JP4663496B2 - Airtight inspection management system - Google Patents

Description

The present invention includes a mobile device for leak test for performing leak test of the gas pipe, about the leak test management system consisting of a possible leak test administrator computer acquires data from the mobile device for the leak test.

  Conventionally, when a new gas pipe is laid due to a new construction of a house or the like, it is obliged to perform an airtight inspection of the inner tube of the gas lamp before use. For this reason, an airtight inspector went to the residence to be inspected and performed an airtight inspection. Specifically, a manometer is attached to the gas lamp inner tube of each residence, and the gas lamp inner tube is set to a preset pressure, and the change in the pressure is measured with a manometer to check for gas leaks. It was. Based on the results of the airtight inspection performed by the airtight inspector, the inspected material for the inner tube of the gas lamp is created, and this material is received and managed by, for example, the owner of a newly built house, a construction company, or a gas company. By submitting it to the bureau, the management bureau gave the gas supply approval.

  In addition, prior art documents related to the invention of the present application could not be found.

  By the way, the result of the airtight inspection of the gas lamp inner tube often results in an inspection result of “no abnormality in airtightness”, and rarely results in an inspection result of “abnormality in airtightness”. For this reason, the airtight inspector does not go to each of the plurality of residences to be inspected, for example, and performs an illegal act of repeatedly acquiring the same number of inspection results as the number of residences to be inspected in one residence. Prone to psychology. And in the conventional airtight inspection method, it was difficult to find the above-mentioned fraudulent act.

The present invention has been made in view of the above circumstances, it is possible to deter abuse for airtight inspector, and an object thereof is to provide a gas-tight test management system that can increase the credit for airtightness test results.

An airtight inspection management system according to the invention of claim 1 made to achieve the above object, wherein the airtight inspection means are sequentially attached to the gas pipes of a plurality of houses, and perform the airtight inspection of each gas pipe, and the airtight inspection The location detection information acquisition means for acquiring the location data for specifying the location at the site where the residence has been performed, and the composite that generates the composite data by combining the location data with the airtight inspection result for each residence An airtight inspection management system comprising an airtight inspection mobile device having a data generation means and an airtight inspection management computer capable of acquiring a plurality of composite data from the airtight inspection mobile device. Based on the composite data storage means storing a plurality of composite data in the management computer and the housing position data included in the composite data, the airtight inspection result of each residence is obtained. Authenticate that the authenticity is determined by the authenticity determination means that determines whether or not the result is a genuine airtight inspection result inspected at each of the residences, and the airtight inspection result that the authenticity determination means determines to be authentic Mobile device for airtight inspection , comprising data generation means for authorized to generate certified airtight inspection data by adding the information, and data output means for outputting predetermined airtight inspection data with authorization in response to an external request The composite data can be transmitted from the apparatus to the computer for airtightness inspection management via the Internet, telephone line network or other communication network, and the mobile apparatus for airtightness inspection is provided with mobile communication means that can be connected to the communication network wirelessly. The mobile device for airtight inspection is a site where there is a house where the airtight inspection has been performed, and the composite data of the residence is wirelessly output from the mobile communication means to manage the airtight inspection. The airtight inspection management computer is equipped with a clock, and is configured to combine the reception time with the composite data received from the mobile device for airtight inspection and store it in the composite data storage means. Based on the composite data of the two residences continuously transmitted from the mobile device for airtightness inspection, the true / false determination means determines that the average speed moved between the two residences is equal to or less than a predetermined reference average speed. In this case, it is characterized in that it is determined that the airtightness check result included in the composite data of the residence before moving is authentic .

The airtight inspection management system according to the invention of claim 2 is sequentially attached to a plurality of residential gas pipes, and has an airtight inspection means for performing an airtight inspection of each gas pipe, and a house where the airtight inspection has been performed, It has position detection information acquisition means for acquiring residence position data for specifying the position, and composite data generation means for generating composite data by combining the residence position data with the airtight inspection result for each residence. An airtight inspection management system comprising a mobile device for airtight inspection and a computer for airtight inspection management capable of acquiring a plurality of composite data from the mobile device for airtight inspection. Based on the composite data storage means that stores the data and the housing location data included in the composite data, the airtight inspection results of each residence were inspected at the site of each residence. Authenticated airtightness by adding authenticity information to authenticity determination means for determining whether the result is a positive airtightness inspection result and the airtightness inspection result determined to be authenticity A data generation means with certification for generating inspection data and a data output means for outputting predetermined airtight inspection data with a certification in response to an external request, from the airtight inspection mobile device to the airtight inspection management computer, The mobile device for airtightness inspection is equipped with mobile communication means capable of wirelessly connecting to the communication network, and the mobile device for airtightness inspection can be connected to the airtightness inspection mobile device. At the site where the inspected residence is located, the composite data of the residence is wirelessly output from the mobile communication means and transmitted to the airtight inspection management computer. The airtight inspection management computer is provided with a clock, and is configured to combine the reception time with the composite data received from the airtight inspection mobile device and store it in the composite data storage means. It is characterized in that when the number of operations per unit time of the airtight inspection mobile device is equal to or less than a predetermined reference number, it is determined that the result of the airtight inspection of each residence is authentic .
The airtight inspection management system according to the invention of claim 3 is sequentially attached to the gas piping of a plurality of houses, and at the site where there is an airtight inspection means for performing an airtight inspection of each gas piping, and a residence where the airtight inspection has been performed, It has position detection information acquisition means for acquiring residence position data for specifying the position, and composite data generation means for generating composite data by combining the residence position data with the airtight inspection result for each residence. An airtight inspection management system comprising a mobile device for airtight inspection and a computer for airtight inspection management capable of acquiring a plurality of composite data from the mobile device for airtight inspection. Based on the composite data storage means that stores the data and the housing location data included in the composite data, the airtight inspection results of each residence were inspected at the site of each residence. Authenticated airtightness by adding authenticity information to authenticity determination means for determining whether the result is a positive airtightness inspection result and the airtightness inspection result determined to be authenticity In order to adjust the time in the mobile device for airtight inspection, the mobile device for airtight inspection includes data generation means with authentication for generating inspection data and data output means for outputting predetermined airtight inspection data with approval in response to an external request. The composite data generating means is configured to include time data in the composite data for each residence, and the authenticity determination means is continuously transmitted from the mobile device for airtightness inspection. Based on the combined data of the two residences, if the average speed moved between the two residences is less than or equal to a predetermined reference average speed, the airtightness check result included in the composite data of the residence before moving Characterized in place determined to be authentic.
The airtight inspection management system according to the invention of claim 4 is sequentially attached to the gas pipes of a plurality of houses, and at the site where there is an airtight inspection means for performing an airtight inspection of each gas pipe, and a residence where the airtight inspection has been performed, It has position detection information acquisition means for acquiring residence position data for specifying the position, and composite data generation means for generating composite data by combining the residence position data with the airtight inspection result for each residence. An airtight inspection management system comprising a mobile device for airtight inspection and a computer for airtight inspection management capable of acquiring a plurality of composite data from the mobile device for airtight inspection. Based on the composite data storage means that stores the data and the housing location data included in the composite data, the airtight inspection results of each residence were inspected at the site of each residence. Authenticated airtightness by adding authenticity information to authenticity determination means for determining whether the result is a positive airtightness inspection result and the airtightness inspection result determined to be authenticity In order to adjust the time in the mobile device for airtight inspection, the mobile device for airtight inspection includes data generation means with authentication for generating inspection data and data output means for outputting predetermined airtight inspection data with approval in response to an external request. The composite data generating means is configured to include time data in the composite data for each residence, and the authenticity determination means is configured to include the time per unit time of the mobile device for airtightness inspection. It is characterized in that when the number of operations is equal to or less than a predetermined reference number set in advance, it is determined that the airtight inspection result of each residence is authentic.
The invention of claim 5 is the airtight inspection management system according to claim 3 or 4, wherein the composite data is transmitted from the mobile device for airtight inspection to the computer for airtight inspection management via the Internet, telephone line network or other communication network. It has features where possible.

The invention of claim 6 is characterized in that, in the airtight inspection management system according to claim 5 , the mobile device for airtight inspection is provided with mobile communication means connectable to a communication network by radio.

According to a seventh aspect of the present invention, in the airtight inspection management system according to any one of the third to sixth aspects, the timepiece is a radio timepiece that receives a standard radio wave from a standard radio station and acquires time data. It has features in some places.

The invention of claim 8 is characterized in that, in the airtight inspection management system according to any one of claims 1 to 7 , the position detection information acquisition means is a GPS module.

The invention of claim 9 is the airtight inspection management system according to any one of claims 1 to 7, wherein the position detection information acquisition means is a gas pipe identification data relating to a gas stopper or a gas meter provided in each residence. Is used as a keyboard for entering the location data, and the computer for airtightness inspection management accesses the gas tube database that associates the gas tube identification data with the location of each residence to identify the location of each residence. It is characterized in that a position specifying means is provided.

According to a tenth aspect of the present invention, in the airtight inspection management system according to any one of the first to seventh aspects of the present invention, the position detection information acquisition means obtains the individual house data from the RF tag provided for each house. The airtight inspection management computer is provided with a position specifying means for accessing the tag database in which the individual house data is associated with the position of each house and specifying the position of each house. Has characteristics.

According to an eleventh aspect of the present invention, in the airtight inspection management system according to any one of the first to tenth aspects, the mobile device for the airtight inspection is provided with a camera that captures an image unique to each residence, and is combined. The data generation means is characterized in that the image data captured by the camera is included in the composite data.

According to a twelfth aspect of the present invention, in the airtight inspection management system according to any one of the first to eleventh aspects, the mobile device for airtight inspection transmits ultrasonic waves toward the inner wall of the gas pipe, and An ultrasonic transducer for detecting a reflected wave having a reflection wavelength unique to each residence is provided for the ultrasonic wave, and the composite data generating means is a reflected wave for identifying the reflected wave detected by the ultrasonic transducer. Characterized by including data in composite data.

According to a thirteenth aspect of the present invention, in the hermetic inspection management system according to any one of the first to twelfth aspects, an external computer terminal is connected to the hermetic inspection management computer via a communication network to output data. The means receives contract data for determining whether or not the contract has been made from the external computer terminal, and transmits the approved airtight inspection data in response to a request from the external computer terminal only when the contract has been made. Has characteristics.

According to a fourteenth aspect of the present invention, in the airtight inspection management system according to the thirteenth aspect , the certified data generation means generates print data for printing out a certificate that the airtight inspection result is authentic. It is characterized by being included in certified airtight inspection data.

[Invention of Claims 1-7 ]
According to leak test management system of claims 1 to 7, airtight inspector attaching a mobile device for leak test to the gas pipe, when the leak test of the gas pipe, the field in the airtight test performed the leak test The mobile device obtains the residence position data and combines the residence position data with the airtight inspection result to generate composite data. The computer for airtight inspection management acquires composite data from the mobile device for airtight inspection, and whether the airtight inspection result of each residence included in the composite data is a genuine airtight inspection result inspected at the site of each residence. Judgment is true or false. Then, a certified airtight inspection data is added to the airtight inspection result determined to be authentic and the information certified as authentic is added, and the predetermined certified airtight inspection data is output in response to an external request. .

  According to the configuration of the present invention, when an airtight inspector illegally conducts an airtight inspection using a mobile device for airtight inspection at a place different from the residence to be inspected, the residence in the composite data of the predetermined residence Housing location data at a location different from the location of the site is included, and the basis for such misconduct is recorded as composite data. As a result, it becomes possible to detect fraudulent acts of the airtight inspector and to suppress fraudulent acts. In addition, since the certified airtight inspection data according to the present invention includes information that has been authenticated by authenticity determination, the reliability of the airtight inspection result can be obtained by using this certified airtight inspection data. Will improve.

If the composite data can be transmitted from the mobile device for airtight inspection to the computer for airtight inspection management via the communication network as in the configurations of claims 1, 2 , and 5, a plurality of computers for airtight inspection management It becomes possible to efficiently obtain composite data from the mobile device for airtight inspection. In addition, if the mobile device for airtightness inspection is provided with mobile communication means as in the configuration of claims 1, 2 and 6, the mobile device for airtightness inspection is not restricted by the location of the mobile device for airtightness inspection. The composite data can be transmitted to the inspection management computer.

Furthermore, according to the configuration of claims 1 and 2, the mobile device for airtightness inspection transmits the composite data of the residence to the airtightness inspection management computer at the site where the airtight inspection has been performed. It becomes possible to reliably prevent tampering of data using the mobile device and to further prevent fraud. In addition, the computer for airtight inspection management combines the reception time with the composite data received from the mobile device for airtight inspection and stores it in the composite data storage means, so detailed analysis of the operation status of the mobile device for airtight inspection is possible become.

According to the third and fourth aspects of the present invention, since the mobile device for airtightness inspection includes the time data in the composite data, the operation status of the mobile device for airtightness inspection is the computer for the airtight inspection management that has received the composite data. Can be analyzed along a time series. Here, it is possible to prevent falsification of time data by using a radio timepiece as a timepiece for detecting time (invention of claim 7 ).

Furthermore, in the configuration of claims 1 and 3 , when the average speed moved between the two houses is equal to or lower than a predetermined reference average speed, the airtightness check result included in the composite data of the house before the movement is authentic. Therefore, when the airtight inspection results of a plurality of houses are acquired in a short period of time due to fraud, the fraud can be easily found.

In addition, in invention of Claim 1, 3 , not only the structure which calculates an actual average speed and compares with a reference average speed,
[Average speed] x [travel time] = [travel distance],
Or
[Average speed] x ([Movement time] + [Inspection time]) = [Movement distance]
A configuration for comparing the measured value of [movement time] with a reference value using the relational expression of, or a configuration for comparing the measured value of [movement distance] with a reference value is also included.

Further, in the configuration of claims 2 and 4 , the authenticity determination means is configured to prevent the airtightness of each dwelling when the number of operations per unit time of the mobile device for airtightness inspection is equal to or less than a predetermined reference number. Since it is determined that the inspection result is authentic, when the airtight inspection results of a plurality of residences are acquired in a short period of time due to fraud, the fraud can be easily detected.

[Invention of Claim 8 ]
As in the configuration of the eighth aspect, the mobile device for airtight inspection is provided with the GPS module, and the residence position data can be acquired. Further, the PHS terminal may be connected to the airtight inspection mobile device instead of the GPS module to acquire the residence position data.

[Inventions of Claims 9 and 10 ]
According to the configuration of claim 9 , gas pipe identification data relating to a gas stopper or a gas meter provided for each residence is input to the mobile device for airtight inspection with a keyboard as residence position data. The location of each residence can be identified based on the gas pipe identification data included in the composite data from the mobile device.

According to the configuration of claim 10, the mobile device for airtight inspection wirelessly receives the individual housing data from the RF tag provided for each residence, and the composite data from the mobile device for airtight inspection is received in the computer for airtight inspection. The position of each dwelling can be specified based on the individual dwelling data included.

  As another configuration, a barcode may be attached to each residence, and the barcode information included in the mobile device for airtightness inspection may be read to identify the location of each residence.

[Inventions of Claims 11 and 12 ]
In the configuration of claim 11 , an image unique to each residence is captured by the camera provided in the mobile device for airtightness inspection and included in the composite data. Therefore, when there is a suspicion of fraud, detailed analysis is performed by the airtightness inspection management computer. be able to. According to the twelfth aspect of the present invention, since the reflected wave data unique to each gas pipe is included in the composite data, a detailed analysis can be performed by the airtight inspection management computer when there is a suspicion of fraud.

[Invention of Claim 13 ]
In the configuration of the thirteenth aspect , an external computer terminal is connected to the airtight inspection management computer via a communication network, and the approved airtight inspection data is transmitted from the contracted external computer terminal as requested. Abuse of airtight inspection data can be prevented.

  The authorized airtight inspection data may be stored in an FD (flexible disk), USB memory, or other storage medium according to an external request in addition to being transmitted through a communication network.

[Invention of Claim 14 ]
According to the configuration of the fourteenth aspect , a person who has received the certified airtight inspection data can print out a certificate that the result of the airtight inspection is authentic, and can easily perform the procedure using documents.

  Hereinafter, an embodiment of the present invention will be described with reference to FIGS. The airtight inspection management system 10 according to the present embodiment is used to manage the airtight inspection work for the gas lamp inner tube 100 (the gas pipe downstream from the gas meter) as the “gas pipe” according to the present invention.

  As shown in FIG. 1, the airtight inspection management system 10 is sequentially attached to the gas lamp inner tubes 100 of a plurality of residences 102, and a plurality of digital manometers 11 for performing an airtight inspection of each of the gas lamp inner tubes 100. (Corresponding to the “mobile device for airtight inspection” of the present invention) and the airtight inspection management server 12 that collectively manages the airtight inspection results of the gas lamp inner tube 100 collected by the plurality of digital manometers 11 (“ And a plurality of personal computers 13 for requesting the airtight inspection result to the airtight inspection management server 12 and receiving the airtight inspection result output from the airtight inspection management server 12 (this book). Corresponding to the “external computer terminal” of the present invention), and via the communication network 14 such as the telephone line network 14a and the Internet 14b. And it has a configuration that is connected trust to be able to.

  Each digital manometer 11 is set with a Digimano ID for identifying the digital manometers 11. Each digital manometer 11 is usually carried by a gas company or a plurality of airtight inspectors of an inspector commissioned by a gas company, and each airtight inspector actually carries out to a plurality of residences 102 in charge. The gas lamp inner tube 100 provided in the residence 102 is subjected to an airtight inspection.

  The airtight inspection management server 12 is under the control of a data management company different from the gas company and the inspection company. All the results of the airtight inspection by the digital manometer 11 are stored in the airtight inspection management server 12. Then, the airtight inspection management server 12 is accessed from the personal computer 13 owned by the gas business operator, the gas customer or the owner of the residence 102 contracted with the data management company, and the airtight inspection result can be downloaded.

  As shown in FIG. 2, the digital manometer 11 includes, for example, a gas pipe connection portion 21 for connecting to the gas lamp inner tube 100 at the upper end of a vertically long rectangular body 20, and a display unit 22 on the upper side of the front surface of the body 20. And an input operation unit 23 including a plurality of operation buttons 23 a to 23 d on the lower side of the front surface of the body 20. Further, a battery accommodating portion (not shown) is provided on the back surface of the digital manometer 11, and a battery is accommodated therein. Furthermore, the lower end of the digital manometer 11 is provided with, for example, a mobile phone connector 24a and a USB connector 24b, to which a mobile phone 130 ("mobile communication means" of the present invention) and a personal computer 140 can be connected. ing. The digital manometer 11 may be driven by receiving power from an external power source.

  The configuration of the digital manometer 11 will be described in detail with reference to FIG. 3. The digital manometer 11 includes a pressure sensor 27 (corresponding to the “airtight inspection means” of the present invention) for detecting the internal pressure of the gas lamp inner tube 100. The detection result is taken into the main control unit 28. The main control unit 28 is constituted by, for example, a one-chip microcomputer having the CPU 28 </ b> A as a main part, and determines whether there is an abnormality with respect to the airtightness of the gas lamp inner tube 100 based on the detection result of the pressure sensor 27. Specifically, when the amount of gas leakage per unit time is calculated from the pressure change and measurement time, and it is below the reference value, it is determined that there is no abnormality in the airtightness, and the reference value is exceeded Is judged as “abnormality in airtightness”.

  The digital manometer 11 includes a GPS module 29 and a tag reader 32 as “position detection information acquisition means” of the present invention. The GPS module 29 is composed of, for example, a CF card type GPS receiver, and is detachably inserted into a card slot formed on the side surface of the body 20. The GPS module 29 receives a radio signal from the satellite 110 and performs position detection, and outputs current residence position data (specifically, latitude / longitude) to the main control unit 28 when pressure is detected by the pressure sensor 27. To do.

  The tag reader 32 performs wireless communication by bringing it close to the RF tag 101 attached to each residence 102 (specifically, each gas lamp inner tube 100), and stores individual residence data stored in the RF tag 101 as a residence position. It is read as data and output to the main control unit 28.

  The digital manometer 11 has a built-in radio timepiece 30 from which an operation unit for adjusting the time is excluded. The radio timepiece 30 receives the standard radio wave from the standard radio station 120 and detects the current time, and outputs the current time to the main control unit 28 when the pressure sensor 27 detects the pressure. As a result, the time data becomes extremely accurate, and the time data cannot be tampered with by operating the operation unit, thereby improving the reliability of the time data.

  Further, the digital manometer 11 is provided with a camera 31 that captures an image unique to each residence 102 (for example, an external appearance image of the residence 102 and the gas lamp inner tube 100 provided in the residence 102). Image data captured by the camera 31 is output to the main control unit 28.

  Then, the main control unit 28 obtains the airtight inspection result based on the detection value of the pressure sensor 27, the residence position data by the GPS module 29, the time data by the radio clock 30, the individual residence data by the tag reader 32, and the image data by the camera 31. Then, composite data combined in an integral manner is generated, and sequentially stored in, for example, a rewritable nonvolatile memory EEPROM 28B provided in the main control unit 28. The composite data can be transmitted from the mobile phone 130 or the personal computer 140 to the airtight inspection management server 12 through the communication network 14. Thereby, the airtight inspection management server 12 can efficiently acquire composite data from the plurality of digital manometers 11. Further, if the digital manometer 11 is provided with mobile communication means such as a mobile phone 130, the composite data can be transmitted from the digital manometer 11 to the airtight inspection management server 12 without being restricted by the location of the digital manometer 11. The main control unit 28 corresponds to the “composite data generation unit” of the present invention.

  As shown in FIG. 1, a composite database 40 (corresponding to “composite data storage means” of the present invention) and a tag database 44 are stored in a storage device such as a hard disk provided in the airtight inspection management server 12. Has been.

  When receiving the composite data from the digital manometer 11, the main controller 12A provided in the airtightness inspection management server 12 accesses the tag database 44 and “location of residence” corresponding to the individual residence data included in the composite data (specifically Specifically, an address is specified. The main controller 12A corresponds to the “position specifying means” of the present invention.

  The composite database 40 is provided with a plurality of data storage tables 41 and a plurality of determination result storage tables 42 corresponding to each digital manometer 11 and data reception date and time. Each data storage table 41 mainly stores composite data received from the digital manometer 11. For example, as shown in FIG. 4, each data storage table 41 is identified from the tag database 44 based on “data number”, “time data”, “residential location data”, and individual residential data unique to the composite data. Fields relating to “position of residence”, “airtight inspection result”, and “image data” are provided. The “data reference number” is assigned by the airtight inspection management server 12 when the composite data is stored in the data storage table 41, and includes at least a digimano ID.

  On the other hand, the determination result storage table 42 is provided with a “data reference number” (not shown) and a “true / false determination result” field for storing a true / false determination result of an airtight inspection result described later. The data storage table 41 and the determination result table are linked with the “data reference number” as a common field.

  When the airtight inspection management server 12 receives a request for providing the airtight inspection result from the personal computer 13, the airtight inspection management server 12 creates certified airtight inspection data, which will be described later, and outputs the data to the requesting personal computer 13.

  The configuration of the airtight inspection management system 10 has been described above. By the way, the procedure for performing an airtight inspection of the gas lamp inner tube 100 using the digital manometer 11 of the present embodiment is as follows.

  When the airtight inspector carrying the digital manometer 11 arrives at the residence 102 having the gas lamp inner tube 100 to be inspected, the digital manometer 11 is activated by pressing the power button 23a (see FIG. 2). Then, the airtightness inspection program PG1 shown in FIG. 5 is run. In the airtightness inspection program PG1, first, image data acquisition processing (S1) is executed. Here, the image data of the appearance of the gas lamp inner tube 100 provided in the residence 102 or the residence 102 is acquired by the camera 31.

  When the image data is acquired, the gas tube connecting portion 21 of the digital manometer 11 is connected to a predetermined location of the gas lamp inner tube 100, and the internal pressure of the gas lamp inner tube 100 is set to a predetermined value higher than the atmospheric pressure by a pressure pump (not shown). Set to pressure. The image data acquisition process (S1) may be skipped. However, if the image data is acquired, the airtight inspection management server 12 can perform a detailed analysis when there is a suspicion of fraud.

Subsequent to the image data acquisition process (S1), a dwelling unit individual data acquisition process (S2 ) is executed. Specifically, the individual residence data is read from the RF tag 101 by the tag reader 32.

  When the individual residence data is acquired, the internal pressure of the gas lamp inner tube 100 can be measured. Specifically, for example, a message “Please start pressure measurement” is displayed on the display unit 22 of the digital manometer 11. Therefore, when the Enter button 23b (see FIG. 2) is pressed, the internal pressure measurement of the gas lamp inner tube 100 is started by the digital manometer 11 (S3). If the pressure measurement is not started within a predetermined time after acquiring the individual housing data, the individual housing data may be cleared and the power may be turned off. As a result, it is possible to prevent an injustice that only the individual residence data is acquired by the residence 102 provided with the gas lamp inner tube 100 to be inspected and the pressure measurement is performed in another location.

When the pressure measurement of the gas lamp inner tube 100 is started, the internal pressure of the gas lamp inner tube 100 at that time is stored as a start pressure in a memory (not shown) provided in the main control unit 28. Further, during the pressure measurement, the pressure measurement value is displayed on the display unit 22 in real time. Then, during the pressure measurement, along with the current residence position data is acquired by the GPS module 29 (S 4), the current time data is acquired by the radio clock 30 (S5). In addition, when acquisition of residence position data or time data fails, you may make it perform acquisition processing (S3, S4) repeatedly until it can acquire. Further, when either the residence position data or the time data cannot be acquired during the pressure measurement, the pressure measurement result at that time may be invalidated and remeasured.

  When a predetermined time has elapsed from the start of measurement (Yes in S6), pressure measurement ends (S7), the internal pressure of the gas lamp inner tube 100 at that time is stored in the memory as the end-time pressure, and “measurement” is displayed on the display unit 22. Is finished "message appears. Accordingly, when the Enter button 23b is pressed, the main control unit 28 determines whether there is an abnormality in the airtightness based on the difference between the start pressure and the end pressure and the measurement time (S8), and is displayed on the display unit 22. The At this time, since two selection buttons of “composite data generation” and “re-measurement” are displayed on the display unit 22, any one is selected with the cursor button 23d and the Enter button 23b is pressed.

When “re-measurement” is selected, the processes of steps S3 to S8 are performed once again. On the other hand, when “Generate composite data” is selected, composite data in which the airtight inspection result, the residence position data, the time data, the individual residence data, and the image data are inseparable is generated and stored in the EEPROM 28B. (S9) . On more than, leak test for the tube 100 in the gas lamp is finished, the power is turned OFF to remove the digital manometer 11 from the pipe 100 in the gas lamps. In addition, before connecting the digital manometer 11 to the gas lamp inner tube 100, it is preferable to perform zero point correction at atmospheric pressure.

  When the airtight inspector moves to the next residence 102 with the digital manometer 11, the airtight inspector performs the airtight inspection according to the procedure described above on the gas lamp inner tube 100 provided in the residence 102. As described above, the digital manometer 11 is sequentially attached to the gas lamp inner pipes 100 of the plurality of residences 102 to perform the airtight inspection, and the plurality of composite data is sequentially stored in the EEPROM 28 </ b> B built in the digital manometer 11. .

  When the inspection work for one day is completed, a plurality of composite data stored in the digital manometer 11 are collected and transmitted to the airtight inspection management server 12. Specifically, the cellular phone 130 or the personal computer 140 is connected to the cellular phone connector 24a or the USB connector 24b, and the digital manometer 11 is turned on. Then, the airtight inspection management server 12 is accessed from the mobile phone 130 or the personal computer 140, and the transmission button 23c provided in the digital manometer 11 is pressed. Then, a plurality of composite data stored in the digital manometer 11 is transmitted to the airtight inspection management server 12 through the communication network 14. When the transmission of the composite data is completed, a message “Data transmission is completed” is displayed on the display unit 22 of the digital manometer 11. Therefore, the digital manometer 11 is turned off and the mobile phone 130 or the personal computer 140 is turned off. Disconnect from. Note that the composite data stored in the digital manometer 11 may be automatically cleared when the data transmission is completed.

When the composite data is transmitted from the digital manometer 11, the airtight inspection management server 12 executes the composite data reception program PG2 shown in FIG. That is, it is determined from which digital manometer 11 the composite data transmitted from the Digimano ID added to the head of the composite data, and in each field of the data storage table 41 (see FIG. 4) corresponding to the Digimano ID, Various data included in the composite data is stored (S11). In this step S11, the tag database 44 is accessed to identify “location of residence” from the individual residence data included in the composite data, and store it in the field of the data storage table 41 .

Next, the airtight inspection management server 12 determines the authenticity of the airtight inspection result stored in each data storage table 41 (S12). The authenticity determination process (S12) corresponds to the “authenticity determination means ” of the present invention.

  Specifically, for example, based on a plurality of time data stored in the same data storage table 41, gas lamps that are inspected by one digital manometer 11 per unit time (for example, per hour, per day) The number of inner and inner tubes 100 is counted. When the count result is equal to or less than the upper limit number when the inspection work is properly performed, it is determined that the airtight inspection result within the unit time is authentic. On the other hand, when the count result is larger than the upper limit number, that is, when one digital manometer 11 has performed airtight inspection as many times as possible in a unit time, which is impossible with proper inspection work. Therefore, it is determined that the result of the airtight inspection determined within the unit time is not authentic, that is, it is suspicious that the airtight inspection was performed by going to the site of the residence 102.

  Further, for example, the number of times the operation buttons 23a to 23d of one digital manometer 11 are pressed per unit time is counted, and when the number is less than a preset reference number, the unit time is within the unit time. It is determined that the determined airtight inspection result is authentic.

  Further, for example, the distance between the two dwellings 102 is calculated from the “dwelling position data” or “dwelling position” included in the composite data of the two dwellings 102 continuously transmitted from the same digital manometer 11. From the “time data” included in the two composite data, the travel time required for travel between the two residences 102 is calculated, and the average travel speed of the airtight inspector is calculated from the distance between the two residences 102 and the travel time. Calculate.

  When the average moving speed is equal to or lower than a preset reference average speed, the airtightness check result included in the two composite data is determined to be authentic. One airtight test result is determined not to be authentic. More specifically, for example, the distance between two residences 102 calculated based on “residential location data” or “residential location” is 10 km, and it takes at least 40 minutes to withdraw, move, and prepare (standard) (Average speed 15 km / h) However, if the travel time calculated based on the time data is 2 minutes (average travel speed 300 km / h), at least one of the results of the airtight inspection for the two dwellings 102 Therefore, it is highly likely that the results are not obtained by actually going to the site of the residence 102 to be inspected.

  That is, when the airtight inspection results of a plurality of houses are acquired in a short period of time due to fraud, it is determined that the inspection results are not authentic.

  Further, for example, the “residential location data” acquired by the GPS module 29 is compared with the “residential location” obtained by comparing the individual residential data acquired from the RF tag 32 with the tag database 44. Are matched within a predetermined error range, it is determined that the airtight inspection result included in the composite data is authentic, and when they do not match, the airtight inspection result is determined not to be authentic.

  As described above, when the authenticity of the airtight inspection result is determined by the authenticity determination process (S12), the airtight inspection management server 12 stores the authenticity determination result in the determination result table (S13). Specifically, a record having the same “data number” as the “data number” included in the data storage table 41 is added to the determination result storage table 42 of the composite database 40, and each airtightness is added to the new record. Stores the authenticity determination result for the inspection result.

  As a result, an airtight inspection result is produced without actually inspecting the gas lamp inner tube 100 that has been inspected (for example, an airtight inspection for a gas lamp inner tube different from the inspection target). It is possible to easily find a fraudulent act such as falsifying the airtight inspection result as if it was the airtight inspection result for the gas lamp inner tube 100 to be inspected.

  Now, the airtight inspection result stored in the airtight inspection management server 12 by the above-described procedure can be downloaded by the procedure described below. First, the airtight inspection management server 12 is accessed from the personal computer 13. Then, the browser is started up and input of an ID and a password (corresponding to “contract data” of the present invention) is requested. Here, when the ID and password given to the owner of the personal computer 13 at the contract with the data management company are input, the personal computer 13 and the airtight inspection management server 12 can communicate with each other. By doing so, it is possible to prevent the leak of the airtight inspection result and the misuse of the certified airtight inspection data output from the airtight inspection management server 12.

  When communication with the airtight inspection management server 12 becomes possible, a condition input screen is displayed on the display 13D of the personal computer 13 as shown in FIG. The specific condition data for specifying the airtight inspection result requested here is input. Specifically, the Digimano ID, the date and time when the examination is performed, and the location (address, latitude / longitude) of the residence 102 are input. When the specific condition data is input, the transmission button 200 on the condition input screen is clicked to transmit the specific condition data to the airtight inspection management server 12.

When the specific condition data is sent from the personal computer 13, the airtight inspection management server 12 runs the airtight inspection data providing program PG3. As shown in FIG. 7, when the airtight inspection management server 12 receives the specific condition data (S21), the received specific condition data and each data stored in the data storage table 41 of the composite database 40 (see FIG. 4). Are sequentially checked to extract an airtight inspection result that matches the specific condition data (S22). Then, the airtight inspection result, the data reference number of the composite data including the airtight inspection result, the information (for example, address) for identifying the residence 102, and the authenticity determination result for the airtight inspection result are inseparably combined. The created airtight inspection data is generated (S23) and output to the requesting personal computer 13 (S24). In other words, the airtight inspection result determined to be authentic by the authenticity determination process (S12) is equivalent to the airtight inspection data to which the information certified as authentic is added (corresponding to “certified airtight inspection data” of the present invention). Is generated and output, and the airtight inspection data determined to be not authentic by the authenticity determination process (S12) is generated and output with the information approved as not authentic. The process in step S23 corresponds to the “authorized data generation unit ” in the present invention, and the process in step S24 corresponds to the “data output unit ” in the present invention.

  Then, a list of the airtight inspection data transmitted from the airtight inspection management server 12 is displayed on the display 13D of the personal computer 13 as shown in FIG. That is, it is possible to view each airtight inspection result and the authenticity determination result (information for authenticating authenticity) on the airtight inspection result on the display 13D of the personal computer 13. Since the data reference number includes a digimano ID, it is possible to specify the digital manometer 11 that has acquired an airtight test result that is not authentic from the digimano ID.

  Here, the airtight inspection data related to the airtight inspection result determined to be authentic as a result of the authenticity determination includes print data. Then, when the “print” button 201 on the list display screen shown in FIG. 9 is clicked, a certificate 90 that the airtight inspection result is authentic is printed out. As a result, it is possible to easily perform a procedure using documents.

  As shown in FIG. 10, the certificate 90 includes a data management number, a data identification number assigned by the airtight inspection management server 12, information for identifying the residence 102 (for example, an address), and an airtight inspection result, as well as a data management company name and a certification seal. Is printed. As a result, the person who has been provided with the airtight inspection result is authentic that the airtight inspection result has been acquired by proper airtight inspection work, and the airtight inspection management that the airtight inspection result is managed by the data management company. It can be confirmed that the data is output from the server 12.

  In addition, since the data for printing is not included in the airtight inspection data related to the airtight inspection result determined to be not authentic as a result of the authenticity determination, for the airtight inspection result obtained by the illegal inspection work, The certificate 90 cannot be issued. Thereby, the reliability of the certificate 90 can be further improved.

  In addition, the gas company who has received the result of the airtight inspection can know the gas lamp inner tube 100 for which the airtight inspection has not been properly performed. For such an inner tube 100, It is possible to perform a proper airtight inspection again.

  In the list display screen shown in FIG. 9, the field that displays the authentic airtight test result and the field that displays the non-authentic airtight test result have different background colors or the field that displays the non-authentic airtight test result. If only the flashing display is made, it is easy to distinguish between a genuine airtight inspection result and a non-authentic airtight inspection result.

  As described above, according to the airtight inspection management system 10 of the present embodiment, when the airtight inspector attaches the digital manometer 11 to the gas lamp inner tube 100 and performs the airtight inspection of the gas lamp inner tube 100, the airtight inspection is performed. The digital manometer 11 obtains the residence position data at the site where the inspection is performed, and generates the composite data by combining the residence position data with the airtight inspection result. The airtight inspection management server 12 acquires the composite data from the digital manometer 11, and whether the airtight inspection result of each residence 102 included in the composite data is a genuine airtight inspection result inspected at the site of each residence 102. Judgment of authenticity. Then, the airtight inspection data determined to be authentic is added with the airtight inspection data added with the certified information, and the predetermined airtight inspection data is output in response to a request from the personal computer 13. As a result, when the airtight inspector illegally conducts the airtight inspection using the digital manometer 11 at a location different from the residence 102 to be inspected, the location of the residence 102 is separated from the composite data of the predetermined residence 102. The dwelling location data of the location is included, and the basis for such fraud is recorded as composite data. This makes it possible to detect fraudulent acts by an airtight inspector. In addition, the administrator of the airtight inspection management server 12 that has received the composite data can manage the behavior of the airtight inspector who handles the digital manometer 11 and suppress fraud. Further, since the airtight inspection data including the authentic airtight inspection result includes information that has been authenticated by the authenticity determination processing (S12) in the airtight inspection management server 12, this airtight inspection data is used. By doing so, the reliability of the airtight inspection result is improved.

  Furthermore, since the digital manometer 11 includes the time data in the composite data, the airtight inspection management server 12 that has received the composite data can analyze the operation status of the digital manometer 11 in time series.

  Further, since the airtight inspection data can be acquired through the communication network 14, it is relatively easy to acquire and view the airtight inspection result. Further, since the airtight inspection result is stored in the composite database 40 as electronic data, it is possible to eliminate a space for storing a document describing the airtight inspection result as in the conventional case.

[Other Embodiments]
The present invention is not limited to the above-described embodiment. For example, the embodiments described below are also included in the technical scope of the present invention, and various other than the following can be made without departing from the scope of the invention. It can be changed and implemented.

  (1) In the above embodiment, a plurality of composite data stored in the digital manometer 11 are collected and transmitted to the airtight inspection management server 12 at the same time after one day of inspection work is completed. The acquired composite data may be transmitted to the airtight inspection management server 12 at the site where the residence 102 that has performed the airtight inspection is completed every time the airtight inspection of the gas lamp inner tube 100 is completed. In this way, it is possible to reliably prevent tampering of data using the digital manometer 11 and to further prevent fraud. In this case, instead of the radio timepiece 30 of the digital manometer 11, the airtight inspection management server 12 is provided with a timepiece, and the reception time of the composite data is combined with the composite data and stored in the composite database 40. Good. In this way, detailed analysis of the operation status of the digital manometer 11 becomes possible.

  Furthermore, the authenticity determination process (S12) of the airtight inspection result in the airtight inspection management server 12 may be performed as follows. That is, based on the reception time included in the composite data of the two residences 102 and 102 transmitted continuously from the digital manometer 11, the average speed when moving between the two residences 102 and 102 is calculated, What is necessary is just to determine with the airtight test result contained in the composite data of the residence 102 before a movement being authentic, when the average speed is below a predetermined reference average speed. Even if it does in this way, when the airtight test result of the some residence 102 is acquired in a short period of time by cheating, the cheating can be discovered easily.

  (2) The digital manometer 11 may include an ultrasonic transducer in place of the camera 31. Specifically, the ultrasonic transducer is attached to the gas pipe connecting portion 21 and the gas pipe connecting portion 21 is attached to the gas lamp inner tube 100 so that the ultrasonic transducer is directed toward the inner wall of the gas lamp inner tube 100. Send a sound wave. Then, a reflected wave having a reflection wavelength specific to the gas lamp inner tube 100 reflected by the inner wall may be received, and the reflected wave data may be included in the composite data. Even in such a configuration, the airtight inspection management server 12 can perform a detailed analysis when there is a suspicion of fraud.

  (3) In the above embodiment, the personal computer 13 is exemplified as the external computer terminal capable of taking out the airtight inspection result from the airtight inspection management server 12, but may be, for example, a PDA, a mobile phone, or a FAX. The airtight inspection result stored in the airtight inspection management server 12 may be taken out by the digital manometer 11.

(4) In the above embodiment, the mobile phone 130 is exemplified as the mobile communication means of the present invention, but a PHS terminal or a communicable notebook computer may be used.

  (5) In the above embodiment, the GPS module 29 is exemplified as the position detection information acquisition unit. However, a PHS terminal may be used.

  (6) In the above embodiment, the results of the airtight inspection stored in the airtight inspection management server 12 are downloaded to the personal computer 13 via the communication network 14, but an FD (flexible disk) or USB memory is used as required. You may make it memorize | store and give authorized airtight test | inspection data to another storage medium.

  (7) In the above embodiment, the home position data by the GPS module 29 and the time data by the radio clock 30 are acquired during the pressure measurement of the inner tube 100 of the gas lamp, but are acquired before and after the pressure measurement. You may make it do. Here, when acquiring before the pressure measurement, when the pressure measurement is not started within a predetermined time after acquiring the residence position data and the time data, the residence position data and the time data are invalidated. You may do it. In this way, it is possible to prevent an injustice that only the residence position data and time data are acquired in the residence 102 to be inspected, and the airtight inspection result is acquired later at a location different from the residence 102 to be inspected. it can. Moreover, when acquiring after pressure measurement, you may make it invalidate a pressure measurement result when dwelling position data and time data are not acquired within predetermined time after the pressure measurement is complete | finished. In this way, the airtight inspection result is obtained at a location different from the gas lamp inner tube to be inspected, and later moved to the inspected residence 102 to obtain the residence position data and time data. It is possible to prevent fraud such as acquisition.

  (8) The airtight inspection management server 12 may transmit the airtight inspection data to the personal computer 13 by e-mail.

  (9) When the airtightness inspection management server 12 executes the authenticity determination process (S12), if airtightness information that is not authentic is found, the composite data including the airtightness information that is not authentic is combined with the Digimano ID. Alternatively, it may be transmitted to the personal computer 13 owned by the gas company. In this way, the gas company can quickly know the suspicious authenticity of the airtight inspection result, and can quickly perform the airtight inspection on the gas lamp inner tube 100 in an appropriate procedure. it can.

  (10) The digital manometer 11 may be equipped with a printer so that the generated composite data can be printed out.

(11) In the above embodiment, the digital manometer 11 is provided with the two position detection information acquisition means of the GPS module 29 and the tag reader 32. However, only one of them may be used.

( 12 ) In the above embodiment, the tag reader 32 is provided as position detection information acquisition means. However, for example, the residence individual data is stored in a barcode and attached to a gas pipe, a gas meter, or a gas stopper and attached to the digital manometer 11. You may provide the barcode reader which can read residence individual data from barcode (A 2D and 3D barcode is included).

  Moreover, it may replace with the tag reader 32 and may be provided with the keyboard for inputting the gas pipe identification data which concerns on the gas stopper or gas meter with which each residence 102 was equipped as residence position data. At this time, if the gas tightness inspection management server 12 is provided with a gas pipe database in which the gas pipe identification data and the position of each residence 102 are associated with each other instead of the tag database 44, the residence is based on the gas pipe identification data. The position of 102 can be specified.

( 13 ) In the above embodiment, the gas lamp inner pipe 100 is exemplified as the “gas pipe” according to the present invention. However, the “gas main pipe” extending from the gas manufacturing factory, from the gas main pipe to the outer edge of the residential premises It may be a “gas supply pipe” that extends, or a “gas lamp outer pipe” that extends from the outer edge of the site to the gas meter.

The conceptual diagram of the airtight inspection management system which concerns on one Embodiment of this invention. Front view of digital manometer Digital manometer block diagram Conceptual diagram of data storage table Airtight inspection program flowchart Flow chart of composite data reception program Flow chart of airtight inspection data providing program Condition input screen displayed on the display List display screen displayed on the display Printed certificate

Explanation of symbols

11 Digital manometer (mobile device for airtightness inspection)
12 Airtight inspection management server (Airtight inspection management computer)
12A Main controller (position specifying means)
13 PC (external computer terminal)
14 Communication Network 21 Gas Pipe Connection 27 Pressure Sensor (Airtight Inspection Means)
28 Main control unit (composite data generation means)
28B EEPROM (housing identification data storage means)
29 GPS module information acquisition means)
30 Radio Clock 31 Camera 32 Tag Reader 40 Compound Database (Composite Data Storage Means)
41 Data storage table 42 Judgment result storage table 44 Tag database 90 Certificate 100 Gas lamp inner pipe (gas piping)
101 RF tag 102 residence 120 standard radio station 130 mobile phone (mobile communication means )
140 PC

Claims (14)

An airtight inspection means for sequentially attaching to the gas piping of a plurality of houses, and performing an airtight inspection of each gas piping;
Location detection information acquisition means for acquiring residence position data for specifying the location at the site where the residence where the airtight inspection was performed,
A mobile device for airtight inspection comprising: composite data generating means for generating composite data by combining the residence position data with the airtight inspection result for each residence;
An airtight inspection management system comprising an airtight inspection management computer capable of acquiring a plurality of the composite data from the airtight inspection mobile device,
In the airtight inspection management computer,
Composite data storage means for storing the plurality of composite data;
Authenticity determination means for determining whether the airtight inspection result of each residence is a genuine airtight inspection result inspected at the site of each residence based on the residence position data included in the composite data When,
The certified data generation means for generating certified airtight inspection data by adding information that has been authenticated to the airtight inspection result determined that the authenticity determination means is authentic;
In response to an external request, the data output means for outputting the predetermined certified airtight inspection data ,
The composite data can be transmitted from the mobile device for airtight inspection to the computer for airtight inspection management via the Internet, a telephone network or other communication network,
The mobile device for airtight inspection is provided with mobile communication means connectable to the communication network by radio,
The mobile device for airtight inspection is configured to wirelessly output the composite data of the residence from the mobile communication means and transmit it to the airtight inspection management computer at a site where the airtight inspection has been performed,
The airtight inspection management computer includes a clock, and is configured to combine the reception time with the composite data received from the mobile device for airtight inspection and store it in the composite data storage means,
Based on the composite data of the two houses continuously transmitted from the mobile device for airtightness inspection, the true / false determining means has an average moving speed between the two houses equal to or less than a predetermined reference average speed. In the case, the airtight inspection management system determines that the airtight inspection result included in the composite data of the residence before moving is authentic. An airtight inspection means for sequentially attaching to the gas piping of a plurality of houses, and performing an airtight inspection of each gas piping;
Location detection information acquisition means for acquiring residence position data for specifying the location at the site where the residence where the airtight inspection was performed,
A mobile device for airtight inspection comprising: composite data generating means for generating composite data by combining the residence position data with the airtight inspection result for each residence;
An airtight inspection management system comprising an airtight inspection management computer capable of acquiring a plurality of the composite data from the airtight inspection mobile device,
  In the airtight inspection management computer,
Composite data storage means for storing the plurality of composite data;
Authenticity determination means for determining whether the airtight inspection result of each residence is a genuine airtight inspection result inspected at the site of each residence based on the residence position data included in the composite data When,
The certified data generation means for generating certified airtight inspection data by adding information that has been authenticated to the airtight inspection result determined that the authenticity determination means is authentic;
In response to an external request, the data output means for outputting the predetermined certified airtight inspection data,
The composite data can be transmitted from the mobile device for airtight inspection to the computer for airtight inspection management via the Internet, a telephone network or other communication network,
The mobile device for airtight inspection is provided with mobile communication means connectable to the communication network by radio,
The mobile device for airtight inspection is configured to wirelessly output the composite data of the residence from the mobile communication means and transmit it to the airtight inspection management computer at a site where the airtight inspection has been performed,
The airtight inspection management computer includes a clock, and is configured to combine the reception time with the composite data received from the mobile device for airtight inspection and store it in the composite data storage means,
The authenticity determination means, when the number of operations per unit time of the mobile device for airtightness inspection is equal to or less than a predetermined standard number of times, the airtightness inspection result of each residence is authentic An airtight inspection management system characterized by judging. An airtight inspection means for sequentially attaching to the gas piping of a plurality of houses, and performing an airtight inspection of each gas piping;
Location detection information acquisition means for acquiring residence position data for specifying the location at the site where the residence where the airtight inspection was performed,
A mobile device for airtight inspection comprising: composite data generating means for generating composite data by combining the residence position data with the airtight inspection result for each residence;
An airtight inspection management system comprising an airtight inspection management computer capable of acquiring a plurality of the composite data from the airtight inspection mobile device,
  In the airtight inspection management computer,
Composite data storage means for storing the plurality of composite data;
Authenticity determination means for determining whether the airtight inspection result of each residence is a genuine airtight inspection result inspected at the site of each residence based on the residence position data included in the composite data When,
The certified data generation means for generating certified airtight inspection data by adding information that has been authenticated to the airtight inspection result determined that the authenticity determination means is authentic;
In response to an external request, the data output means for outputting the predetermined certified airtight inspection data,
The mobile device for airtightness inspection is provided with a clock from which an operation unit for adjusting time is excluded,
The composite data generation means is configured to include time data in the composite data for each residence,
Based on the composite data of the two houses continuously transmitted from the mobile device for airtightness inspection, the true / false determining means has an average moving speed between the two houses equal to or less than a predetermined reference average speed. In the case, the airtight inspection management system determines that the airtight inspection result included in the composite data of the residence before moving is authentic. An airtight inspection means for sequentially attaching to the gas piping of a plurality of houses, and performing an airtight inspection of each gas piping;
Location detection information acquisition means for acquiring residence position data for specifying the location at the site where the residence where the airtight inspection was performed,
A mobile device for airtight inspection comprising: composite data generating means for generating composite data by combining the residence position data with the airtight inspection result for each residence;
An airtight inspection management system comprising an airtight inspection management computer capable of acquiring a plurality of the composite data from the airtight inspection mobile device,
  In the airtight inspection management computer,
Composite data storage means for storing the plurality of composite data;
Authenticity determination means for determining whether the airtight inspection result of each residence is a genuine airtight inspection result inspected at the site of each residence based on the residence position data included in the composite data When,
The certified data generation means for generating certified airtight inspection data by adding information that has been authenticated to the airtight inspection result determined that the authenticity determination means is authentic;
In response to an external request, the data output means for outputting the predetermined certified airtight inspection data,
The mobile device for airtightness inspection is provided with a clock from which an operation unit for adjusting time is excluded,
The composite data generation means is configured to include time data in the composite data for each residence,
The authenticity determination means, when the number of operations per unit time of the mobile device for airtightness inspection is equal to or less than a predetermined standard number of times, the airtightness inspection result of each residence is authentic An airtight inspection management system characterized by judging.
5. The airtight inspection according to claim 3 or 4, wherein the composite data can be transmitted from the airtight inspection mobile device to the airtight inspection management computer via the Internet, a telephone line network, or other communication network. Management system. The airtight inspection management system according to claim 5, wherein the mobile device for airtight inspection is provided with mobile communication means connectable to the communication network by radio. The airtight inspection management system according to any one of claims 3 to 6, wherein the timepiece is a radio timepiece that receives a standard radio wave from a standard radio station and acquires the time data. The airtight inspection management system according to any one of claims 1 to 7, wherein the position detection information acquisition means is a GPS module. The position detection information acquisition means is a keyboard for inputting gas pipe identification data relating to a gas stopper or a gas meter provided in each residence as the residence location data,
The airtight inspection management computer includes a position specifying means for accessing a gas pipe database in which the gas pipe identification data and the position of each house are associated with each other and specifying the position of each house. The airtight inspection management system according to any one of claims 1 to 7. The position detection information acquisition means is a tag reader that acquires individual residence data as the residence location data from an RF tag provided in each residence.
The airtight inspection management computer includes a position specifying unit that accesses a tag database that associates the individual house data with the position of each house and specifies the position of each house. The airtight inspection management system according to any one of claims 1 to 7. The airtight inspection mobile device includes a camera that captures an image unique to each residence, and the composite data generation unit includes image data captured by the camera in the composite data. The airtight inspection management system according to any one of claims 1 to 10. In the airtight inspection mobile device, an ultrasonic transducer for transmitting an ultrasonic wave toward the inner wall of the gas pipe and detecting a reflected wave having a reflection wavelength specific to each residence with respect to the ultrasonic wave Is provided,
The composite data generation means includes reflected wave data specifying the reflected wave detected by the ultrasonic transducer in the composite data. Airtight inspection management system. An external computer terminal is connected to the airtight inspection management computer via the communication network,
The data output means receives contract data for determining whether or not a contract has been made from the external computer terminal, and only when the contract has been made, the certified airtight inspection in response to a request from the external computer terminal The airtight inspection management system according to any one of claims 1 to 12, wherein data is transmitted. 14. The certified data generation unit generates print data for printing out a certificate that the airtight inspection result is authentic, and includes the data in the certified airtight inspection data. The airtight inspection management system described.

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