JP2006178584A - Inspection information management server and method for managing inspection information - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an inspection information management server capable of making sure if an inspector has inspected a factory on site. <P>SOLUTION: The inspection information management server (1) is for recording and managing inspection data (8) sent via a network from an inspection terminal 6 operated by an inspector (5) of civil engineering work or construction work supervised by an electric power company (2). The server (1) collates the position data (11) of the inspector (5) with the position data of a construction site (4) and outputs its result, the position data (11) of the inspector (5) being sent along with the inspection data (8). <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to an inspection for checking whether or not construction is performed according to a standard such as a design book. More specifically, the present invention relates to a technique for confirming that this inspection is performed on site by an inspector.

  In general, in power facilities such as power plants and substations, inspections to check whether there are any abnormalities in the equipment such as power equipment and structures and their contents are performed regularly or in an emergency, and these facilities are newly installed or repaired. In this case, an inspection is performed to check whether or not the construction has been performed according to a predetermined standard.

  The inspection is conducted by the inspector as appropriate during or after the completion of the work in accordance with the check sheet that describes the inspection method and judgment criteria in order to check whether the work has been carried out in accordance with the prescribed standards such as the description of the design documents and instructions. .

  Patent Document 1 listed below describes a construction status confirmation method for a building that allows a construction supervisor to easily and quickly inspect whether construction is being performed according to a design book without going to the construction site. ing. In this technique, the inspector takes an image of the inspection location on site so that the same image as the three-dimensional image representing the inspection location is obtained, and transmits the image to the management server via the network. On the management server side, the operator compares the image taken by the inspector against the visual 3D image created in advance to confirm whether the building is being constructed according to the specifications. Check.

JP 2004-78987 A

  However, according to the technique of the above-mentioned document, a three-dimensional image representing an inspection location and a three-dimensional image for visual observation must be created in advance before construction, which takes time and cost. In addition, the construction supervisor does not have to go to the site, but the inspector must go to the site just to shoot the inspection point, and the same image as the 3D image created in advance is taken. It is difficult.

  Furthermore, in the case of the inspections conducted at the power facilities described above, the construction work itself may be performed on the site because multiple constructions may overlap at the same time and the number of inspection items is large. It may be considered that it was inspected by an inspector checking at a place other than. In this case, since there is a problem of whether or not the result of the inspection performed by the contractor itself can be trusted, it is desirable that the inspection is carried out by a designated inspector himself / herself.

  In view of the above circumstances, an object of the present invention is to provide an inspection information management server and an inspection information management method capable of confirming whether an inspector has performed a construction inspection on site.

  The inspection information management server of the present invention is a server for recording and managing the inspection result of the construction transmitted from the terminal operated by the construction inspector via the network, and the position of the inspector sent together with the inspection result The information is collated with the position information of the construction site, and the result is output. The server referred to in the present invention includes a computer program itself as well as a device comprising a computer as hardware.

  In the server embodiment, the position information of the inspector is coordinates obtained by a GPS receiver based on signals transmitted from a plurality of GPS satellites.

  In another embodiment of the server, the construction is a civil engineering or construction work directed and supervised by an electric power company.

  The inspection information management method of the present invention is a method for recording and managing the inspection result of the construction transmitted from the terminal operated by the construction inspector via the network, and the position of the inspector sent together with the inspection result The method includes a step of collating information with position information of the construction site, and a step of outputting the collation result.

  In the embodiment of the method, the position information of the inspector is coordinates obtained by a GPS receiving unit based on signals transmitted from a plurality of GPS satellites.

  In another embodiment of the above method, the construction is a civil engineering or construction work directed and supervised by an electric power company.

  According to the inspection information management server of the present invention, since the terminal operated by the inspector transmits the inspection result and the position information indicating the position of the inspector via the network, the position information of the inspector and the position of the construction site are transmitted. By outputting the collation result with the information, it can be confirmed whether or not the inspection of the construction has been performed on site by the inspector. In addition, if a position mismatch is recognized as a result of the collation, an explanation of the situation can be requested from the inspector.

  Moreover, the coordinate calculated | required with a GPS receiving part can be used as an inspector's positional information.

  Furthermore, it is possible to record and manage inspection data of civil engineering or construction work directed and supervised by an electric power company.

  FIG. 1 shows an inspection information management system configured using an inspection information management server 1 of the embodiment.

This inspection information management system
An inspection terminal (for example, a notebook computer) 6 operated by an inspector 5 at a construction site 4 for civil engineering or building construction, which is directed and supervised by an electric power company (head office) 2;
Inspection information management server 1 that is maintained and managed by electric power company 2 and can be connected from inspection terminal 6 via a communication line such as the Internet.
It is comprised including.

  The inspector 5 inspects at the construction site 4 whether or not the construction is performed in accordance with the standard such as the design book or the specification, and inputs the inspection result 7 to the inspection terminal 6 as inspection data 8 for the inspection information management server 1 Send to. The inspection result 7 includes, for example, an inspection date, an inspection time, a result code indicating presence / absence of an abnormality, and a comment. Further, based on signals transmitted from a plurality of (for example, three) GPS (Global Positioning System) satellites 9, the inspection terminal 6 receives the coordinates of the position where the signals are received sequentially or at predetermined time intervals ( For example, a GPS receiving unit 10 that obtains and outputs it at intervals of 5 minutes is connected. The position data 11 representing the coordinates obtained by the GPS receiving unit 10, that is, the coordinates of the position of the inspector 5 is also transmitted to the inspection information management server 1 side as inspection data 8 together with the inspection result 7.

In addition to the inspection information management server 1, the electric power company 2 side
The inspection data 8 received from the inspection terminal 6 by the inspection information management server 1 and the location where the inspection is performed by comparing the position of the inspector 5 with the position of the construction site 4 (hereinafter referred to as “inspection site”) is the construction site. 4 as a means for presenting management information 13 composed of data indicating whether or not to match 4 and other predetermined items;
A WWW server 15 that creates a WEB page (html file) based on the content of the inspection data 8 received from the inspection terminal 6 by the inspection information management server 1 and publishes it on the network.
Is provided.

  HTML (Hyper Text Markup Language) is a programming language used to create a homepage (WEB page) published on the Internet, for example.

  The content of the WEB page created by the WWW server 15 may be the same as the content of the management information 13. For example, as the disclosure information 16 that does not include the personal information of the inspector 5 and the confidential information of the power company 2, the management information It is desirable to distinguish from 13. This WEB page is an Internet user information reference person (for example, a person who is interested in the construction such as a local resident at a construction site) 18 via an information terminal such as a personal computer 19 or a mobile phone 20 via a network. The WWW server 15 can be accessed and browsed.

  The management information 13 presented on the monitor 14 on the power company 2 side and the disclosure information 16 disclosed by the WWW server 15 include the construction name and construction site name in addition to the inspection data 8 transmitted from the inspection terminal 6. , Inspection type, and inspection content. The construction name is the name of the construction subject to the inspection, the construction site name is the name of the construction site (for example, a power plant, etc.), and the type of inspection is various during the process. Inspections that may be required for civil engineering or construction work, such as intermediate inspections at the end of all processes and inspections at the completion of all processes, and the contents of inspections are included in the inspection when one inspection type is selected The contents of the inspection process.

  FIG. 2 shows the configuration of the inspection information management server 1 and the inspection terminal 6 and the flow of information in the inspection information management system.

The inspection information management server 1
A communication unit 23 that communicates with the outside via a network;
An instruction information generating unit 24 for generating inspection instruction information (for example, an html file) including an inspection method and determination criteria for transmission to the inspection terminal 6;
A data storage unit (for example, a memory or the like) that stores information such as inspection data 8 transmitted from the inspection terminal 6 via the network, a format file of instruction information generated by the instruction information generation unit 24, and a master file described later. Hard disk etc.) 25,
Position information collation that collates the position of the GPS receiver 10 (that is, the inspector 5) obtained by the GPS receiver 10 with the position of the construction site 4 in the inspection data 8 transmitted from the inspection terminal 6, and outputs the result. Part 27;
A management page generation unit 28 that generates a management page (for example, an html file) to be presented on the monitor 14 based on the inspection data 8 and data representing the management information 13 such as the collation result obtained by the position information collation unit 27;
An information browsing unit 30 for displaying the management page on the monitor 14;
The management information 13 includes a disclosure information extraction unit 32 that extracts data representing predetermined disclosure information 16 and transmits it to a WWW server (World Wide Web Server) 15.

  The WWW server 15 represents a computer (device) as hardware that realizes the above function, and also software for realizing the function in cooperation with the hardware (computer), or both the device and software. To express.

The inspection information management server 1 is a general WEB server software (for example,
In response to a request from the inspection terminal 6 side, the instruction information generation unit 24 is controlled to generate appropriate instruction information and transmit it to the inspection terminal 6 side.

  In addition to the inspection data 8 and the format file, the following master file and log file are stored in the data storage unit 25 of the inspection information management server 1, and the arithmetic processing performed in the inspection information management server 1 is performed. Used.

  FIG. 3 shows a construction master composed of construction codes and names of constructions currently conducted or managed by the electric power company 2. The construction master is updated, for example, by inputting data related to a construction plan newly created by the electric power company 2.

  FIG. 4 shows a site master composed of site codes, names of current and past construction sites, and corner coordinates obtained by simplifying the range of each construction site into a polygon (for example, a quadrangle). The coordinates are represented by, for example, latitude (for example, north latitude “N”) and longitude (for example, east longitude “E”) obtained for each corner of the simplified construction site range.

  FIG. 5 shows a inspection master composed of inspection types and inspection codes. The inspection type stored in the inspection master can be determined according to the inspection procedure used in the conventional inspection by the electric power company 2.

  FIG. 6 shows an inspector master composed of an inspector code and an inspector name. In the example shown in the figure, the name relating to the inspector is only the name, but personal information such as the department to which each inspector belongs and the specialized field can also be stored.

  FIG. 7 shows an inspection master composed of inspection codes, inspection contents, inspection methods, and determination criteria. The inspection master is created for each type of inspection, and specifically, is associated with the inspection code in the inspection master (FIG. 5). Further, “<BR>” included in the data described in the column of the inspection method and the determination criterion is html representing “line feed” on the WEB page.

  FIG. 8 shows a log file configured by accumulating inspection data 8 transmitted from the inspection terminal 6 via the network and data such as a collation result obtained by the position information collation unit 27 based thereon. The log file includes the inspection date, the inspection time indicating the transmission time of the inspection data 8, the construction code, the site code, the inspection code, the coordinates (latitude and longitude) obtained by the GPS receiver 10, the inspector code, the inspection code, and the inspection. Consists of results (data representing either conformance or nonconformity) and comments. The management page generation unit 28 of the inspection information management server 1 refers to the log file, extracts arbitrary information (record) in the log file, and applies it to the format file to obtain an appropriate management page (html file). Can be created.

  The instruction information generation unit 24 of the inspection information management server 1 uses the format file in the data storage unit 25 and data in an appropriate master file (for example, the inspection master (FIG. 7)) as instruction information, for example, A WEB page (html file) that presents at least inspection contents, inspection methods, and determination criteria is generated. In addition, by generating instruction information using data in the inspection master, a sentence is broken at a position where “<BR>” is inserted on the WEB page.

  The instruction information (WEB page) transmitted to the inspection terminal 6 is created by the instruction information generation unit 24 by inserting appropriate data in the inspection master into a format (format page) composed of, for example, an html file. be able to. Alternatively, the instruction information generation unit 24 creates an XML (Extensible Markup Language) file of data constituting the instruction information based on data obtained by referring to an appropriate master file, and specifies an XSL (Extensible Stylesheet) Individual instruction information (XML file) can be created based on the (Language) file. The individual instruction information (XML file) can be converted into an html file by the instruction information generation unit 24 of the inspection information management server 1, or may be converted by the information browsing unit 45 of the inspection terminal 6.

Returning to FIG. 2 again, the WWW server 15
A WEB page generation unit 35 that generates a WEB page (html file) based on data representing the disclosure information 16 transmitted from the disclosure information extraction unit 32 of the examination information management server 1;
A data storage unit (for example, a hard disk) 37 for storing the generated WEB page;
It is comprised with the communication part 39 which communicates with the exterior via a network.

  The WWW server 15 operates based on general WEB server software (for example, “IIS”, etc.), and in response to a request from the information reference person 18 connected via the network, an appropriate storage in the data storage unit 37. A WEB page (html file) is taken out and transmitted to the information referring person 18 side.

The inspection terminal 6
A communication unit 41 for performing communication via a network;
A monitor 43 as a means for displaying information such as images, videos and characters;
An information browsing unit 45 for browsing on the monitor 43 instruction information (html file) transmitted from the inspection information management server 1 side;
An input unit (for example, a keyboard and a mouse) 46 that can input the test result 7 and other arbitrary data;
A communication unit 48 for receiving a signal transmitted from the GPS receiving unit 10;
The communication control unit 49 is configured to control the inspection result 7 and the position data 11 transmitted from the GPS receiving unit 10 to be simultaneously transmitted as the inspection data 8 to the inspection information management server 1 side.

  The communication unit 41 that communicates via the network, for example, installs a card-type antenna or a LAN cable capable of wireless communication according to the circumstances of the communication facility at the construction site 4 to check the inspection information via the network. Communication with the management server 1 can be performed.

  As the information browsing unit 45, when the inspection information management server 1 side is configured to transmit the instruction information as an XML file, it is preferable to employ a unit having a function of converting the file into an html file.

  FIG. 9 shows a flowchart of the inspection information management method of the embodiment. More specifically, this flowchart shows the flow of information processing performed in the examination information management server 1.

  First, the instruction information generation unit 24 of the inspection information management server 1 waits until there is a request for transmitting instruction information from the inspection terminal 6 via the network (step [hereinafter referred to as ST] 1). The instruction information transmission request is stored in the data storage unit 25 in advance by accessing the inspection information management server 1 via the network by the inspector 5 operating the inspection terminal 6 at the construction site 4, for example. This can be done through a web page (html file) for presenting instruction information. Specifically, when accessing the inspection information management server 1, an instruction information request screen (top page) 51 shown in FIG. 10 is displayed on the monitor 43 of the inspection terminal 6.

The instruction information request screen 51
An instruction information display field 53 for presenting the contents of instruction information transmitted from the examination information management server 1 side;
The name of the construction currently under construction at the construction site 4, which is a keyword for specifying the inspection master (FIG. 7) to be referred to by the instruction information generation unit 23 of the inspection information management server 1, and the inspection to be performed. And a search information input field 54 for inputting data relating to the type of data.

  While the instruction information request screen (top page) 51 is displayed, the instruction information is not yet transmitted from the inspection information management server 1 side. It is suggested that the instruction information should be requested.

In the search information input field 54,
A construction code input box 56 for inputting a construction code for identifying the name of the construction under construction at the construction site 4;
A site code input box 57 for inputting a site code for identifying the site name of the construction site 4;
Species list box 59 for selecting the type of examination to be performed,
An inspector code input box 60 for identifying an inspector performing an inspection scheduled to be performed;
When pressed, the instruction information request button 62 transmits a message requesting transmission of instruction information to the examination information management server 1 side together with the data input in the boxes 56, 57, 60 and the list box 59. It is configured.

  When the inspector operates the input unit 46 of the inspection terminal 6 to input the above data into the search information input field 54 of the instruction information request screen 51 and presses the instruction information request button 62, the input data and instruction information are input. Is sent to the inspection information management server 1 side. On the inspection information management server 1 side, when receiving this, the instruction information generating unit 24 determines whether or not the request for the instruction information is the first transmission request (ST2), and the determination result is “YES”, that is, If it is the first transmission request, instruction information (html file) corresponding to the request is generated and transmitted to the inspection terminal 6 (ST3). Specifically, the instruction information generation unit 24 is that the data transmitted from the inspection terminal 6 side is the data input on the instruction information request screen 51, that is, not the inspection data composed of the inspection result 8 and the position data 11. In this case, it can be handled as the first transmission request message. In addition, the first or second distinction shall be made for each type of inspection, and even if multiple types of inspection are performed continuously, the transmission request for the first instruction information regarding each type of inspection will be , Each should be treated as a “first” request.

  When the first instruction information is received on the inspection terminal 6 side, an instruction information presentation screen 65 illustrated in FIG. 11 is displayed on the monitor 43. In addition to the above-described instruction information display field 53 (FIG. 10), the instruction information presentation screen 65 displays information on the scheduled inspection such as the current time, the name of the construction to be inspected, the name of the construction site, and the type of the inspection. An inspection result input field 67 is provided for the inspector 5 to input the inspection result 7 while presenting.

  A method of creating instruction information (html file) constituting the instruction information presentation screen 65 will be described.

First, the instruction information generation unit 24 includes the data transmitted from the inspection terminal 6 side.
Check the construction code against the construction master (Fig. 3) to obtain data representing the name of the construction to be inspected,
The site code is checked against the site master (Fig. 4) to obtain data representing the name of the construction site 4,
The inspection type is compared with the inspection master (FIG. 5) to obtain the inspection code corresponding to the inspection type to be performed, and the inspection master (FIG. 7) corresponding to the inspection code is stored in the data storage unit 25. Select and get the data (record) in the row of the youngest test code (for example, 0001),
Check the inspector code against the inspector master (Fig. 6) to obtain data representing the name of the inspector performing the inspection,
By applying these acquired data to a format page (for example, html file) stored in the data storage unit 25 in advance, instruction information (html file) of a mode to be transmitted to the inspection terminal 6 side is created. can do.

  More specifically, of the acquired data, the data acquired from the examination master (FIG. 7) is displayed in the instruction information display field 53 of the instruction information presentation screen 65. Data representing the construction name, construction site, inspection type, and inspector is displayed in the inspection result input field 67. Furthermore, in addition to the above data, the inspection date and inspection time are read and displayed in the inspection result input column 67 from a clock (not shown) built in the inspection terminal 6 and the construction status of the construction. Radio buttons 69a and 69b for selecting whether or not the test criteria are met or not (results of the test), a comment input box 70 in which comments such as matters noticed during the test can be entered, and a test by pressing As a result, an inspection data transmission button 72 for transmitting a transmission request message for the position data 11 and the next instruction information is arranged. The coordinates (N) and coordinates (E) are displayed as “being measured”, but the inspector 5 arbitrarily changes the coordinate data obtained by the GPS receiver 10 connected to the inspection terminal 6. This is because the instruction information display field 53 is not displayed in consideration of the above trouble.

  At the construction site 4, when the instruction information presentation screen 65 (FIG. 11) is displayed on the monitor 43 of the inspection terminal 6, the inspector 5 checks the inspection contents, inspection method, and determination presented in the instruction information display field 53. Inspect according to the standards, and check whether the construction is constructed to meet the judgment criteria. Then, after inspecting according to the instruction information, the inspector 5 operates the input unit 46 of the inspection terminal 6 to show a pair of results representing the inspection results in the inspection result input field 67 of the instruction information presentation screen 65. Select one of the radio buttons 69a and 69b (for example, click with the mouse), and if necessary, enter a comment in the comment input field 70, such as a point noticed during the examination or the reason why the examination result is incompatible. Then, the test data transmission button 72 is pressed (for example, clicked with the mouse).

  When the inspection data transmission button 72 is pressed on the instruction information presentation screen 65, the communication control unit 49 of the inspection terminal 6 manages the latest position data 11 (coordinate data) transmitted from the GPS receiving unit 10 as inspection information management. Send to server 1 side. Thereby, the inspection result 7 and the position data 11 constituting the inspection data 8 (FIG. 1) and the next instruction information transmission request message are transmitted to the inspection information management server 1 side simultaneously (or almost simultaneously). Specifically, the inspection data 8 transmitted to the inspection information management server 1 is obtained by the GPS reception unit 10 and the inspection result 7 including the inspection date, the inspection time, the result code indicating the inspection determination result, and the comment. The position data 11 is composed of coordinates (for example, latitude and longitude).

  When the inspection information management server 1 receives the inspection data 8 and the transmission request message transmitted from the inspection terminal 6 via the network, the instruction information generation unit 24 determines how many times the transmission request is requested. Judgment is performed, and instruction information (html file) corresponding to the request (here, the second request) is generated and transmitted to the inspection terminal 6 side (ST3). For the second and subsequent instruction information, the instruction information generation unit 24 refers to the inspection master (FIG. 7) relating to the inspection, and the code next to the inspection code included in the data (record) representing the instruction information transmitted immediately before (For example, a code having one larger value) is selected and generated based on data (record) on the same line as the selected inspection code.

  When the instruction information generation unit 24 transmits the instruction information to the inspection terminal 6 side, the instruction information generation unit 24 determines whether the transmission request message is the first one (ST2), and the determination is “NO”, that is, the second and subsequent times. If it is a transmission request, the inspection data 8 is sent to the position information matching unit 27.

  The position information matching unit 27 determines whether the coordinates obtained by the GPS receiving unit 10 included in the inspection data 8 are within the construction site 4 (ST4). Specifically, the position information matching unit 27 refers to the data (record) related to the construction site 4 to be inspected in the site master (FIG. 4), and obtains the range of the construction site 4 by simplifying it to a rectangle. The coordinates of the four corners and the coordinates included in the inspection data 8 are collated to determine whether the coordinates included in the inspection data 8 are inside the construction site 4. In this case, considering the calculation error of the GPS receiving unit 10, if the coordinates included in the inspection data 8 are within a predetermined width (for example, 100 m) outside the construction site 4, the coordinates are inside the construction site 4. It can be handled as a thing. Alternatively, the coordinates of each construction site in the site master can be set in advance in consideration of the predetermined width.

  The position information collation unit 27 obtains a collation result between the coordinates included in the inspection data 8 and the coordinates of the construction site 4, and then stores the log data including the collation result and the inspection data 8 and other necessary items as a data storage unit. The log file is updated by writing to the log file in FIG. 25 (FIG. 8) (ST5), and data representing the management information (html file) 13 (for example, the same content as the log data) is sent to the management page generating unit 28. send.

  In addition, the position information collation unit 27 sends the same data as the data for creating the management information 13 to the disclosure information extraction unit 32, and the disclosure information extraction unit 32 uses the personal information of the inspector 5 and the power company 2 from this data. The disclosure information 16 excluding predetermined items such as confidential information is transmitted to the WWW server 15 (the communication unit is omitted). When receiving the disclosure information 16, the WWW server 15 generates a WEB page (html file) of the disclosure information based on the disclosure information 16 and stores it in the data storage unit 37.

  The WEB page stored in the data storage unit 37 of the WWW server 1 includes information relating to the inspection of the construction conducted and supervised by the electric power company 2. In particular, the coordinates obtained by the GPS receiving unit 10 are the coordinates of the construction site 4. It is characteristic that the matter of whether the inspection of the construction was carried out on site by the inspector is disclosed based on whether it is within the range. As a result, an information referring person 18 such as a nearby resident of the construction site 4 can confirm the construction status of the construction of interest with the personal computer 19 or the mobile phone 20.

  On the other hand, on the inspection information management server 1 side, the management page generation unit 28 generates management information (html file) 13 based on the data sent from the position information verification unit 27 (ST7), and the information browsing unit 30 It is displayed on the monitor 14 (ST8). Also on the monitor 14 of the inspection information management server 1, the management information 13 including the inspection data 8 and the like can be confirmed, and it can be sequentially checked whether or not the inspection of the construction has been performed by the inspector.

  Next, the instruction information generation unit 24 determines whether or not the inspection is completed (ST9). If the determination result is “NO”, that is, if the inspection is not yet completed, the next instruction information (html file) is displayed. It is generated and transmitted to the inspection terminal 6 side (ST3), and the process proceeds to ST1 again. Whether or not the inspection has been completed is determined based on, for example, the instruction information generated and transmitted immediately before by the instruction information generation unit 24 based on the data (record) in the column including the last inspection code of the inspection master (FIG. 7). This is done by identifying whether or not it is generated.

  On the other hand, if the determination result of ST9 is “YES”, that is, if all the processes related to the inspection are completed, there is no instruction information to be transmitted next to the inspection terminal 6 side, so that the inspection is completed instead. A message (for example, html file) is generated and transmitted to the inspection terminal 6 side (ST10). On the inspection terminal 6 side, the message is displayed on the display unit 43, and the inspector 5 can recognize that the inspection is completed. Further, when another inspection related to the construction is continuously performed, the instruction information request screen (top page, see FIG. 10) 51 is moved again, data regarding a predetermined matter is input into the search information input field 54, and inspection information is input. What is necessary is just to transmit to the management server 1.

  The embodiment of the present invention has been described above. However, the present invention is not limited to this, and the function in which the instruction information generation unit 24 of the inspection information management server 1 creates a WEB page (html file) as inspection instruction information is provided. It is also possible that the inspection terminal 6 generates the instruction information (html file) by itself and presents it on the monitor 43.

  In addition, the persons who can access the inspection terminal 1 can be restricted under the ID information. In this case, for example, when the inspection information management server 1 is first accessed, the instruction information generation unit 24 generates and transmits a screen (for example, an html file) for inputting a login ID and a password as authentication information. The instruction information request screen 51 (FIG. 10) can be transmitted after being taken.

The figure which shows the test | inspection information management system comprised using the test | inspection information management server of an Example. The figure which shows the flow of the information in the structure of a test | inspection information management server and a test | inspection terminal, and a test | inspection information management system. A construction master consisting of the construction code and the name of the construction that the power company currently conducts or manages. Site master consisting of site codes, current and past construction site names, and corner coordinates obtained by simplifying the range of each construction site to a square. Inspection master consisting of inspection type and inspection code. Inspector master consisting of inspector code and inspector name. Inspection master consisting of inspection code, inspection content, inspection method, and judgment criteria. A log file configured by accumulating inspection data and data such as a collation result obtained by the position information collation unit based on the inspection data. The flowchart of the test | inspection information management method of an Example. The figure which shows the instruction information request | requirement screen displayed on the monitor of a terminal for an inspection. The figure which shows the instruction information presentation screen displayed on the monitor of a terminal for an inspection.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 ... Inspection information management server, 2 ... Electric power company, 4 ... Construction site, 5 ... Inspector, 6 ... Inspection terminal, 7 ... Inspection result, 8 ... Inspection data, 9 ... GPS satellite, 10 ... GPS receiving part, 11 ... Position data, 13 ... Management information, 14, 43 ... Monitor, 15 ... WWW server, 16 ... Disclosure information, 18 ... Information referer, 19 ... Personal computer, 20 ... Mobile phone, 23, 39, 41, 48 ... Communication section , 24 ... Instruction information generation unit, 25, 37 ... Data storage unit, 27 ... Location information collation unit, 28 ... Management page generation unit, 30, 45 ... Information browsing unit, 32 ... Disclosure information extraction unit, 35 ... Web page generation , 46 ... input unit, 49 ... communication control unit, 51 ... instruction information request screen, 53 ... instruction information display field, 54 ... search information input field, 56 ... construction code input box, 57 ... site code input box, 59 ... Species list box 60 ... inspector code input box, 62 ... instruction information request button, 65 ... instruction information presentation screen, 67 ... inspection result input field, 69a, 69b ... radio button, 70 ... comment input box, 72 ... examination data transmission button .

Claims (6)

  In the inspection information management server for recording and managing the inspection result of the construction transmitted from the terminal operated by the construction inspector via the network, the position information of the inspector sent together with the inspection result is the position of the construction site. An inspection information management server characterized by collating with information and outputting the result.   2. The inspection information management server according to claim 1, wherein the position information of the inspector is coordinates obtained by a GPS receiving unit based on signals transmitted from a plurality of GPS satellites.   3. The inspection information management server according to claim 1 or 2, wherein the construction is a civil engineering or building construction conducted and supervised by an electric power company. In the inspection information management method for recording and managing the inspection result of the construction transmitted from the terminal operated by the construction inspector via the network,
Checking the position information of the inspector sent together with the inspection result with the position information of the construction site;
And a step of outputting the collated result.   5. The inspection information management method according to claim 4, wherein the position information of the inspector is coordinates obtained by a GPS receiver based on signals transmitted from a plurality of GPS satellites. 6. The inspection information management method according to claim 4, wherein the construction is a civil engineering or building construction conducted and supervised by an electric power company.

Images