JP2004112873A - Server for providing instantaneous voltage drop support information - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide support information for suitably determining whether or not an instantaneous voltage drop occurs to customers. <P>SOLUTION: This server for providing instantaneous voltage drop support information consists of a lighting strike information receiving part 1A for receiving positional information of a thunderstroke observation point; a transmission system DB1E which stores data of predetermined ID information for every customer, a plurality of power facilities each customer owns, and transmission lines connected between the respective power facilities corresponding to map information; customer information DB1G storing the customer ID information and an IP address corresponding to each other; a range comparing part 1I for reading out the data of the power facilities or the transmission line which exist in a lighting strike region calculated from the positional information of the observation point and the ID information; and an alarm occurrence section 1K for searching for the customer information DB1G with the ID information as a search key, reading out the IP address corresponding to the ID information, and transmitting the warning information to the terminal unit corresponding to the IP address. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an instantaneous voltage drop support information providing server that provides support information on an instantaneous voltage drop occurrence range that occurs in a power transmission system due to, for example, a typhoon or a lightning strike.
[0002]
[Prior art]
Generally, the instantaneous voltage drop refers to a large voltage drop that occurs when a failure occurs in a transmission system such as a transmission line or a substation due to, for example, a typhoon or a lightning strike.
[0003]
The instantaneous voltage drop thus generated may cause damage to computers, magnet switches, home electric appliances, and the like.
[0004]
For example, when a general power consumer installs a cogeneration system as a power generation facility, when an instantaneous voltage drop occurs, an engine or the like that drives the generator is damaged, and the breakage causes the generator to fail. Therefore, the power generation cannot be performed using the cogeneration system, so that the cogeneration system must be repaired while receiving power from the power company.
[0005]
On the other hand, in a production factory or the like, when an instantaneous voltage drop occurs, the excitation of the load conductor or the like is opened, so that the production equipment provided in the factory stops.
[0006]
2. Description of the Related Art Conventionally, as to an efficient demand method of power of a power facility such as a cogeneration system, a method in which an energy service provider instructs the most efficient method has been proposed (for example, see Patent Literature 1).
[0007]
However, there is no technique that provides useful support information for determining whether such a significant momentary voltage drop occurs.
[0008]
Therefore, an operator or a manager of each power generation facility owned by each consumer has determined whether to stop the power generation facility such as the cogeneration system or to separate the power generation facility from the grid based on the lightning strike information.
[0009]
Note that the instantaneous voltage drop may be referred to as an instantaneous voltage drop.
[0010]
[Patent Document 1]
JP 2002-32438 A
[0011]
[Problems to be solved by the invention]
However, in this type of determination method, an appropriate determination is not always made by a customer, and a countermeasure against unnecessary instantaneous voltage drop may be taken.
[0012]
Therefore, the present invention has been made in view of the above circumstances, and provides a customer with support information for making an appropriate determination as to whether or not an instantaneous voltage drop occurs. It is intended to provide a support information providing server.
[0013]
[Means for Solving the Problems]
In order to solve the above-mentioned problem, warning information indicating that there is a possibility of occurrence of an instantaneous voltage drop is connected via a communication network based on position information on a position of a first observation point where a lightning strike has occurred. A first lightning strike information receiving means for receiving instantaneous voltage drop assist information providing server for transmitting to a customer terminal device, the first lightning strike information receiving means for receiving position information of a first observation point transmitted via a communication network; Power system data storage means in which ID information predetermined for each of the plurality of power facilities of the customer, data of transmission lines connected between the power facilities are stored corresponding to the map information, Of the first observation point received by the first lightning strike information receiving means and the customer information storage means in which the ID information and the IP address are stored in correspondence with each other. First transmission line data reading means for reading power equipment or transmission line data stored in the transmission system data storage means existing in the first predetermined area and customer ID information; First IP address reading means for searching the customer information storage means using the ID information read by the electric wire reading means as a search key and reading the corresponding IP address, and IP address read by the first IP address reading means And a first warning information transmitting means for transmitting warning information to a terminal device corresponding to the above.
[0014]
In this way, the first lightning strike information receiving means receives the position information of the first observation point via the communication network, and calculates the first observation point calculated based on the received position information of the first observation point. The power equipment or transmission line data stored in the power transmission system data storage unit existing in the predetermined area and the customer ID information are read by the first transmission line data reading unit, and the read ID information is read. The customer information storage means is searched by the first IP address reading means as a search key, the corresponding IP address is read, and the warning information is sent to the terminal device corresponding to the read IP address by the first warning information transmitting means. Since the information is transmitted, it is possible to provide the customer with support information for making an appropriate determination as to whether or not an instantaneous voltage drop occurs.
[0015]
According to a second aspect of the present invention, in the instant voltage drop assist information providing server according to the first aspect, a second position information receiving unit receives, via a communication network, position information of a second observation point where a lightning strike is predicted. Means, power equipment or transmission line data stored in the transmission system data storage means existing in the second predetermined area calculated based on the position information of the second observation point, and customer ID information; And a second IP address for searching the customer information storage means using the ID information read by the second transmission line reading means as a search key and reading the corresponding IP address. Instantaneous voltage drop support further comprising reading means, and second warning information transmitting means for transmitting warning information to a terminal device corresponding to the IP address read by the second IP address reading means. Is a broadcast providing server.
[0016]
Thereby, the same operation as the operation of the first invention can be achieved.
[0017]
According to a third aspect, alarm information indicating that an instantaneous voltage drop may occur is connected via a communication network based on position information on a position of a first observation point where a lightning strike has occurred. An instantaneous voltage drop support information providing server that transmits to a customer terminal device, wherein the first lightning strike information receiving means receives position information of a first observation point transmitted via a communication network; Predetermined ID information, an instantaneous voltage drop information storage means in which a thundercloud occurrence area when an instantaneous voltage drop occurs is stored in correspondence with map information, and at least customer ID information and an IP address correspond to each other. The stored customer information storage means and the existence area of the thundercloud having an intersection with the first predetermined area calculated based on the position information of the first observation point received by the first lightning strike information receiving means. First thundercloud information reading means for reading the ID information of the customer, and searching the customer information storage means using the customer ID information read by the first thundercloud information reading means as a search key, and reading the corresponding IP address. Providing instantaneous voltage drop support information including third IP address reading means and first alarm information transmitting means for transmitting alarm information to a terminal device corresponding to the IP address read by the third IP address reading means. Server.
[0018]
In this way, the first lightning strike information receiving means receives the position information of the first observation point via the communication network, and calculates the first observation point calculated based on the received position information of the first observation point. The thundercloud existence area having an intersection with the predetermined area and the customer ID information are read by the first thundercloud information reading means, and the customer information storage means uses the read customer ID information as a search key and the third IP information storage means. The IP address is searched by the address reading means, the corresponding IP address is read, and the warning information is transmitted by the first warning information transmitting means to the terminal device corresponding to the read IP address. It is possible to provide the customer with support information for making an appropriate determination as to whether or not the determination is made.
[0019]
According to a fourth aspect, in the instant voltage drop support information providing server according to the third aspect, the second location information receiving via a communication network receives the location information of a second observation point where a lightning strike is predicted. Means, a customer's ID information and a thundercloud existence area having an intersection with a second predetermined area calculated based on the position information of the second observation point received by the second lightning strike information receiving means. A second thundercloud information readout unit for outputting, and a fourth IP address readout for searching the customer information storage unit using the customer ID information read out by the second thundercloud information readout unit as a search key and reading out a corresponding IP address. Means, and second alarm information transmitting means for transmitting alarm information to a terminal device corresponding to the IP address read by the fourth IP address reading means. It is a test server.
[0020]
Thereby, the same operation as that of the third invention can be obtained.
[0021]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, an embodiment of the present invention will be described with reference to the drawings.
[0022]
FIG. 1 shows an instantaneous voltage drop support information providing server 1 according to the present invention, and an instantaneous voltage drop support information including a lightning strike information DB server 3 connected to the instantaneous voltage drop support information providing server 1 via a communication network 2. It is a schematic diagram which shows the example of a structure of a provision system.
[0023]
The lightning strike information DB server 3 has position information (hereinafter, simply referred to as lightning strike occurrence information from a viewpoint of simplifying the description) including a set of latitude and longitude regarding an observation point where a lightning strike is actually occurring. And a set of position information consisting of a set of latitude and longitude for an observation point where a lightning strike is predicted to occur, and a set of position information for an observation point where a thundercloud is predicted to occur (hereinafter, a viewpoint for simplifying the description) (Hereinafter simply referred to as lightning prediction information) is provided for each predetermined observation point, and the lightning occurrence information and the lightning prediction information stored in the lightning information DB 3A are provided. Is retrieved by the DBMS unit 3B, and the read lightning strike occurrence information and the read lightning strike prediction information correspond to the IP address stored in the distribution destination address storage unit 3C. It is transmitted by the lightning information transmission unit 3D to providing server 1.
[0024]
The instantaneous voltage drop support information providing server 1 according to the present invention includes a lightning strike information receiving unit 1A, a lightning strike information updating unit 1B, a lightning strike occurrence information storage unit 1C, a lightning strike prediction information storage unit 1D, a power transmission system DB1E, It is composed of a low information DB 1F, a customer information DB 1G, a search range calculation unit 1H, a range comparison unit 1I, a voltage drop data comparison unit 1J, and an alarm transmission unit 1K.
[0025]
The function of the instantaneous voltage drop support information providing server 1 according to the present invention is realized by a computer whose operation is controlled based on a program installed via a recording medium or a communication network 2.
[0026]
Further, each unit configuring the server may be configured by any of hardware, software, or a combination of hardware and software.
[0027]
This instantaneous voltage drop support information providing system is connected via a communication network 2, for example, the Internet or Ethernet, and is connected to a terminal device 4 provided on the power consumer side.
[0028]
The lightning strike information receiving section 1A receives the lightning strike occurrence information and the lightning strike prediction information transmitted via the communication network 2, and outputs the received lightning strike occurrence information and the lightning strike prediction information to the lightning strike information updating section 1B. With function.
[0029]
The lightning strike information updating unit 1B receives the lightning strike information output from the lightning strike information receiving unit 1A, updates the lightning strike occurrence information in the lightning strike occurrence information storage unit 1C, and stores the lightning strike occurrence information output from the lightning strike information receiving unit 1A. It has a function of receiving prediction information and storing the lightning prediction information in the lightning prediction information storage unit 1D.
[0030]
Lightning strike occurrence information storage section 1C stores lightning strike occurrence information in a readable / writable manner. This stored lightning strike occurrence information is read from the lightning strike occurrence information storage section 1C by the search range calculation section 1H.
[0031]
Lightning strike prediction information storage section 1D stores lightning strike prediction information in a readable / writable manner. This stored lightning prediction information is read from the lightning prediction information storage unit 1D by the sag data comparison unit 1J.
[0032]
In the transmission system DB1E, ID information determined in advance for each customer, position information including a set of latitude and longitude of the power equipment of the customer, and data of a transmission line interconnecting the power equipment are stored in bits. It is stored corresponding to map information in the map format. The transmission line data is represented by line segments corresponding to the bitmap format map information.
[0033]
The voltage sag information DB1F includes position information including a set of latitude and longitude of the power equipment owned by the customer when the instantaneous voltage drop actually occurs, ID information of the customer who owns the power equipment, when an instantaneous voltage drop occurs The location information of the thundercloud occurrence area and the location where the lightning strike occurred at that time is stored in correspondence with the map information in the bitmap format.
[0034]
The customer information DB 1G contains, for each customer, ID information assigned in advance, an IP address of a destination to which alarm information is distributed, position information including a set of latitude and longitude of the power facility, and information generated in the power facility of the customer in the past. The actual data of the instantaneous voltage drop is stored correspondingly.
[0035]
The search range calculation unit 1H has a function of reading the lightning strike occurrence information stored in the lightning strike occurrence information storage unit 1C from the lightning strike occurrence information storage unit 1C, and a function of observing the lightning strike occurrence information, which is the read lightning strike occurrence information. A function of calculating the latitude and longitude data of a search range (hereinafter, referred to as a lightning strike area) corresponding to a circle having a predetermined radius around the point, and a latitude and longitude of the calculated lightning strike area And the function of reading the lightning prediction information from the lightning prediction information storage unit 1D. The function of reading the lightning prediction information from the lightning prediction information storage unit 1D. Then, a function of calculating the latitude and longitude data of a search range (hereinafter, referred to as a lightning prediction area) corresponding to a circle having a predetermined radius from the position information of the predicted observation point, And a function of outputting the data of the lightning prediction region which issued to the instantaneous drop data comparator 1J and scope comparing unit 1I.
[0036]
The range comparison unit 1I has a function of determining whether or not the data of the search range input from the search range calculation unit 1H is related to the lightning strike area, and the function of receiving the data of the lightning strike area from the search range calculation unit 1H. When it is determined that the transmission line data stored in the power transmission system DB1E has a function of retrieving the data of the transmission line, the data relating to the transmission line or the power equipment existing in the lightning strike area as the search result, and the transmission line or the power equipment A function of reading customer ID information, and adding warning information indicating that there is a possibility of an instantaneous voltage drop to the read customer's transmission line or power equipment data and customer ID information. A function of outputting to the alarm transmission unit 1K, and a function of searching the power transmission system DB1E when it is determined that the data of the lightning strike area has not been input from the search range calculation unit 1H. A function of reading data on a transmission line or a power facility existing in the lightning prediction area as the search result and a customer ID having the transmission line or the power facility, and data on the transmission line or the power facility and customer ID information And a function of adding warning information to the warning transmitting unit 1K.
[0037]
The voltage sag data comparing unit 1J has a function of determining whether or not the data of the search range input from the search range calculation unit 1H is related to the lightning strike occurrence region. If it is determined that the instantaneous voltage drop has been input, the instantaneous voltage drop DB1F is searched, and as a result of the search, a thundercloud existing area at the time of a past instantaneous voltage drop having an intersection with a lightning strike occurrence area and a customer who has generated the instantaneous voltage drop To the alarm transmission unit 1K by adding the alarm information indicating that the possibility of instantaneous voltage drop is extremely high to the read thundercloud presence area and the customer ID information. When it is determined that the data of the lightning occurrence area has not been input from the search range calculation unit 1H and the output function, the instantaneous voltage drop information DB 1F is searched, and as a result of the search, the search is performed with the lightning prediction area. The function of reading the existing area of the thundercloud at the time of the occurrence of the instantaneous voltage drop and the ID information of the customer who has generated the instantaneous voltage drop, and the read area of the thundercloud and the ID information of the customer And a function of adding alarm information and outputting it to the alarm transmitting section 1K.
[0038]
The alarm transmitting unit 1K receives the set of the transmission line or power facility data, the customer ID information, and the warning information output from the range comparing unit 1I, and searches the customer information DB 1G using the customer ID information as a search key. Function to read the IP address of the destination of the customer's alarm information obtained as a result of the search, and to the terminal device 4 corresponding to the IP address, the data of the transmission line or the power equipment and the warning information. Via the communication network 2 and a set of the thundercloud existence area, the customer ID information, and the alarm information output from the sag data comparison unit 1J, and using the customer ID information as a search key. A function of searching the customer information DB 1G, a function of reading an IP address of a distribution destination of customer alarm information obtained as a result of the search, and a terminal device 4 corresponding to the IP address , And a function of transmitting through the communication network 2 and the alarm information and the presence area of the thundercloud.
[0039]
Note that the instantaneous voltage drop support information providing server 1 according to the present embodiment has received the lightning strike occurrence area and the lightning strike prediction information transmitted from the lightning strike information DB server 3 provided in the Meteorological Agency. Not limited to this, from the viewpoint of further improving the prediction accuracy of the occurrence range of the instantaneous voltage drop by covering the local weather change, the local lightning strike occurrence region notified by the customer is not shown. The lightning strike information updating unit 1B may be input with a keyboard or a mouse or the like, and the inputted lightning strike occurrence area may be stored in the lightning strike occurrence information storage unit 1C.
[0040]
In this case, a data input unit for inputting a lightning strike occurrence area is separately provided in the lightning strike information updating unit 1B by a keyboard, a mouse, a pen input, and a touch panel (not shown).
[0041]
In addition, the instantaneous voltage drop support information providing server 1 according to the present embodiment has received the lightning strike occurrence information and the lightning strike prediction information transmitted from the lightning strike information DB server 3 installed in the Meteorological Agency, but is not limited thereto. Needless to say, the lightning strike information DB server 3 may be installed in a weather forecasting company or a power company.
[0042]
The terminal device 4 is a computer having a well-known browsing function, for example, a personal computer, a mobile phone, a PDA, or the like, provided on the customer side of a power consumer, and includes an input unit, a browsing unit, and a display unit. I have.
[0043]
The data input section 4A is for inputting data by an operation of the operator.
[0044]
The browsing unit 4B has a function of receiving warning information or warning information transmitted from the warning transmitting unit 1K via the communication network 2, a function of analyzing the received warning information or warning information, and a display unit for displaying the analysis result. And a function to output the data.
[0045]
The display unit 4C has a function of outputting the analysis result output from the browsing unit 4B to the outside.
[0046]
Next, the operation of the instantaneous voltage drop support information providing server 1 configured as described above will be described with reference to the drawings.
[0047]
2 to 4 are flowcharts for explaining the operation of the instantaneous voltage drop support information providing server 1 according to the present invention.
[0048]
The instantaneous voltage drop support information providing server 1 according to the present invention receives lightning strike occurrence information transmitted via the communication network 2 from a lightning strike information DB server 3 that stores lightning strike occurrence information provided by the Japan Meteorological Agency, The lightning strike information is output to the lightning strike information updating section 1B, and the lightning strike information updating section 1B stores the lightning strike occurrence information in the lightning strike occurrence information storage section 1C.
[0049]
Subsequently, the instantaneous voltage drop support information providing server 1 receives the lightning forecast information transmitted via the communication network 2 from the lightning information DB server 3 which stores the lightning forecast information provided in the Meteorological Agency, and receives the received lightning forecast. The prediction information is output to the lightning information update unit 1B, and the lightning information update unit 1B stores the received lightning prediction information in the lightning prediction information storage unit 1D.
[0050]
In the instantaneous voltage drop support information providing server 1 according to the present embodiment, the lightning strike prediction information is stored after the lightning strike occurrence information is stored. However, the present invention is not limited to this. It is needless to say that the order in which are stored may be reversed or may be simultaneous in time.
[0051]
Then, the search range calculation unit 1H reads lightning strike information from the lightning strike information storage unit 1C (ST1).
[0052]
Next, the search range calculation unit 1H uses the read lightning strike occurrence information, the latitude and longitude of the observation point where the lightning strike is occurring, and a predetermined distance, with the observation point as the center, In addition, the latitude and longitude of the boundary of the lightning strike area, which is represented by an area within a circle having a radius equal to a predetermined distance, are calculated, and the calculated latitude and longitude of the lightning strike area are determined by the range comparison unit 1I and the voltage drop. The data is output to the data comparison unit 1J (ST2).
[0053]
Next, the search range calculation unit 1H reads the lightning strike prediction information from the lightning strike prediction information storage unit 1D (ST3).
[0054]
Next, the search range calculation unit 1H is represented by information on the latitude and longitude of the observation point where lightning is predicted to occur in the read lightning prediction information, and an area within a circle having a predetermined distance as a radius. Calculate the latitude and longitude of the boundary of the lightning prediction area, and output the calculated latitude and longitude of the lightning prediction area to the range comparison unit 1I and the instantaneous drop data comparison unit 1J (ST4).
[0055]
Thereafter, the instantaneous voltage drop support information providing server 1 according to the present invention performs a determination process including a later-described process STA and a process STB.
[0056]
The search range calculation unit 1H according to the present embodiment reads lightning strike occurrence information from the lightning strike occurrence information storage unit 1C (ST1), and calculates data of a lightning strike occurrence area centered on the read observation point (ST2). Thereafter, the lightning prediction information is read from the lightning prediction information storage unit 1D (ST3), and the lightning prediction area centered on the read observation point is calculated (ST4). In 1H, it goes without saying that the processes of the processes ST1 and ST2 and the processes of the processes ST3 and ST4 may be performed in the reverse order or may be performed simultaneously in time.
[0057]
<Judgment process: STA>
First, the range comparison unit 1I determines whether or not the data of the search range output from the search range calculation unit 1H relates to the lightning strike occurrence area (ST11).
[0058]
When it is determined in this step ST11 that the data of the lightning strike area has been input from the search range calculation section 1H in this step ST11 (ST11: YES), the range comparison section 1I searches the power transmission system DB1E, and as a search result, the lightning strike occurrence The data of the transmission line or the power facility existing in the area and the ID information of the customer having the transmission line or the power facility are read out, and an instantaneous voltage drop occurs in the read data of the transmission line or the power facility and the ID information. Warning information indicating that there is a possibility is added and output to the warning transmitting unit 1K (ST12).
[0059]
Next, the alarm transmitting unit 1K receives the set of the transmission line or power facility data, the customer ID information, and the warning information output from the range comparing unit 1I, and uses the ID information as a search key to retrieve the customer information DB 1G. And reads out the IP address which is the contact information of the customer as the search result (ST13).
[0060]
Next, the alarm transmitting unit 1K transmits the data of the transmission line or the power equipment and the alarm information to the terminal device 4 corresponding to the read IP address via the communication network 2 (ST14).
[0061]
On the other hand, when the range comparison unit 1I determines that the data of the lightning strike area has not been input from the search range calculation unit 1H in the above-described step ST11 (ST11: NO), the range comparison unit 1H outputs the data from the search range calculation unit 1H. The power transmission system DB1E is searched using the data of the predicted lightning strike area, and as a result of the search, the data of the transmission line or the power equipment existing in the lightning prediction area and the ID information of the customer having the transmission line or the power equipment are read. Then, warning information indicating that there is a possibility that an instantaneous voltage drop may occur is added to the read data of the transmission line or the power equipment and the customer ID information, and output to the warning transmitting unit 1K (ST15).
[0062]
Next, the alarm transmission unit 1K receives a set of transmission line or electric power facility data, customer ID information, and warning information in the same manner as the above-described steps ST13 and ST14, and uses the ID information as a search key to retrieve customer information. DB1G is searched, an IP address which is a contact point of the customer is read out as a result of the search (ST16), and data and warning information of the transmission line or the power equipment are communicated to the terminal device 4 corresponding to the read IP address. The data is transmitted via the network 2 (ST17).
[0063]
Thereby, the transmitted warning information is received by the terminal device 4, the received warning information is analyzed by the browsing unit 4B, and the analysis result is displayed on the display unit 4C.
[0064]
<Determination processing: STB>
First, the sag data comparing unit 1J determines whether or not the data in the search range output from the search range calculation unit 1H relates to a lightning strike occurrence area (ST21).
[0065]
When it is determined in this step ST21 that the data of the lightning strike area has been input from the search range calculation unit 1H in this process ST21 (ST21: YES), the voltage sag information DB 1F is searched, and as a result of the search, The current region of the thundercloud at the time of the occurrence of the instantaneous voltage drop that intersects with the lightning strike occurrence region and the ID information of the customer who has generated the instantaneous voltage drop are read (ST22).
[0066]
Next, the instantaneous sag data comparing unit 1J adds alarm information to the read thundercloud presence area and the customer ID information when the instantaneous voltage drop occurs, and outputs the result to the alarm transmitting unit 1K (ST23). ).
[0067]
Next, the alert transmitting unit 1K receives the thundercloud presence area, the customer ID information, and the alert information, searches the customer information DB 1G using the customer ID information as a search key, and, as a result of the search, contacts the customer. The former IP address is read (ST24).
[0068]
Next, the alarm transmitting unit 1K transmits the thundercloud presence area and the alarm information to the terminal device 4 corresponding to the IP address via the communication network 2 (ST25).
[0069]
On the other hand, when the voltage sag data comparing unit 1J determines that the data of the lightning strike occurrence area has not been input from the search range calculation unit 1H in the above-described process ST21 (ST21: NO), the voltage sag information DB 1F is searched. As a result of the search, an area where a thundercloud exists at the time of occurrence of a past instantaneous voltage drop that intersects with a lightning strike prediction area and the ID information of a customer who has experienced the instantaneous voltage drop are read out (ST26).
[0070]
Next, the sag data comparing unit 1J adds alarm information to the read thundercloud presence area and the customer ID information, and outputs the result to the alarm transmitting unit 1K (ST27).
[0071]
Next, similarly to the above-described steps ST24 and ST25, the alarm transmission unit 1K receives the thundercloud existence area, the customer ID information and the alarm information, and searches the customer information DB 1G using the customer ID information as a search key. As a result of the search, the IP address, which is the contact information of the customer, is read (ST28), and the area where the thundercloud exists and the alarm information are transmitted to the terminal device 4 corresponding to the read IP address via the communication network 2. (ST29).
[0072]
Thereby, the transmitted alarm information is received by the terminal device 4, the received alarm information is analyzed by the browsing unit 4B, and the analysis result is displayed on the display unit 4C.
[0073]
Although the instantaneous voltage drop support information providing server according to the present embodiment performs a series of processes of the process STA and then performs a series of processes of the process STB, the present invention is not limited to this. It is needless to say that the order in which the steps are performed may be reversed or may be simultaneously performed in terms of time.
[0074]
As described above, in the present embodiment, the lightning strike information receiving unit 1A receives the lightning strike occurrence information or the lightning strike prediction information transmitted via the communication network 2, and the received lightning strike occurrence information or the lightning strike prediction information and the predetermined The data of the power equipment or the transmission line existing in the lightning strike area or the lightning forecast area calculated from the distance and the customer ID information are read from the power transmission system DB1E by the range comparison unit 1I, and the read ID information is read. Is used as a search key to search the customer information DB 1G by the alarm transmission unit 1K, the corresponding IP address is read, and the alarm information is transmitted by the alarm transmission unit 1K to the terminal device 4 corresponding to the read IP address. It is possible to provide the customer with support information for making an appropriate determination as to whether or not an instantaneous voltage drop occurs.
[0075]
Note that the method described in the above-described embodiment includes programs that can be executed by a computer, such as a magnetic disk (flexible disk, hard disk, etc.), an optical disk (CD-ROM, DVD, etc.), a magneto-optical disk (MO), It can be stored in a storage medium such as a semiconductor memory and distributed.
[0076]
The storage medium may be in any form as long as it can store a program and can be read by a computer.
[0077]
Also, an OS (operating system) running on the computer based on instructions of a program installed in the computer from the storage medium, MW (middleware) such as database management software, network software, and the like implement the embodiment of the present invention. A part of each process for realizing it may be executed.
[0078]
Further, the storage medium in the embodiment of the present invention is not limited to a medium independent of a computer, but also includes a storage medium in which a program transmitted via a LAN, the Internet, or the like is downloaded and stored or temporarily stored.
[0079]
Further, the number of storage media is not limited to one, and a case where the processing in the embodiment of the present invention is executed from a plurality of media is also included in the storage medium in the embodiment of the present invention, and the medium configuration may be any configuration. May be.
[0080]
Note that the computer according to the present invention executes each process in the present embodiment based on a program stored in a storage medium, and includes one device such as a personal computer and a plurality of devices connected to a network. Any configuration such as a system may be used.
[0081]
Further, the computer in the present invention is not limited to a personal computer, but also includes an arithmetic processing unit, a microcomputer, and the like included in an information processing device, and is a general term for devices and devices that can realize the functions of the present invention by programs. .
[0082]
Note that the program is described in any programming language such as C (registered trademark), C ++ (registered trademark), C-Sharp, or JAVA (registered trademark) as long as it realizes the above functions. It may be something.
[0083]
The present invention is not limited to the above-described embodiment, and can be variously modified in an implementation stage without departing from the scope of the invention.
[0084]
Furthermore, the above-described embodiment includes various stages of the invention, and various inventions can be extracted by appropriately combining a plurality of disclosed constituent features. For example, when an invention is extracted by omitting some constituent elements from all the constituent elements described in the embodiments, when implementing the extracted invention, the omitted part is well known. It is appropriately supplemented by conventional techniques.
[0085]
In addition, the present invention can be variously modified and implemented without departing from the gist thereof.
[0086]
【The invention's effect】
As described in detail above, according to the present invention, there is provided an instantaneous voltage drop support information providing server which can provide a customer with support information for making an appropriate determination as to whether or not an instantaneous voltage drop occurs. it can.
[Brief description of the drawings]
FIG. 1 is a configuration of an instantaneous voltage drop support information providing system including an instantaneous voltage drop support information providing server according to the present invention and a lightning strike information DB server connected to the instantaneous voltage drop support information providing server via a communication network. The schematic diagram which shows an example.
FIG. 2 is a flowchart for explaining the operation of the instantaneous voltage drop support information providing server according to the present invention.
FIG. 3 is a flowchart for explaining the operation of the instantaneous voltage drop support information providing server according to the present invention.
FIG. 4 is a flowchart for explaining the operation of the instantaneous voltage drop support information providing server according to the present invention.
[Explanation of symbols]
1: Instantaneous voltage drop support information providing server
1A: Lightning information receiver
1B: Lightning information update section
1C: Lightning strike information storage
1D: Lightning prediction information storage
1E ... Transmission system DB
1F: Voltage sag information DB
1G… Customer information DB
1H: Search range calculation unit
1I Range comparison unit
1J: Voltage sag data comparison unit
1K… Alarm transmitter
2. Communication network
3. Lightning information DB server
3A: Lightning information DB
3B… DBMS part
3C: delivery destination address storage
3D: Lightning information transmitter
4: Terminal device
4A ... data input section
4B… Browsing part
4C ... display

Claims (4)

Based on the position information regarding the position of the first observation point where the lightning strike has occurred, warning information indicating that there is a possibility that an instantaneous voltage drop may occur is transmitted to a customer terminal device connected via a communication network. Instantaneous voltage drop support information providing server,
First lightning strike information receiving means for receiving the position information of the first observation point transmitted via the communication network;
Power system data storage means in which at least ID information predetermined for each customer, a plurality of power facilities of the customer, data of transmission lines connected between the power facilities are stored corresponding to the map information,
Customer information storage means in which at least the customer's ID information and an IP address are stored correspondingly;
A power facility or transmission line stored in the power transmission system data storage means existing in a first predetermined area calculated based on the position information of the first observation point received by the first lightning strike information receiving means; First transmission line data reading means for reading the data of the customer and the ID information of the customer;
First IP address reading means for searching the customer information storage means using the ID information read by the first transmission line reading means as a search key and reading a corresponding IP address;
A first warning information transmitting means for transmitting warning information to a terminal device corresponding to the IP address read by the first IP address reading means; The instantaneous voltage drop support information providing server according to claim 1,
Second position information receiving means for receiving, via a communication network, position information of a second observation point where lightning is predicted to occur;
The data of the power equipment or the transmission line stored in the power transmission system data storage means existing in the second predetermined area calculated based on the position information of the second observation point and the ID information of the customer are read. Second transmission line data reading means for outputting;
Second IP address reading means for searching the customer information storage means using the ID information read by the second transmission line reading means as a search key and reading a corresponding IP address;
A second warning information transmitting unit for transmitting warning information to a terminal device corresponding to the IP address read by the second IP address reading unit; Based on the position information on the position of the first observation point where the lightning strike has occurred, alarm information indicating that there is a possibility that an instantaneous voltage drop may occur is transmitted to a customer terminal device connected via a communication network. A first lightning strike information receiving means for receiving the position information of the first observation point transmitted via the communication network;
At least ID information predetermined for each customer, an instantaneous voltage drop information storage means in which a thundercloud occurrence area when an instantaneous voltage drop occurs is stored in correspondence with the map information,
Customer information storage means in which at least the customer's ID information and an IP address are stored correspondingly;
The customer's ID information and a thundercloud existence area having an intersection with a first predetermined area calculated based on the position information of the first observation point received by the first lightning strike information receiving means are read out. First thundercloud information reading means;
Third IP address reading means for searching the customer information storage means using the customer ID information read by the first thundercloud information reading means as a search key and reading a corresponding IP address;
An instantaneous voltage drop support information providing server, comprising: first alarm information transmitting means for transmitting alarm information to a terminal device corresponding to the IP address read by the third IP address reading means. The instantaneous voltage drop support information providing server according to claim 3,
Second position information receiving means for receiving, via a communication network, position information of a second observation point where lightning is predicted to occur;
The customer's ID information and a thundercloud existence area having an intersection with a second predetermined area calculated based on the position information of the second observation point received by the second lightning strike information receiving means are read out. Second thundercloud information reading means;
Fourth IP address reading means for searching the customer information storage means by using the customer ID information read by the second thundercloud information reading means as a search key and reading a corresponding IP address;
A second alarm information transmitting unit that transmits alarm information to a terminal device corresponding to the IP address read by the fourth IP address reading unit;

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