet PCs that can access the Internet, It is desirable to understand it as a device.
Such a smart phone can be implemented as a smart phone equipped with various open operating systems. The open operating system includes, for example, Symbian of NOKIA, BlackBerry of RIMS, iPhone of Apple, Microsoft's Windows Mobile, Google's Android, and Samsung's ocean.
As described above, since the smartphone uses an open operating system, a user can arbitrarily install and manage various application programs, unlike a mobile phone having a closed operating system.
That is, the above-mentioned smart phone basically includes a control unit, a memory unit, a screen output unit, a key input unit, a sound output unit, a sound input unit, a camera unit, a wireless network communication module, a short- .
The controller is a collective term for controlling the operation of the smartphone, and includes at least one processor and an execution memory, and is connected to each functional unit provided in the smartphone through a bus.
The control unit loads at least one program code included in the smartphone into the execution memory through the processor and transfers the result to the at least one functional unit through the bus, .
The memory unit is a general term of a nonvolatile memory included in the smartphone, and stores and maintains at least one program code executed through the control unit and at least one data set used by the program code. The memory unit basically includes a system program code and a system data set corresponding to an operating system of the smartphone, a communication program code and a communication data set for processing a wireless communication connection of the smartphone, at least one application program code, and an application data set And the program code and data set for implementing the present invention are also stored in the memory unit.
The screen output unit includes a screen output device (e.g., an LCD (Liquid Crystal Display) device) and an output module for driving the screen output device. The screen output unit is connected to the control unit through a bus, And outputs it to the screen output device.
The key input unit is composed of a key input device having at least one key button (or a touch screen device interlocked with the screen output unit) and an input module for driving the key input unit. The control unit is connected to the control unit via a bus, Or inputs data necessary for the operation of the control unit.
The sound output unit includes a speaker for outputting a sound signal and a sound module for driving the speaker. The sound output unit is connected to the control unit through a bus, and outputs a result of operation corresponding to the sound output from the various operation results of the control unit through the speaker . The sound module decodes sound data to be output through the speaker and converts the sound data into a sound signal.
The sound input unit includes a microphone for receiving a sound signal and a sound module for driving the microphone, and transmits the sound data input through the microphone to the control unit. The sound module encodes and encodes a sound signal input through the microphone.
The camera unit includes an optical unit, a CCD (Charge Coupled Device) and a camera module for driving the CCD unit, and obtains bitmap data input to the CCD through the optical unit. The bitmap data may include both still image data and moving image data.
The wireless network communication module is a collective term for communicating wireless communication and includes at least one antenna, an RF module, a baseband module, and a signal processing module for transmitting and receiving a radio frequency signal of a specific frequency band. And transmits the calculation result corresponding to the wireless communication among the various calculation results of the control unit through the wireless communication or receives the data through the wireless communication and transmits the data to the control unit, , Communication, and handoff procedures.
Also, the wireless network communication module includes a mobile communication structure for performing at least one of connection, location registration, call processing, call connection, data communication, and handoff to a mobile communication network according to the CDMA / WCDMA standard. Meanwhile, according to the intention of those skilled in the art, the wireless network communication module may further include a portable Internet communication structure for performing at least one of connection to the portable Internet, location registration, data communication, and handoff according to the IEEE 802.16 standard, It is evident that the present invention is not limited by the wireless communication configuration provided by the communication module.
The short-range wireless communication module is composed of a short-range wireless communication module that connects a communication session using a radio frequency signal as a communication medium within a predetermined distance. Preferably, the short-range wireless communication module includes RFID communication, Bluetooth communication, Wi- And wireless communication. The short-range wireless communication module may be integrated with the wireless network communication module.
In particular, the smartphone for implementing the integrated management method of the electric equipment according to an embodiment of the present invention may be provided to receive the integrated management service of the electric equipment from the integrated
For example, a smartphone of a maintenance company can receive a maintenance request for the electric equipment through the electric equipment integrated management service of the electric equipment integrated
In addition, the smartphone may be connected to the electric equipment integrated
In addition, the smartphone may be installed to download the integrated management service application for electric equipment from the integrated
In addition, the electric equipment integrated management system for implementing the electric equipment integrated management method according to an embodiment of the present invention may further include at least one
The
Also, the
In one example, the
In another example, the
In another example, the
Also, the
As described above, the notification generation signal may be generated in the electric equipment integrated
Specifically, the electric equipment integrated
The integrated electrical
Here, the predetermined temperature steady value range may be generated as a lookup table (LUT) and stored in advance in the
When the at least one point of the electric facility is a plurality of points, the electric facility integrated
Here, the predetermined temperature normal value range corresponding to each point of the electric equipment is set differently according to each point of the electric equipment, and is generated as a look up table (LUT) and stored in advance in the
In addition, the electrical equipment integrated
As described above, the electrical equipment integrated management system for implementing the integrated electrical equipment management method according to an embodiment of the present invention monitors the temperature state of the electrical equipment through the integrated equipment management server, , It is possible to generate a notification signal and to provide the electric equipment integrated management service so as to be transmitted to the notification generating device disposed in the place of the electric equipment so that the electric equipment manager can control the electric equipment in the place of the electric equipment even in the uninterrupted state of the electric equipment It is possible to monitor the abnormal condition at all times, so that the electric equipment can be efficiently and integrally managed.
In addition, the electric equipment integrated
At this time, it is preferable that at least one reference point is preset by the manager as a reference point at which there is no fear of generation of heat (for example, heat generation of the electric equipment itself) due to the joule heat.
The first reference temperature increase rate is a reference temperature increase rate based on solar radiation energy and is variously set to an ideal value based on repeated experimental data according to a change in weather conditions with respect to the periphery of the electric equipment, It is desirable to change the setting.
The second reference temperature increase rate is a reference temperature increase rate that indicates heat generation by the joule heat, that is, an abnormal heat generation of the electric equipment to be monitored itself. It is a repetitive experiment that reflects the first reference temperature increase rate, It is preferable to set and change various values to ideal values by data.
The electric equipment integrated
At this time, it is preferable that at least one reference point is preset by the manager as a reference point at which there is no fear of generation of heat (for example, heat generation of the electric equipment itself) due to the joule heat.
The first reference temperature increase rate is a reference temperature increase rate based on solar radiation energy and various settings and changes are made to ideal values by repeating experimental data according to a weather condition change with respect to the periphery of the electric equipment, .
It is preferable that the reference illuminance value is variously set and changed to an ideal value by repetitive experimental data according to a change in the weather condition of the electric equipment and / or its surroundings.
The second reference temperature increase rate is described to distinguish the first reference temperature increase rate from the first reference temperature increase rate for the sake of convenience, and the same terms as the second reference temperature increase rate are described above, but this does not mean the same value.
That is, the second reference temperature increase rate is a reference temperature increase rate indicating the heat generation by the joule heat, that is, the abnormal heating of the electric equipment to be monitored itself. The first reference temperature increase rate, that is, the temperature rise rate by the solar radiation, It is desirable to set and change various values to ideal values by repeated experimental data reflecting the values.
As described above, the notification generating service through the electric equipment integrated
On the other hand, there is no special pattern for the temperature rise due to the solar radiation energy. In other words, when the atmosphere is clear, the solar radiation energy increases proportionally to the shape of the function of the sun, and therefore the temperature slowly increases. However, when the atmosphere is unstable, the solar radiation is irregularly changed The temperature change is not constant. Then, the temperature rise due to the solar radiation is stopped at a constant temperature.
However, since the abnormal heat generated by the joule heat has a pattern of continuously rising temperature, it can be distinguished from the temperature rise due to the solar radiation by monitoring the temperature rising rate with time. Since the temperature increase rate can be defined as a temperature value changing per unit time, the temperature increase rate can be calculated by differentiating the monitoring point, that is, the temperature of the electrical equipment to be monitored over time.
2 is a view for explaining an electrical equipment monitoring apparatus for implementing an integrated electrical equipment management method according to an embodiment of the present invention. That is, FIG. 2A is an overall block diagram illustrating an electrical equipment monitoring apparatus for implementing an integrated electrical equipment management method according to an embodiment of the present invention. FIG. 2B is a block diagram of an electrical equipment monitoring apparatus according to an embodiment of the present invention. FIG. 2C is a layout view showing the inside of a camera housing of an electrical equipment monitoring apparatus for implementing an electrical equipment integrated management method according to an embodiment of the present invention, and FIG. FIG. 2D is an assembled view of a camera housing and a driving housing of an electrical equipment monitoring apparatus for implementing an integrated electrical equipment management method according to an embodiment of the present invention.
Referring to FIG. 2A, the electrical equipment monitoring apparatuses 100-1 to 100-N for implementing an integrated electrical equipment management method according to an embodiment of the present invention include a
The thermal
In one example, the thermal
In another example, the thermal
In another example, the thermal
That is, the thermal
In addition, the thermal
In addition, the thermal
Here, a thermal camera is a camera that can be expressed in different colors depending on the temperature and can see the temperature with our eyes. It can detect thermal energy (for example, infrared rays) from an object and display it as an image. In addition, the infrared camera recognizes the intensity of infrared rays, which varies depending on the intensity of heat, as thousands of points, and can express them in color.
As described above, the electric equipment monitoring apparatuses 100-1 to 100-N for implementing the integrated electric equipment management method according to an embodiment of the present invention are configured to monitor thermal energy information of the electric equipment through the
In addition, the electrical equipment monitoring apparatuses 100-1 to 100-N for implementing the electric equipment integrated management method according to an embodiment of the present invention can acquire thermal image information through the thermal
On the other hand, the various embodiments described herein may be embodied in a recording medium readable by a computer or similar device using, for example, software, hardware, or a combination thereof.
According to a hardware implementation, the embodiments described herein may be applied to various types of devices such as Application Specific Integrated Circuits (ASICs), Digital Signal Processors (DSPs), Digital Dignal Processing Devices (DSPDs), Programmable Logic Devices (PLDs), Field Programmable Gate Arrays Processors, processors, microprocessors, microprocessors, microprocessors, microprocessors, and other electronic units for performing other functions. In some cases, the embodiments described herein may be implemented by the
According to a software implementation, embodiments such as the procedures and functions described herein may be implemented with separate software modules. Each of the software modules may perform one or more of the functions and operations described herein. Software code may be implemented in a software application written in a suitable programming language. The software code may be stored in a
This
That is, the
The
For example, the
In one example, the
In another example, the
In another example, the
The
For example, LTE (Long Term Evolution) wireless communication technology is preferably used as the wireless Internet technology, but the present invention is not limited thereto. For example, IEEE802.11n, IEEE802.11n, IEEE802.11n, IEEE 802.11ad, IEEE802.11af, IEEE802.11ah, IEEE802.11ai and the like can be used, and WiGig, Wibro (Wireless broadband), WLAN (Wireless LAN -Fi, Wimax (World Interoperability for Microwave Access), HSDPA (High Speed Downlink Packet Access), or the like may be used.
Meanwhile, the
As described above, the device identification information together with the thermal image information of the electric equipment can be transmitted to the electric equipment integrated
The electric equipment integrated
In addition, the electrical equipment integrated
In addition, the electric equipment integrated
Here, the thermal state of the electrical installation may include a thermal state for at least one point of the electrical installation. In addition, the thermal state of the electrical installation may include thermal imaging of the electrical installation, temperature magnitude, temperature state rating, name and location for at least one point, and so on.
In one example, the electrical equipment integrated
In another example, the electrical equipment integrated
In another example, the electrical equipment integrated
In addition, the electric equipment integrated
That is, the electric equipment integrated
In one example, the electrical equipment integrated
In another example, the electrical equipment integrated
Here, the brief information on the thermal image state of the electric equipment may be information expressed in an image or text as a thermal image state of the electric equipment.
For example, brief information on the thermal state of the electrical equipment may include thermal image, color, shape (e.g., circle, etc.), image, numeric, abbreviation, image (e.g., Etc.), but it is not limited thereto and may include any kind of brief information as long as the thermal state of the electrical equipment can be expressed briefly.
Here, the detailed information on the thermal image state of the electric equipment may be information expressed in detail as an image or text in a thermal image state of the electric equipment.
For example, the detailed information about the thermal state of the electrical equipment may include thermal image, color, shape (e.g., circle), image, numeric, abbreviation, image (e.g., Detailed description, and the like). However, the present invention is not limited thereto, and may include any kind of detail information as long as the thermal state of the electrical equipment can be expressed in detail.
In addition, the electric equipment integrated
In addition, the electrical equipment integrated
In addition, the electric equipment integrated
Here, the thermal image state of each electric facility by day / day / week / month / quarter / year is a thermal image state of at least one point of the electric facility (day / day / week / month / Temperature state).
In addition, the electrical equipment monitoring apparatuses 100-1 through 100-N for implementing the electrical equipment integrated management method according to an embodiment of the present invention may further include the
The
In one example, the
In another example, the
In another example, the
That is, the
In addition, the
Herein, the radiographic camera generally means a camera, but the present invention is not limited thereto, and any device can be used as long as it is an apparatus capable of capturing real image information of an electric facility by photographing electric facilities.
For example, the real camera may include at least one of an IP camera, a CCTV, an omnidirectional camera, a laser scanner, a mobile communication terminal, a PTZ (Pan Tilt Zoom) camera, a temperature sensor, an infrared sensor, and a thermal sensor. In particular, the mobile communication terminal includes a camera and is capable of capturing an image and transmitting the acquired image to a server or another terminal. The terminal may be a personal digital assistant (PDA), a smart phone or a 3G terminal . ≪ / RTI >
As described above, the electrical equipment monitoring apparatuses 100-1 to 100-N for realizing the integrated electrical equipment management method according to the embodiment of the present invention can be implemented as analog The quantization result value and the real image information can be measured, converted, or obtained, respectively. However, the present invention is not limited to this, and it is possible to acquire an analog image for the electrical equipment through the
The
As described above, the device identification information together with the real image information of the electric equipment can be transmitted to the electric equipment integrated
The electric equipment integrated
In addition, the electric equipment integrated
In addition, the electric equipment integrated
In other words, the electric equipment integrated
Here, the real image state of the electrical equipment may include a real image state for at least one point of the electrical equipment. In addition, the actual picture state of the electrical equipment may include a live picture of the electrical equipment, a temperature magnitude, a temperature condition rating, a name and location for at least one point, and so on.
In one example, the electrical equipment integrated
In another example, the electrical equipment integrated
In another example, the electrical equipment integrated
In addition, the electric equipment integrated
That is, the electrical equipment integrated
In one example, the electrical equipment integrated
In another example, the electrical equipment integrated
Here, the brief information on the real image state of the electric equipment may be information expressed in an image or text as a real image state of the electric equipment.
For example, the brief information on the actual image condition of the electric equipment may include a real image, a color, a shape (e.g., circle), an icon, a number, an abbreviation, an image (e.g., A brief description, and the like), but it is not limited thereto, and any kind of brief information can be included as long as the actual picture condition of the electric equipment can be expressed briefly.
Here, the detailed information on the real image state of the electrical equipment may be information expressed in detail in the form of an image or text in the real image state of the electrical equipment.
For example, the detailed information on the real image condition of the electric equipment may include a real image, a color, a shape (e.g., a circle), an icon, a number, an abbreviation, an image (e.g., Detailed description, etc.). However, the present invention is not limited to this, and any kind of detail information can be included as long as the real image condition of the electric equipment can be expressed in detail.
In addition, the electrical equipment integrated
In addition, the electrical equipment integrated
Also, the electrical equipment integrated
As described above, the electric equipment monitoring apparatuses 100-1 to 100-N for implementing the electric equipment integrated management method according to an embodiment of the present invention can be implemented separately or at different times in the thermal
That is, the electrical equipment monitoring apparatuses 100-1 to 100-N for implementing the electrical equipment integrated management method according to an embodiment of the present invention acquires thermal image information of the electrical equipment through the
The
Then, the electric equipment integrated
Then, the electric equipment integrated management server (200) manages the thermal state and the real image of at least one point of the electric equipment for each place of the electric equipment based on the real image information and the thermal image information of the databased and / It is possible to provide the electric equipment integrated management service so that the status is displayed on the display screen.
In one example, the electrical equipment integrated
In another example, the electrical equipment integrated
That is, the electric equipment integrated
As described above, the electric equipment integrated management system for implementing the electric equipment integrated management method according to an embodiment of the present invention is a system for taking an electric equipment through a thermal camera module and generating thermal images Acquires real image information of the electric equipment by photographing the electric equipment through the real camera module, matches the real image information and the thermal image information of the electric equipment with the electric equipment by the electric equipment integrated management server By providing an electrical equipment integrated management service so that the thermal image state for at least one point of the electrical equipment is displayed on the real image of the electrical equipment, It is possible to easily identify the abnormality, so that the electric equipment can be efficiently managed.
In addition, the electrical equipment monitoring apparatuses 100-1 to 100-N for implementing the integrated electrical equipment management method according to an embodiment of the present invention may further include a
For example, the
That is, the
The
The
As described above, the electric equipment integrated management system for implementing the electric equipment integrated management method according to an embodiment of the present invention includes an electric equipment monitoring device, a fan pan of the infrared camera module, Or tilt operation to change the object to be photographed or to control the zoom operation of the thermal imaging camera module or the real image camera module to enlarge or reduce the object to be photographed so that the electric equipment monitor The surface temperature of at least one of the points can be precisely measured, so that the temperature condition of the electric equipment can be accurately monitored in the electric equipment integrated management server.
In addition, the electrical equipment monitoring apparatuses 100-1 to 100-N for implementing the integrated electrical equipment management method according to an embodiment of the present invention include a temperature /
The temperature and
Here, the plurality of sensors may include a temperature sensor, a humidity sensor, and the like. The temperature sensor may include, but is not limited to, a sensor of at least one of a thermocouple, a metal temperature measuring resistor, a thermistor, a semiconductor (IC) temperature sensor, a magnetic temperature sensor, a thermopile, Any sensor can be included as long as the temperature inside and outside the apparatuses 100-1 to 100-N can be measured.
The humidity sensor may be a dew point humidity sensor, a lithium chloride dew point humidity sensor, a volumetric humidity sensor, an electrolytic humidity sensor, a weight humidity sensor, a drywall humidity sensor, a carbon film humidity sensor, an electric humidity sensor, But is not limited to, at least one of a sensor, a color humidity sensor, a near infrared ray humidity sensor, a microwave humidity sensor, a diffusion type humidity sensor, and a discharge type humidity sensor. N) Any sensor can be included if it can measure the humidity inside or outside.
The temperature and
That is, when the temperature and humidity values inside the electrical equipment monitoring apparatuses 100-1 to 100-N measured by the temperature and
Specifically, the
Also, the temperature and
For example, the temperature and
As described above, the electric equipment integrated management system for implementing the electric equipment integrated management method according to an embodiment of the present invention is characterized in that the temperature and humidity values inside the device measured by the temperature sensor module When the temperature and humidity are outside the predetermined range, the operation of the temperature and humidity control module is controlled so that the temperature and humidity inside the device are kept within the predetermined temperature and humidity range. Since the temperature and humidity are always maintained in a steady state, it is possible to prevent the malfunction of the electrical equipment monitoring apparatus, so that the temperature state of the electrical equipment can be accurately monitored at the electrical equipment integrated management server.
The
For example, the
The
The
For example, when the temperature and humidity values inside the electrical equipment monitoring apparatuses 100-1 to 100-N measured by the temperature and
Also, the
The
Here, the power conversion unit may be connected to an external power source. Also, the power conversion unit may receive a DC power or an AC power from an external power source. In addition, the power conversion unit converts the supplied DC power or AC power to generate a converted power.
In one example, when the power source is a DC power source, the power conversion unit may include a DC-DC converter or a DC-AC converter. In another example, when the power source is an AC power source, the power conversion unit may include an AC-DC converter or an AC-AC converter.
The battery charging unit may be connected to the power conversion unit. In addition, the battery charging unit may receive power converted from the power converting unit. The battery charging unit may charge the battery with electrical energy corresponding to the converted power source.
The battery may be connected to a battery charging unit. In addition, the battery may be supplied with electric energy from the battery charging unit. In addition, the battery may be charged according to the electric energy supplied from the battery charging unit.
The distributor may be connected to the battery. In addition, the distributor may be provided with electric energy charged from the battery. Also, the distributing unit may distribute the charged electric energy to generate distributed electric energy having different sizes.
Further, the distributing unit may provide the distributed electric energy to the respective components of the electric equipment monitoring apparatuses 100-1 to 100-N. Here, the distributing unit may include a Switching Mode Power Supply (SMPS).
Referring to FIG. 2B, the electrical equipment monitoring apparatuses 100-1 to 100-N for implementing the integrated electrical equipment management method according to an embodiment of the present invention include three
That is, the thermal
In addition, a transmission /
The transmission /
Referring to FIG. 2C, in the
Here, the thermal
The temperature and
The temperature and
Further, the control board may have a pattern (e.g., a conductor pattern or the like) capable of mounting circuit elements and transmitting electrical signals between the mounted circuit elements. Here, the circuit elements may include a
The
The I / O port is an input / output port for transmitting and receiving data and information to and from the
2D, a
Here, the thermal
Here, the thermal
Here, the presetting precision of the pan and tilt may be 0.1 °, the rotation angle of the pan may be 0 to 355 °, the rotation angle of the tilt may be -70 ° to + Lt; / RTI >
1 and 2A to 2D, an electrical equipment integrated
That is, the electric equipment integrated
When the electric equipment integrated
In addition, the electric equipment integrated
Here, the listed electric equipment monitoring list does not have a certain form (for example, a table, etc.), and the current temperature value, the temperature condition rating and the name of the at least one point of the electric equipment can be easily And may include any form of form (eg, a table, etc.) as long as it can be expressed in a form that can be expressed.
Also, when the electrical equipment integrated
Here, the log may be referred to as a log file, which records the actions of a user (or an administrator, etc.) connected to the system. Therefore, such logs include information in a secure sense such as what an attacker who has made an external attack did in the system or which commands the user (or manager) used, And the like.
Also, when the electric equipment integrated
Here, the interest period set by the administrator may include at least one of daily, weekly, weekly, monthly, quarterly, and yearly, but is not limited thereto and may be set to an arbitrary period by the administrator. In addition, the interest period set by the administrator can be set to one period, but not limited thereto, and can be set to a plurality of periods.
Here, the search view temperature graph does not have a certain form (for example, a graph, etc.), but can be expressed in any form as long as the temperature value and the external atmosphere temperature value for at least one point of the electric equipment can be represented by the color corresponding to the temperature value (For example, a graph or the like).
When the electric equipment integrated
Here, the reported search view report does not have a certain form (for example, a report including a table and a graph or the like), but includes a temperature value, a maximum temperature value, and an external air temperature value (For example, a report including a table and a graph, etc.) can be presented in a form that can be easily and easily recognized by the administrator.
When the electric equipment integrated
Here, the list of the listed system logs does not have a certain form (for example, a table, etc.), but a system log indicating the status of the current system can be displayed in a form that can be easily and easily recognized by the administrator. For example, a table, etc.).
Also, when the electric equipment integrated
Here, the interest period set by the administrator may include at least one of daily, weekly, weekly, monthly, quarterly, and yearly, but is not limited thereto and may be set to an arbitrary period by the administrator. In addition, the interest period set by the administrator can be set to one period, but not limited thereto, and can be set to a plurality of periods.
Here, the trend view temperature graph does not have a certain form (for example, a graph, etc.) and can be displayed in any form (for example, , Graphs, etc.).
When the electric equipment integrated
Here, the trended view report may not have a certain form (for example, a report including a table and a graph, etc.), but may be a simple and easy to understand temperature value for at least one point of the electric equipment And may include any form of form (eg, a report including tables, graphs, etc.) as long as it can be expressed in a form.
Also, when the electrical equipment integrated
Here, the interest period set by the administrator may include at least one of daily, weekly, weekly, monthly, quarterly, and yearly, but is not limited thereto and may be set to an arbitrary period by the administrator. In addition, the interest period set by the administrator can be set to one period, but not limited thereto, and can be set to a plurality of periods.
As described above, the electric equipment integrated management system for implementing the electric equipment integrated management method according to an embodiment of the present invention includes a POS view, a MONITORING view, By providing various modes such as STATUS VIEW, SEARCH VIEW, TREND VIEW and ALARM VIEW to the administrator, it is possible for the electric facility manager to control the electric power of each electric The temperature condition of the electric equipment disposed in the facility can be managed integrally and efficiently, so that the electric equipment can be efficiently and integrally managed.
3A to 3D are photographs for explaining a display screen of an electric equipment integrated management server for implementing an integrated electric equipment management method according to an embodiment of the present invention.
Referring to FIG. 3A, an integrated electrical
Here, the twenty-seven points of the electrical equipment can be roughly classified into a clamp, a connector, a terminal, a spacer, a bushing, a coupler, a terminal lug a terminal lug, a cable, a conservator, and the like.
Referring to FIG. 3B, the electrical equipment integrated
Here, the 2D or 3D electrical installation image may be pre-set and pre-stored or interfaced with the Internet electrical installation image, and may also be a true image obtained through the
That is, the electric equipment integrated
Then, the electrical equipment integrated
Referring to FIG. 3C, an electric equipment integrated
That is, the electric equipment integrated
The integrated electrical
That is, as shown in the figure, the electric equipment integrated
Hereinafter, an electric equipment integrated management method according to an embodiment of the present invention will be described with reference to the accompanying drawings. Particularly, a part overlapping with the electric equipment integrated management system for implementing the electric equipment integrated management method according to the embodiment of the present invention described above with reference to FIG. 1, FIG. 2A to FIG. 2D and FIG. 3A to FIG. For brevity, the following description is omitted.
4, 5A to 5B, and 6A to 6F are flowcharts for explaining an electric equipment integrated management method according to an embodiment of the present invention.
4 is an overall flowchart for explaining an electric equipment integrated management method according to an embodiment of the present invention.
Referring to FIG. 4, an integrated electrical equipment management method according to an embodiment of the present invention is arranged in a place of an electrical equipment where electrical equipment for generating, converting, or transmitting electric power is installed so that a power user of the power consumer can use electric power And at least one electric equipment monitoring apparatus 100-1 to 100-N and an electric equipment integrated
First, the surface temperature of at least one point of the electric equipment is measured through each of the electric equipment monitoring apparatuses 100-1 to 100-N to obtain temperature information of the electric equipment, and temperature information of the electric equipment Together with the device identification information (S100).
Here, the electric equipment includes electric power generating facilities for generating electric power, substation facilities for converting electric power, transmission facilities for transmitting the electric power of the electric power generating facilities to electric power distribution facilities, electric power distribution facilities for transmitting electric power to electric power consumers, An incoming reception facility and an electrical raw material storage facility for storing the electrical raw material to produce electric power.
That is, in the step S100, the electric equipment, that is, the electric equipment, the power supply equipment, the transmission equipment, the power supply equipment, the electricity receiving equipment, and the electric material storage equipment are constituted through the respective electric equipment monitoring devices 100-1 to 100- It is possible to obtain the temperature information of the electric equipment by measuring the surface temperature of the point where the respective electric devices are connected to each other and transmit the device identification information together with the obtained temperature information of the electric equipment.
In particular, the surface temperature for the point at which each electrical device is connected may be the surface temperature for electrical devices that are disposed between and connect (or connect to, etc.) or insulate the electrical devices.
For example, in the step S100, a clamp, a connector, a terminal, a spacer, a bushing, a coupler (not shown) are connected through the electric equipment monitoring apparatuses 100-1 to 100- ), A terminal lug and a cable to obtain temperature information of the electric equipment and transmit the device identification information together with the temperature information of the obtained electric equipment .
After the step S100, the device identification information is received together with the temperature information of the electric equipment transmitted in the step S100 through the electric equipment integrated
Specifically, the step S200 first receives the device identification information together with the temperature information of the electrical equipment transmitted in the step S100 through the electrical equipment integrated
Then, the temperature information of the electrical equipment, which is databaseized for each electric facility location, can be encrypted, stored and managed through the electric facility integrated
Then, the temperature status of the electrical equipment is displayed and transmitted on the display screen for each electrical equipment location based on the temperature information of the electrical equipment that is databaseized and / or encrypted for each place of the electrical equipment through the electrical equipment integrated
Here, the temperature condition of the electrical equipment may include a surface temperature condition for at least one point of the electrical equipment. The temperature condition of the electrical equipment may also include the temperature magnitude of the electrical equipment, the temperature condition rating, the name and location of at least one point, and so on.
Here, the electric equipment integrated management service can be provided through the electric equipment integrated
In other words, the positional analysis (or extraction, etc.) of at least any one point of the electric equipment based on the temperature information of the electrical equipment databaseed and / or encrypted by the electric equipment location through the electric equipment integrated
In one example, simple information and / or detailed information on the temperature status of the electrical equipment is mapped on the predetermined 2D or 3D electrical equipment image through the electrical equipment integrated
In another example, it may be associated with an internet electrical equipment image (e.g., 2D or 3D, etc.) via the electrical equipment integrated
Specifically, the step S200 first receives the device identification information together with the temperature information of the electrical equipment transmitted in the step S100 through the electrical equipment integrated
Then, the temperature information of the electrical equipment, which is databaseized by the location of the electric equipment, can be encrypted through the electric equipment integrated
Then, based on the temperature information of the electric equipment by day, day, week, month, quarter, and year, which is databaseized and / or encrypted according to the location of the electric equipment through the electric equipment integrated
Here, the temperature status of the electrical equipment by day / day / week / month / quarter / year may include a surface temperature state by day / day / week / month / quarter / year for at least one point of electric equipment.
Specifically, the step S200 first receives the device identification information together with the temperature information of the electrical equipment transmitted in the step S100 through the electrical equipment integrated
Then, the temperature information of the electrical equipment, which is databaseized for each electric facility location, can be encrypted, stored and managed through the electric facility integrated
Then, based on the temperature information of the electrical equipment databaseed and / or encrypted by the electrical equipment location via the electrical equipment integrated
That is, the electric equipment integrated
If the at least one point of the electrical equipment is a plurality of points, the electrical equipment integrated
Then, the
Here, the electrical equipment integrated
In addition, the temperature and humidity of the inside of the apparatus are measured through the electric equipment monitoring apparatuses 100-1 to 100-N before, after or after the step S100, and the temperature / humidity value The operation of at least one of the heater and the fan can be controlled so that the temperature and humidity inside the apparatus are maintained within the predetermined temperature / humidity normal value range.
That is, before, after, or after the step S100, the temperature and humidity sensors 100-1 to 100-N provided in the electric equipment monitoring devices 100-1 to 100-N, that is, the electric equipment monitoring devices 100-1 to 100- The temperature and humidity of the inside of the apparatus are measured through the
In addition, in step S200, the electric equipment integrated
In step S100, the electrical equipment monitoring apparatuses 100-1 through 100-N measure the thermal energy generated on the surface of the electrical equipment by photographing the electrical equipment through the at least one thermal
5A and 5B are specific flowcharts for explaining an electric equipment integrated management method according to an embodiment of the present invention.
Referring to FIG. 5A, steps S111 and S113 to be described later may be performed through the electrical equipment monitoring apparatuses 100-1 to 100-N in step S100.
First, the electrical equipment is photographed through at least one thermal
After the step S111, the device identification information together with the thermal image information of the electrical equipment obtained in the step S111 through the electrical equipment monitoring apparatuses 100-1 to 100-N is transmitted to the electrical equipment integrated management server 200 (S113).
Meanwhile, steps S211, S213, and S215 described later may be performed through the electrical equipment integrated
First, the device identification information is received together with the thermal image information of the electrical equipment transmitted in the step S100, that is, the step S113 through the electrical equipment integrated
After the step S211, the thermal image information of the electrical equipment databaseed for each electrical equipment location can be encrypted, stored and managed through the electrical equipment integrated management server 200 (S213).
After the step S213, the thermal image state of the electric equipment is displayed on the display screen for each electric equipment location based on the thermal image information of the electric equipment databaseed and / or encrypted for each electric equipment place through the electric equipment integrated
Specifically, in step S215, it is determined whether detailed information and / or detailed information on the thermal state of the electrical equipment on the display screen on the predetermined image through the electrical equipment integrated
That is, in step S215, based on the thermal image information of the electrical equipment databaseed and / or encrypted for each place of the electric equipment through the electric equipment integrated
In one example, in step S215, simple information and / or detailed information on the thermal state of the electrical equipment is mapped on the predetermined 2D or 3D electrical equipment image through the electrical equipment integrated
In another example, in step S215, the electric equipment integrated
Specifically, in step S211, the device identification information is received together with the thermal image information of the electrical equipment transmitted in step S100, that is, the step S113, through the electrical equipment integrated
Then, in step S213, the thermal image information of the electrical equipment for each electric facility location, which is databaseized by day / day / week / month / quarter / year, is encrypted and stored and managed through the electric equipment integrated
Then, in step S215, based on the thermal image information of the electrical equipments by day, day of the week / week / month / quarter / year by database and / or encrypted by the electric facility location through the electric equipment integrated management server 200 A thermal image state of each electric facility by day, day, week, month, quarter, and year is displayed on the display screen, and transmitted to the administrator terminals 300-1 to 300-N, It is possible to provide the electric equipment integrated management service so that the electric equipment can be output through
Referring to FIG. 5B, steps S121, S123 and S115 to be described later may be performed in the step S100 through the electrical equipment monitoring apparatus.
First, the electrical equipment is photographed through at least one thermal
After step S121, the electric equipment can be photographed through at least one
Here, the step S123 is described as being performed after the step S121, but the present invention is not limited thereto and may be performed before the step S121.
In the step S121 or S123, in accordance with the position control signal of the
After step S123, the thermal image information of the electrical equipment obtained in step S121 and the real image information of the electrical equipment obtained in step S123 via the electrical equipment monitoring apparatuses 100-1 to 100-N and the device identification Information to the electric equipment integrated
In step S200, steps S221, S223, and S225 described later may be performed through the electric equipment integrated management server.
First, the device identification information is received together with the real image information and the thermal image information of the electrical equipment transmitted in the step S100, that is, the step S125, through the electrical equipment integrated
After the step S221, the real image information and the thermal image information of the electrical equipment databaseed by the electrical equipment location can be encrypted, stored and managed through the electrical equipment integrated management server 200 (S223).
After step S223, on the basis of the real image information and the thermal image information of the electrical equipment databaseed and / or encrypted through the electrical equipment integrated
In one example, at step S225, based on the image information and the thermal image information of the electrical equipment databaseed and / or encrypted through the electrical equipment integrated
In another example, in step S225, on the basis of the real image information and the thermal image information of the electrical equipment databaseed and / or encrypted through the electrical equipment integrated
That is, at step S225, based on the real image information and the thermal image information of the electrical equipment databaseed and / or encrypted through the electrical equipment integrated
6A to 6F are flowcharts for explaining an operational flow when an integrated electrical equipment management method according to an embodiment of the present invention is operated in various modes.
FIG. 6A is a flowchart for explaining an operational flow when an integrated electrical equipment management method according to an embodiment of the present invention is operated in a position view. FIG.
Referring to FIG. 6A, first, device identification information is received together with real image information and thermal image information of the electric equipment transmitted in step S100 through the electric equipment integrated
After the step S231, the real image information and the thermal image information of the electrical equipment databaseed by the electrical equipment location in the step S231 can be encrypted, stored and managed through the electrical equipment integrated management server 200 (S233).
After the step S233, the electrical equipment integrated
After step S235, on the basis of the real image information and the thermal image information of the electrical equipment databaseed and / or encrypted in step S233 through the electrical equipment integrated
FIG. 6B is a flowchart for explaining an operational flow when the integrated electrical equipment management method according to an embodiment of the present invention is operated as a monitoring view.
Referring to FIG. 6B, first, device identification information is received together with real image information and thermal image information of the electrical equipment transmitted in the step S100 through the electrical equipment integrated
After step S241, the real image information and the thermal image information of the electrical equipment databaseed by the electrical equipment place in step S241 can be encrypted and stored and managed through the electrical equipment integrated management server 200 (S243).
After the step S243, the electric equipment integrated
After step S245, on the basis of the real image information and the thermal image information of the electrical equipment databaseed and / or encrypted in step S243 via the electrical equipment integrated
FIG. 6C is a flowchart for explaining an operational flow when the electric equipment integrated management method according to an embodiment of the present invention is operated in a status view. FIG.
Referring to FIG. 6C, first, device identification information is received together with real image information and thermal image information of the electrical equipment transmitted in step S100 through the electrical equipment integrated
After step S251, the real image information and the thermal image information of the electrical equipment databaseed by the electrical equipment location can be encrypted and stored and managed through the electrical equipment integrated
After the step S253, the electric equipment integrated
After step S255, on the basis of the real image information and the thermal image information of the electrical equipment databaseed and / or encrypted in step S253 via the electrical equipment integrated
FIG. 6D is a flowchart for explaining an operational flow when the electric equipment integrated management method according to the embodiment of the present invention is operated as a SEARCH VIEW.
Referring to FIG. 6D, the apparatus identification information is received together with the real image information and the thermal image information of the electrical equipment transmitted in step S100 through the electrical equipment integrated
After the step S261, the real image information and the thermal image information of the electrical equipment databaseed for each electrical equipment location can be encrypted, stored and managed through the electrical equipment integrated
After the step S263, the electric equipment integrated
After step S265, based on the image information and the thermal image information of the electrical equipment databaseed and / or encrypted in step S263 via the electrical equipment integrated
In addition, in step S267, the thermal image state and the real image state of the current electrical equipment with respect to at least one point of the electrical equipment through the electrical equipment integrated
Also, in step S267, the system log list listing the system log indicating the current system status is displayed on the display screen or outputted through the
FIG. 6E is a flowchart for explaining an operation flow when the electric equipment integrated management method according to an embodiment of the present invention is operated in a trend view.
Referring to FIG. 6E, first, device identification information is provided together with real image information and thermal image information of the electrical equipment transmitted in step S100 through the electrical equipment integrated
After the step S271, the real image information and the thermal image information of the electrical equipment databaseed by the electrical equipment place in the step S271 can be encrypted, stored and managed through the electrical equipment integrated management server 200 (S273).
After the step S273, the electric equipment integrated
After step S275, based on the real image information and the thermal image information of the electrical equipment databased and / or encrypted in step S273 via the electrical equipment integrated
Further, in step S277, a trend view report in which the temperature value of at least one point of the corresponding electric equipment is reported during the period of interest set by the manager through the electric equipment integrated
FIG. 6F is a flowchart for explaining an operational flow when the integrated electrical equipment management method according to an embodiment of the present invention is operated as an alarm view.
Referring to FIG. 6F, the apparatus identification information is received together with the real image information and the thermal image information of the electrical equipment transmitted in step S100 through the electrical equipment integrated
After the step S281, the real image information and the thermal image information of the electrical equipment databaseed by the electrical equipment place in the step S281 can be encrypted, stored and managed through the electrical equipment integrated management server 200 (S283).
After the step S283, the electric equipment integrated
After the step S285, based on the real image information and the thermal image information of the electrical equipment databased and / or encrypted in the step S283 through the electrical equipment integrated
Hereinafter, a configuration and function of a display screen of an electric equipment integrated management server displayed through an integrated electric equipment management method according to an embodiment of the present invention will be described with reference to the accompanying drawings.
FIGS. 7A to 17 are photographs illustrating a display screen configuration and functions of an electric equipment integrated management server displayed using an integrated electric equipment management method according to an embodiment of the present invention.
7A to 18, an electrical equipment integrated
7A and 7B are photographs illustrating a display screen configuration and functions when the electric equipment integrated management server for implementing the electric equipment integrated management method according to an embodiment of the present invention is operated in the system start mode.
Referring to FIG. 7A, when the electric equipment integrated
Then, when the shortcut icon is double-clicked by an administrator input signal (for example, an execution signal), the system implemented by the electric equipment integrated management method can be executed.
Referring to FIG. 7B, when the shortcut icon is double-clicked, a log-in window may be displayed on the display screen. Here, the login window may include a user name and a user password input window, an OK and a cancel click window, and the like.
8 to 13 are photographs for explaining the display screen configuration and functions when the electric equipment integrated management server for implementing the electric equipment integrated management method according to the embodiment of the present invention is operated in the electric equipment management mode.
8 to 13, an electrical equipment integrated
FIG. 8 is a photograph for explaining a display screen configuration and functions when an electric equipment integrated management server for implementing an integrated electric equipment management method according to an embodiment of the present invention is operated in a POSITION VIEW mode.
8, when the electrical equipment integrated
Here, when the electric equipment integrated
Also, when the electrical equipment integrated
On the other hand, if the electric equipment integrated
In addition, when there are settings and changes to the setting of the measurement area (ROI), the position indication of the corresponding measurement area (ROI) can be set using a mouse drag.
The storage of each measurement point may be stored in a position other than the position view mode and moved to another view mode and then moved to the preview mode.
FIG. 9 is a photograph for explaining a display screen configuration and functions when an electric equipment integrated management server for implementing an integrated electric equipment management method according to an embodiment of the present invention is operated in a monitoring view mode.
9, when the electrical equipment integrated
Here, the list of the measurement point and the measurement area ROI may include information such as No., Name, ROI Name, Temp and DT, and Status information.
Particularly, when the measurement point and the measurement point are changed, the list of the measurement point and the measurement area (ROI) can be re-searched. The temperature value indicated in each table may be a temperature value at the time when the real image and thermal image temperature values of the electrical equipment are stored.
Then, the temperature measurement values of the respective measurement points (for example, normal, warning, alarm, and the like) corresponding to the comparison result are compared with each measurement point temperature value and a predetermined temperature normal value range corresponding to each measurement point Status information can be displayed by color.
10 is a photograph for explaining the display screen configuration and functions when the electric equipment integrated management server for implementing the electric equipment integrated management method according to the embodiment of the present invention operates in the status view mode.
10, when the electrical equipment integrated
That is, the measurement point state of the measurement point degradation phase may be displayed on the upper left of the display screen, and the measurement point state on the measurement point misalignment may be displayed on the upper right side of the display screen.
A system log indicating the current system status can be displayed at the bottom of the display screen. Here, the system log may include a thermal image and a real image storage state, a moving state of a pan tilt driver, and the like.
11A to 11C are diagrams for explaining a display screen configuration and function when the electric equipment integrated management server for implementing the electric equipment integrated management method according to the embodiment of the present invention operates in a SEARCH VIEW mode Pictures.
11A, when the electric equipment integrated
Here, SEARCH VIEW mode has search function for data log and system log. That is, the data log search can search the temperature information and the chart for one measurement range within one measurement point. Also, the system log search can search the system log indicating the status information of the current system.
When a search is performed by inputting a measurement point, a measurement area (ROI) and a period (or a period of interest) in the search view menu window, a corresponding search view chart may be displayed on the display screen.
If the small points included in the search view chart are double-clicked, a thermal image and a real image of the measurement point corresponding to the double-clicked small points can be displayed on the display screen.
If you drag the search view chart from left to right with the left mouse button, the size of the search view chart can be enlarged. On the other hand, if the chart is dragged from right to left, the size of the search view chart can be restored to its original state. Then, you can move the search view chart up / down / left / right through the right mouse button.
Referring to FIG. 11B, when the daily report and monthly report search view menu window is clicked, the daily report and the monthly report can be displayed on the display screen.
Here, the daily report (or the daily report) includes a daily maximum temperature value, a current thermal image and a real image, a temperature value per time period, and an external waiting period per time zone, Temperature value, and the like.
The monthly report includes a monthly maximum temperature for the measurement area of the measurement point based on the month when the manager starts searching (i.e., when the manager searches September 30 to October 05, September) Value, a current thermal image and a real image, a daily temperature value, a daily maximum temperature value, and a daily external air temperature value.
Referring to FIG. 11C, when the system log search view menu window is selected, a list indicating the state of the current system, that is, a list of system logs listed, may be displayed on the display screen. Here, the listed system log list may include DATE (date), LEVEL (grade), and LOG (log) information.
12A and 12B are diagrams for explaining the display screen configuration and function when the electric equipment integrated management server for implementing the electric equipment integrated management method according to the embodiment of the present invention is operated in a TREND VIEW mode Pictures.
12A, when the electrical equipment integrated
After setting a search period in the trend view menu window and selecting an area of interest to be confirmed, corresponding trend view tables and trend view charts may be displayed on a display screen. Particularly, on the trend view chart, as shown in the figure, the external atmosphere temperature can be represented by the thickest line.
Referring to FIG. 12B, when the TREND report in the trend view menu window is clicked, when the manager searches for the month in which the search is started (that is, when the manager searches September 30 to October 05, it corresponds to September) In the selected measurement area, a reported Trent view report containing only the daily maximum temperature value can be displayed on the display screen.
13 is a photograph for explaining a display screen configuration and a function when an electric equipment integrated management server for implementing an integrated electric equipment management method according to an embodiment of the present invention operates in an alarm view mode.
13, when the electrical equipment integrated
Here, after setting the search period in the alarm view menu window and selecting the region of interest to check, the stored alarm log can be searched. In particular, the alarm log can be recorded (or stored) when the temperature of the measurement point exceeds the preset temperature normal value range and a notification generation signal is generated.
When the alarm log is searched, the alarm view table may be displayed on the display screen. When the alarm view table is double-clicked, the real image information and the thermal image information of the measurement area when the alarm log is generated can be displayed on the display screen.
14 to 17 are photographs for explaining a display screen when the electric equipment integrated management server for implementing the electric equipment integrated management method according to an embodiment of the present invention is operated in the system setting mode.
The electric equipment integrated
First, when the electrical equipment integrated
When a user is clicked on the user management mode menu window, a user management mode sub-menu window including ID (ID), NAME (name), PASSWORD (password), user type (or authority) Lt; / RTI >
After inputting the ID (user name), NAME (name), PASSWORD (password) and user type (or authority) of the user management mode submenu window and clicking apply, a user is added, Can be updated.
Here, the user type (or privilege) may set a user as an administrator (administrator) or a guest (guest). The user set as the admin (administrator) can have an editor, preset setting, interest area setting and search authority. The user set as the guest may have only a minimum authority to confirm only the operating state of the program.
Also, if user modification of the user management mode menu window is clicked, a table including the user list can be displayed on the display screen.
In this case, the user can select a user list of the table, select details to be modified, and modify the user. When the application is clicked, the user is modified and the user list can be updated accordingly.
Also, if the user deletion of the user management mode menu window is clicked, a table including the user list can be displayed on the display screen.
Here, if a user list of the table is selected and the details to be deleted are selected and the user is deleted, a confirmation message for confirming deletion of the user may be displayed on the lower left of the display screen. If the user is deleted by clicking the confirmation message, the user list may be updated accordingly.
FIG. 14 is a photograph for explaining a display screen configuration and functions when an electric equipment integrated management server for implementing an integrated electric equipment management method according to an embodiment of the present invention is operated in a camera management mode.
14, when the electrical equipment integrated
Here, the infrared camera and the real camera information may include IP (IP), Port (Port), ID (ID) and Password (password) for each of them. In particular, the camera information management, that is, the thermal imaging camera and the real camera information management can be managed only by the user set as the manager.
The control server and the alarm server connection information may include IP (IP) and Port (Port) for each of them. Here, the control server and alarm server connection information may be connection information with other equipment.
15A and 15B are photographs for explaining the display screen configuration and functions when the electric equipment integrated management server for implementing the electric equipment integrated management method according to the embodiment of the present invention is operated in the location management mode.
15A, when the electrical equipment integrated
Here, the PTZ (Pan Tilt Zoom) control may include a direction key, a low speed control, a high speed control, a FAR, a NEAR, a Zoom +, a Zoom-, a Pan Speed, and a Tilt Speed. In addition, the Zone setting may include setting a number, moving a preset, setting a preset, deleting a preset, and the like. In addition, the thermal imaging camera Focus may include an Auto Focus, a Get Focus, and a Set Focus.
Describing the PTZ (Pan Tilt Zoom) movement, Zoom + and Zoom- of PTZ (Pan Tilt Zoom) control may not be used in a thermal imaging camera having a fixed lens.
In addition, the Pan Speed and Tilt Speed of the PTZ (Pan Tilt Zoom) control may be located at the lower left portion of the left photograph as shown in the figure. The Pan Speed may be a speed at which the camera (e.g., an infrared camera, a real camera, etc.) moves left / right, and the Tilt Speed may be a speed at which the camera moves up / down.
In particular, since the speed of the camera increases as the number of the Pan Speed and Tilt Speed increases, it is desirable to adjust the Pan Speed and the Tilt Speed to a small number for sophisticated operation. In manual operation, the speed (0 ~ 100) can be adjusted by adjusting the values of Pan Speed and Tilt Speed.
In order to use the focus of the thermal imaging camera as a fixed focus, focus information may be obtained by performing a Get Focus operation based on a distance, and then a fixed focus may be used as a set focus.
Continuing to describe the measurement point management, the index can be uniquely set in the Zone setting when registering each preset. First, for the first preset registration, the camera can be moved to a desired point using the PTZ (Pan Tilt Zoom) control. Then, if the number setting is set to 1 in the Zone setting and the preset setting is clicked, a preset 1 can be registered.
Then, for a second preset registration, the camera can be moved to a desired point using the PTZ (Pan Tilt Zoom) control first. Thereafter, if the number setting is set to 2 in the Zone setting and the preset setting is clicked, a preset 2 can be registered.
Hereinafter, the measurement area (ROI) management will be described with reference to FIG. 15B.
To register the measurement area (ROI), first, right-click on the thermal image after registration of the first measurement point, ROI creation, ROI storage, ROI deletion and ROI modification may appear.
Thereafter, if ROI generation is selected, an area box can be created on the thermal image. You can then use the mouse to move the area box or adjust the size. Then, when the right box is clicked again with the area box selected, ROI creation, ROI storage, ROI deletion, and ROI correction may be displayed again.
You can then choose to save the ROI. In particular, if the corresponding index is not found during ROI storage, the bottom image can be selected again as an index. Then, ROI Name and monitoring temperature (that is, normal temperature value) can be selected when ROI storage is selected.
On the other hand, it is possible to additionally register the measurement area ROI by repeating the above-described registration of the ROI from the beginning.
Continuing to describe the modification of the measurement area (ROI), first select the measurement area (ROI) and click the right mouse button to generate ROI, save ROI, delete ROI and modify ROI.
Then, if you choose to modify the ROI, a saving screen may appear. Thereafter, when a Preset of the lower left list image is selected, the Preset is automatically moved to the Preset, and if the ROI is selected, the ROI can be activated in red.
On the other hand, if you have saved all measurement points, you can move to POSITION VIEW. Then, temperature acquisition entities can be moved and edited in a state that is easy to monitor.
16 is a photograph for explaining a display screen configuration and a function when the electric equipment integrated management server for implementing the electric equipment integrated management method according to an embodiment of the present invention is operated in the general setting mode.
16, when the electrical equipment integrated
Here, the system information may include a title and an index. Particularly, a text phrase of the main upper part of the program can be inputted to the title. Then, the expiration information may be selected at the index (for example, the first unit may be selected as 1, and the second unit may be selected as 2).
Here, the database connection may include IP (IP), NAME (name), ID (ID), and Pasword (password). In particular, database connection management can be managed only by a user who is set as an administrator.
17 is a photograph for explaining a display screen configuration and a function when an electric equipment integrated management server for implementing an integrated electric equipment management method according to an embodiment of the present invention is operated in an automatic operation (touring) operation mode.
17, the electric equipment integrated
Here, the touring information may include a touring start, a touring end, a touring interval, a PTZ wait time, a number of times of retesting, and a retest time. In particular, the touring interval may refer to a travel time per preset (e.g., a base of 120 seconds). The PTZ Wait time may be a time (e.g., 60 seconds) during which the temperature information is stored and the image is acquired during the preset movement time.
To explain the operation of the touring, you can input the touring interval and PTZ Wait time first. Thereafter, if the stored monitoring temperature (i.e., the normal temperature value) is exceeded in the measurement area (ROI) setting, the number of retest times and the retest time can be set.
After the setting of the touring interval, PTZ Wait time, retest count and retest time is completed, clicking the touring start will move from the preset 1 stored by the user to the last preset number at each touring interval, Can be obtained. Then, when moving to the last number of the preset, it moves back to the preset No. 1, and the circulation test can be performed by the above-described method.
On the other hand, if the touring end is clicked, the automatic operation (touring) operation may be interrupted. In particular, if the automatic operation (touring) operation is interrupted, a red dot may appear at every measurement point in the POSITION VIEW.
Although the preferred embodiments of the integrated management method for electric equipment according to the present invention have been described, the present invention is not limited thereto. The present invention can be variously modified within the scope of the claims, And this also belongs to the present invention.
100-1 to 100-N: Electrical equipment monitoring device
110: thermal imaging camera module 120:
130: Driving module 140: On / humidity sensor module
150: temperature / humidity control module 160: storage module
170: Communication module 180: Power module
190: Control module
200: Electric equipment integrated management server
300-1 to 300-N: Administrator terminal
400: Notification device
500: Printing device
Claims (24)
(a) measuring the surface temperature of at least one point of the electrical equipment through each electrical equipment monitoring device to obtain temperature information of the electrical equipment, and transmitting the device identification information together with the obtained temperature information of the electrical equipment ; And
(b) receiving the device identification information together with the temperature information of the electric equipment transmitted in the step (a) through the electric equipment integrated management server, and using the information to identify the electric equipment location information corresponding to the electric equipment monitoring device And the temperature information of the electrical equipment is stored and managed in the database according to the searched locations of the electrical equipment. Based on the information, the surface temperature condition of at least one point of the electrical equipment is displayed on the display screen, Providing an integrated management service,
In the step (a), the electrical equipment is photographed through at least one thermal imaging camera module provided in the electrical equipment monitoring device, and the thermal energy generated on the surface of the electrical equipment is measured. Based on the measured temperature information, Acquiring thermal image information included in the electrical equipment, photographing the electrical equipment through at least one real camera module, acquiring real image information of the electrical equipment, And transmits identification information to the electric equipment integrated management server,
In the step (b), the electric equipment integrated management server receives the device identification information together with the thermal image information and the real image information of the electric equipment transmitted in the step (a), and uses the device identification information And stores the real image information and the thermal image information of the electric equipment in a database for storage and management according to the searched electric equipment location, And the thermal image information is matched to display the thermal image state for at least one point of the electric facility on the real image of the electric facility,
In the step (b), the electric equipment integrated management server receives the temperature information and the real image information of the electric equipment from the respective electric equipment monitoring devices, and obtains ambient temperature information of the electric equipment, The temperature rise rate of the electric equipment and the surrounding area is calculated using the value of the actual temperature of the electric equipment, the illuminance of the electric equipment is calculated using the real image information, The calculated temperature rise rate for the corresponding electrical equipment is greater than the predetermined second reference temperature increase rate in a state where the calculated temperature rise rate of the electrical equipment is greater than a predetermined first reference temperature rise rate, If the temperature is higher than the reference temperature rise rate, a notification signal is generated and transmitted to a notification device Provide integrated management services for electric power facilities,
After the step (b), a notification is generated by receiving the notification generation signal transmitted in the step (b) through the notification generator,
The method for measuring the temperature and humidity of the inside of the electrical equipment monitoring device through the electrical equipment monitoring device at any one of before, after, or after the step (a) Wherein the operation of at least one of the heater and the fan is controlled so that the temperature and humidity of the inside of the electrical equipment monitoring apparatus is maintained within the predetermined temperature and humidity normal value range when the temperature / Facility integration management method.
The electric equipment includes electric power generating facilities for generating electricity, electric power transforming facilities for converting electric power, transmission facilities for transmitting the electric power of the electric power generating facilities to electric power distribution facilities, electric power distribution facilities for transmitting electric power to electric power consumers, An equipment and an electric raw material storage facility for storing an electric raw material for producing electric power,
Wherein each of the electrical equipment monitoring apparatuses obtains temperature information of the electrical equipment by measuring a surface temperature of a point where each of the electrical equipment constituting the electrical equipment is connected to each other in the step (a) Integrated management method.
The surface temperature for the point at which each electrical device is connected may be selected from the group consisting of a clamp, a connector, a terminal, a spacer, a bushing, a coupler, a terminal lug, And a surface temperature of at least one of the cables.
In the step (b), the electric equipment integrated management server receives the device identification information together with the thermal image information of the electric equipment transmitted in the step (a), and uses the device identification information to set predetermined And the thermal image information of the electrical equipment is stored in a database and stored and managed according to the searched locations of the electrical equipment. Based on the database, the thermal image state of at least one point of the electrical equipment And providing an electric equipment integrated management service such that the electric equipment integrated management service is displayed on the set 2D or 3D electric equipment image.
The electric equipment monitoring device controls a pan or tilt operation of the thermal imaging camera module or the real camera module according to a position control signal of a driving module transmitted from the electric equipment integrated management server, Or zooming operation of the thermal imager camera module or the real camera module according to the zoom control signal of the driving module transmitted from the electric equipment integrated management server to enlarge or reduce the object to be imaged Characterized in that the electrical equipment is integrated management method.
In the step (b), the electric equipment integrated management server receives the device identification information together with the temperature information of the electric equipment transmitted in the step (a), and uses the device identification information to determine a preset electric And stores and manages the temperature information of the electric equipment according to the searched location of the electric equipment, by day / day / week / month / quarter / year, and stores and manages the electricity information And the integrated facility management service is provided so that the temperature graph for each day / day of the week / week / month / quarter / year is displayed on the display screen or outputted through the printing device.
In the step (b), when the surface temperature of at least one point of the electrical equipment exceeds a preset temperature normal value range, the integrated equipment management server generates a notification signal and separately Providing an electric equipment integrated management service so as to be transmitted to a provided notification generating device,
Further comprising the step of generating a notification by receiving the notification generation signal transmitted in the step (b) through the notification generating device after the step (b).
Wherein, in the step (b), the electric equipment integrated management server generates a notification signal in the form of an SMS and transmits the generated notification signal to a predetermined administrator terminal.
If at least one point of the electrical installation is a plurality of points,
The electric equipment integrated management server generates a notification signal when the surface temperature for each point of the electric equipment exceeds a preset temperature normal value range corresponding to each point of the electric equipment and outputs the notification signal to the electric equipment And the integrated facility management service is provided so that the integrated facility management service is transmitted to the disposed notification device.
In the step (b), when the electric equipment integrated management server operates in a POSITION VIEW mode according to a manager input signal inputted by an administrator, the electric equipment integrated management server transmits electric power through each electric equipment monitoring device Based on the real image information and the thermal image information of the electric equipment transmitted, the electric image data of the electric equipment and the thermal image information Matching information of at least one of a current temperature value, a temperature condition grade and a name for at least one point of the electric facility, in real time on the real image of the electric installation, And the integrated facility management service is provided.
In the step (b), when the electric equipment integrated management server operates in a monitoring view mode according to a manager input signal input by an administrator, the electric equipment integrated management server transmits, through each electric equipment monitoring device, Based on the real image information and the thermal image information of the electric equipment transmitted, and the current temperature of at least one point Value, a temperature status grade, and a name, and displays the list of monitored electrical equipment on a display screen or provides the integrated management service of electrical equipment so that the list is output through the printing device.
In the step (b), when the electric equipment integrated management server is operated in a status view mode according to an administrator input signal input by an administrator, the electric equipment integrated management server transmits the electric equipment monitoring device Based on the real image information and the thermal image information of the electrical equipment in the database based on the real image information and the thermal image information of the electric equipment transmitted through the electric equipment, So that a thermal image state and a real image state of the current electrical equipment at the same point are displayed in respective areas of the display screen and a system log indicating the state of the present system is displayed on a display screen in real time And the integrated management service is provided.
In the step (b), when the electric equipment integrated management server operates in a SEARCH VIEW mode according to a manager input signal input by an administrator, the electric equipment integrated management server transmits Based on the real image information and the thermal image information of the electrical equipment in the database, based on the real image information and the thermal image information of the transferred electric equipment, a thermal image of the present electric equipment to at least one point of the electric equipment The state and the picture-in-picture state are displayed in the respective areas of the display screen, and the temperature value and the outside air temperature value for at least one point of the corresponding electric equipment during the interest period set by the manager are displayed for each color corresponding to the temperature value Characterized in that the electric power facility integrated management service is provided so that the search view temperature graph is displayed on the display screen Integrated facility management.
Wherein the integrated electrical equipment management server is further operable to determine a thermal state and a visible state of the current electrical installation for at least one point of the electrical installation, a temperature value for at least one point of the electrical installation for the period of interest set by the administrator, Wherein the control unit provides the electric equipment integrated management service such that the report of the search view report including at least one of the maximum temperature value and the external atmosphere temperature value is displayed on the display screen or output through the printing apparatus.
Wherein the electric equipment integrated management server provides an electric equipment integrated management service such that a system log list listing system logs indicating the current state of the system is displayed on a display screen or output through a printing device Electric equipment integrated management method.
In the step (b), when the electric equipment integrated management server operates in a trend view mode according to a manager input signal input by an administrator, the electric equipment integrated management server transmits A current temperature value for at least one point of the electrical equipment based on the real image information and the thermal image information of the electrical equipment databaseed in the database based on the real image information and the thermal image information of the transferred electrical equipment, And at least one of the rating and the name of the electrical equipment is displayed on the display screen for each color corresponding to the temperature value and is displayed on at least one spot of the corresponding electrical equipment for the period of interest set by the manager The trend view temperature graph showing the temperature value for each color corresponding to the temperature value is displayed on the display screen. And the integrated facility management service is provided.
Wherein the electric equipment integrated management server includes an electric equipment integration control unit that displays a trend view report in which the temperature value of at least one point of the corresponding electric equipment is reported during a period of interest set by the manager on a display screen or through a printing device, And a management service is provided.
In the step (b), when the electric equipment integrated management server operates in an alarm view mode according to an administrator input signal input by an administrator, the electric equipment integrated management server transmits Based on the real image information and the thermal image information of the electrical equipment in the database, which are database-based on the real image information and the thermal image information of the electric equipment transferred, at least one point When there is an alarm log which is recorded in accordance with a notification occurrence signal generated when the surface temperature of the alarm log exceeds a preset temperature normal value range, the real image information and the thermal image information of the electric equipment at the time of occurrence of the alarm log, And the integrated management service of the electric facility is provided so that the integrated management service of the electric facility is displayed.
In the step (b), the electric equipment integrated management server receives the temperature information of the electric equipment and the ambient temperature information of the electric equipment from each electric equipment monitoring device, and uses the temperature value that changes per predetermined unit time And a control unit for calculating a temperature increase rate of each of the electric equipment and its surroundings in accordance with a unit time and then calculating a temperature increase rate of the electric equipment in a state where the temperature rising rate of the surrounding electric equipment is greater than a predetermined first reference temperature increasing rate, When the temperature rise rate of the electricity generating equipment is higher than a preset second reference temperature increasing rate, generates a notification generating signal and provides the integrated equipment management service to be transmitted to the notification generating device provided separately at the corresponding equipment location,
Further comprising the step of generating a notification by receiving the notification generation signal transmitted in the step (b) through the notification generating device after the step (b).
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