JP2013012008A - Drawing management system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a drawing management system which allows multiple workers to refer to a drawing related to check works and check information written in the drawing and update the check information from different work places in the same time zone in parallel.SOLUTION: The drawing management system includes a database server for storing drawing information indicating a layout of a facility to be checked and check required parts as drawings and check information indicating a check status of each check required part, and portable terminals provided communicably with the database server for referring to the drawing information and the check information in the database server and receiving input operations of check information changed as a result of each check work. Each portable terminal transmits newly input check information to the database server each time it receives an input operation of check information, while the database server updates the stored check information by using the new check information received from each portable terminal.

Description

  The present invention relates to a drawing management system.

  Conventionally, when a wiring check of a large-scale facility having a drive device (drive inverter) or the like is performed, a drawing used for the wiring check is printed on paper. In this drawing, wiring between related devices is described. FIG. 6 shows an example of a facility wiring check procedure using a drawing printed on such paper.

  When the scale of equipment to be checked is large, the places where equipment that needs to be checked are often scattered in various places in a large room such as an electric room. Thus, the worker who performs the check first performs the check work using the first drawing 5a in the first work place 1a. When the check operation is a wiring check for confirming whether or not the wiring is correctly conducted, the worker, for example, highlights the wiring confirmed to be correctly conducted on the first drawing 5a, for example, a highlighter pen. Check to fill with etc.

  Then, when the check work in the first work place 1a is completed, the worker moves to the second work place 1b and confirms that it is correctly conducted in the same manner as the check work in the first work place 1a. The added wiring is added and entered on the first drawing 5a in which the check result in the first work place 1a is entered. In this manner, the worker holds the first drawing 5a and adds check information to the first drawing 5a while going to and from each work place. When the check work at all the workplaces is completed, a completed drawing 6 that has been checked is obtained.

  Note that the example of FIG. 6 described above is a case where the check work is sequentially performed for each of a plurality of work places. On the other hand, conventionally, a check operation has also been performed concurrently in a plurality of work places. FIG. 7 shows an example of the work procedure when the check work is simultaneously performed in the plurality of work places.

  First, the first drawing 5a used for the check operation is duplicated in advance and a second drawing 5b having the same contents as the first drawing 5a is created and prepared. Then, in the first work place 1a, a check operation is performed using the first drawing 5a, and check information is entered on the first drawing 5a for the wiring confirmed to be correctly conducted. . At the same time, in the second work place 1b, another worker performs a check work using the second drawing 5b and enters check information on the second drawing 5b.

  When the check work in each workplace is completed in this way, the completed drawing 6 is obtained by copying the check information entered in one drawing, here the second drawing 5b, to the other drawing, the first drawing 5a. Create In most cases, the completed drawing 6 in which all the check information completed in this way is filled in is required to be submitted to a facility designer or a facility client.

  In addition, conventionally, a device connection management system for managing the connection status of a line when performing a connection test in wiring work using a drawing displayed as electronic data on a computer terminal or the like instead of a drawing printed on paper. It consists of a plurality of computers connected to a network and a database, and manages the connection between devices of electrical system cables. Drawings such as unfolded connection diagrams and connection diagrams are stored in the database, There is known a method of accumulating connection results by connecting cables in accordance with drawings stored in a database, and confirming the accumulated connection results after completion of the connection work (for example, see Patent Document 1).

  In addition, as a drawing editing device for the purpose of enabling simultaneous editing from a plurality of terminals to drawings stored in the server, exclusive processing is performed not for each drawing but for each entity or layer in the drawing. What was made to perform is known (for example, refer patent document 2).

  Furthermore, with the aim of enhancing the operability of the portable terminal computer carried at the time of equipment inspection, the portable terminal incorporates a GPS (Global Positioning System) receiver and carries the portable terminal based on the GPS data. When it is detected that an employee has approached the target equipment, it is known that an inspection checklist of the target equipment is transmitted to the mobile terminal from the database storing the facility-related information and automatically displayed. (For example, see Patent Document 3).

JP 2003-281196 A JP 09-198426 A Japanese Patent Laid-Open No. 11-327628

  However, in the conventional method using the drawings printed on the paper in the facility confirmation work as shown in FIG. 6, the drawings printed on one sheet of paper are used, and each worker in a different work place There is a problem that the check work cannot be performed in parallel from different work places. Further, in the conventional method shown in FIG. 7, the drawings are duplicated and used on a plurality of sheets of paper, and check information is entered in separate drawings. Therefore, each sheet is obtained in order to obtain a final completed drawing. There is a problem that a process for aggregating the check information entered in the drawings is required, which is troublesome.

  In addition, the conventional device connection management system disclosed in Patent Document 1 only unilaterally accumulates information on connection status and work during connection work, and after all connection work is completed, the test department Confirms the connection results accumulated by connecting the computer terminal to the database. For this reason, there is a problem that a plurality of workers cannot refer to or update the check information entered in the drawings related to the check work in parallel from different work places in the same time zone.

  The conventional drawing editing apparatus disclosed in Patent Document 2 performs an exclusive process for each entity or each layer in the drawing. For this reason, in the case where elements on the drawing for which a plurality of workers are going to enter check information are present in the same entity or the same layer, a plurality of elements as well as those disclosed in Patent Document 1 are used. There is a problem that no worker can update the check information in the same time zone.

  Also in the one disclosed in Patent Document 3, it is not considered that a plurality of workers perform the check work in the same time zone, and there is a problem similar to that of the prior art disclosed in Patent Document 1.

  The present invention has been made to solve such a problem, and a plurality of workers are filled in one drawing related to the check work or this drawing in parallel at the same time zone from different work places. The drawing management system can be obtained by referring to the check information and updating the check information.

  In the drawing management system according to the present invention, the layout of the target equipment for the confirmation work and the drawing information representing the confirmation necessary place necessary for the confirmation work existing in the target equipment, and the confirmation state of the confirmation necessary place are represented. A database server that stores confirmation information; a portable terminal that refers to the drawing information and the confirmation information stored in the database server and receives an input operation of the confirmation information that has changed as a result of the confirmation operation; A communication line for communicatively connecting the database server and the mobile terminal, and the mobile terminal transmits the input confirmation information to the database server each time an input operation of the confirmation information is received. The database server is stored in itself by the received confirmation information from the mobile terminal. A structure in which to update the confirmation information.

  In the drawing management system according to the present invention, a plurality of workers can check by referring to one drawing related to the check work and check information written in the drawing in parallel from different work places in the same time zone. There is an effect that information can be updated.

It is a figure which shows typically the whole structure of the drawing management system which concerns on Embodiment 1 of this invention. It is a flowchart which shows the database of the drawing management system which concerns on Embodiment 1 of this invention, and the information update process in each terminal. It is a figure explaining the content stored in the database of the drawing management system which concerns on Embodiment 1 of this invention, and the content displayed on each terminal. It is a figure explaining the content stored in the database of the drawing management system which concerns on Embodiment 2 of this invention, and the content displayed on each terminal. It is a figure explaining the example of the database of the drawing management system which concerns on Embodiment 2 of this invention, and the information update in each terminal. It is a figure which shows the 1st example of the confirmation work procedure of the facility in the past. It is a figure which shows the 2nd example of the confirmation work procedure of the facility in the past.

  The present invention will be described with reference to the accompanying drawings. Throughout the drawings, the same reference numerals indicate the same or corresponding parts, and redundant description thereof will be simplified or omitted as appropriate.

Embodiment 1 FIG.
1 to 3 relate to Embodiment 1 of the present invention. FIG. 1 is a diagram schematically showing the overall configuration of the drawing management system. FIG. 2 is a drawing management system database and information update processing in each terminal. FIG. 3 is a diagram for explaining the contents stored in the database of the drawing management system and the contents displayed on each terminal.

  In FIG. 1, reference numerals 1a and 1b denote a plurality of work places where facilities to be checked are installed, which are a first work place and a second work place, respectively. In addition, here, as an example of the confirmation work, for example, a description will be given assuming a wiring check work for confirming whether the wiring is correctly performed between the devices constituting the facility (whether the wiring is correctly conducted). To do. Workers who perform the wiring check work in the first work place 1a and the second work place 1b carry the first portable terminal 2a and the second portable terminal 2b, respectively.

  An access point 3 for performing wireless communication with the first mobile terminal 2a and the second mobile terminal 2b is installed in the first work place 1a and the second work place 1b. The communicable range by the access point 3 covers all places in the first work place 1a and the second work place 1b where the wiring check work is actually performed.

  A database server 4 is communicably connected to the access point 3 via a communication cable. Thus, the first portable terminal 2a and the second portable terminal 2b carried by the worker can perform data communication with the database server 4 via the access point 3 in the first work place 1a and the second work place 1b. It is like that.

  The database server 4 stores drawing information in advance. This drawing information shows the layout of the target equipment for the wiring check work and the check-required locations in the target equipment. That is, the drawing information shows each device included in the target facility and the wiring between these devices. Each wiring between devices included in the drawing information is a check-necessary portion that is a direct target of the wiring check work.

  In addition, the database server 4 also stores check information for each check necessary part included in the drawing information. This check information is information indicating whether the wiring check operation has been completed or not yet completed for each of the check-required portions. Note that the drawing information stored in the database server 4 is information having a property that once it is set before the start of the check operation, it is not updated in principle during the check operation. On the other hand, the check information is information that is updated with the progress of the wiring check work.

  The first portable terminal 2 a and the second portable terminal 2 b can receive the drawing information and the check information transmitted from the database server 4 by wireless communication via the access point 3. The received drawing information and check information are displayed on display screens provided in the first portable terminal 2a and the second portable terminal 2b. The display screens of the first portable terminal 2a and the second portable terminal 2b are touch panels, and an operator basically uses a touch pen (stylus) while referring to information displayed on the display screen. Touch the touch panel. In addition, for operation of each portable terminal, a keyboard, a trackball, or the like can be connected to the portable terminal as an auxiliary.

  Each worker checks the wiring, which is a check-required part, in each work place as a holding place while referring to the drawing information and check information displayed on the portable terminal carried by each worker. Then, the worker operates the first portable terminal 2a (or the second portable terminal 2b) and inputs the result of the wiring check work as check information. That is, the check information that the check has been completed is input to the portable terminal for the wiring that has been confirmed to be correctly conducted by the wiring check operation.

  The check information input by either the first mobile terminal 2 a or the second mobile terminal 2 b is transmitted to the database server 4 by wireless communication via the access point 3. When the database server 4 receives the check information transmitted from either the first portable terminal 2a or the second portable terminal 2b, the database server 4 updates the check information stored in the database server 4 with the received check information.

  The database server 4 transmits the updated latest check information to the first portable terminal 2a and the second portable terminal 2b via the access point 3. The first portable terminal 2a and the second portable terminal 2b receive the check information transmitted from the database server 4 and reflect the latest check information on the display content. Then, each worker confirms the latest check information displayed on the first portable terminal 2a or the second portable terminal 2b carried by the worker, and the wiring of the check necessary place where the wiring check has not been completed yet. Checking will continue.

The flowchart of FIG. 2 shows a data transmission / reception process between the first portable terminal 2a and the second portable terminal 2b and the database server 4 and a data update process in the database server 4.
First, when the check information change input is performed on the first mobile terminal 2a (step S1a), the process proceeds to step S2a, and the input change content is transmitted from the first mobile terminal 2a to the database server 4. . Similarly, in the second mobile terminal 2b, when the change input of the check information is performed (step S1b), the process proceeds to step S2b, and the input change content is transferred from the second mobile terminal 2b to the database server 4. Is sent.

  In step S11, the database server 4 that has received the change contents of the check information transmitted from the first portable terminal 2a and the second portable terminal 2b in step S2a and step S2b uses the received change information of the check information in the database. Check information stored in the server 4 is updated. Then, the process proceeds to step S12, and the database server 4 transmits the latest check information updated in step S11 to the first portable terminal 2a and the second portable terminal 2b.

  The latest check information transmitted from the database server 4 is received by each of the first mobile terminal 2a and the second mobile terminal 2b in steps S3a and S3b. The first portable terminal 2a and the second portable terminal 2b display drawing information reflecting the latest check information common to them.

  The first portable terminal 2a returns to step S1a after step S3a, and the second portable terminal 2b returns to step S1b after step S3b. Further, the database server 4 returns to step S11 after step S12. In this way, the database server 4 updates the check information transmitted from the first portable terminal 2a and the second portable terminal 2b, and the first portable terminal 2a and the second updated check information. The latest check information input in each of the first mobile terminal 2a and the second mobile terminal 2b is transmitted via the database server 4 to the first mobile terminal 2a and the second mobile terminal 2b. Shared by the portable terminal 2b.

  Here, the first portable terminal 2a (or the second portable terminal 2b) transmits the check information change content to the database server 4 from the first portable terminal 2a and the second portable terminal 2b. This is done when a change operation is performed. And the update of the check information stored in the database server 4 is performed whenever the change content of the check information transmitted from the 1st portable terminal 2a and the 2nd portable terminal 2b is received.

  At this time, in preparation for the case where the transmission timings of the change contents from the first portable terminal 2a and the second portable terminal 2b overlap, a buffer area for temporarily storing the change waiting data to be reflected in the database server 4 is provided. You may make it provide. In this case, a first-in first-out (FIFO) method is employed in which data is stored in the buffer area in the order received, and the data contents are reflected in the database server 4 in the order stored in the buffer area. .

  In addition, at least one of the following three methods is employed for transmitting the latest check information from the database server 4 to the first portable terminal 2a and the second portable terminal 2b. Of these three methods, two or all three may be used in combination.

  First, the first method is a method of transmitting the latest check information to the first portable terminal 2a and the second portable terminal 2b at a predetermined fixed period. Next, the second method is a method of transmitting the latest check information to the first portable terminal 2a and the second portable terminal 2b each time the check information stored in the database server 4 is updated. It is. In these first and second methods, the targets for transmitting the latest check information from the database server 4 are in principle all portable terminals. Here, in principle, in the second method, when the check information of the database server 4 is updated, other than the mobile terminal in which the updated check information is input This is because the latest check information can be transmitted only to the portable terminal. However, it is desirable to send the latest check information to all portable terminals if possible.

  The third method is that when the first portable terminal 2a or the second portable terminal 2b is operated, each time the operation is performed, from the database server 4 to the first portable terminal 2a and the second portable terminal 2b. And the latest check information is transmitted to the first portable terminal 2a and the second portable terminal 2b. In the third method, the database server 4 needs to know whether or not the operation is performed on the first portable terminal 2a and the second portable terminal 2b in order to determine the transmission timing of the check information. Therefore, the first portable terminal 2a and the second portable terminal 2b transmit an operation signal indicating that the operation has been performed or a request for transmitting the latest check information to the database server 4 when the operation is performed by the worker. It has become. The operation here includes not only the update operation of the check information described above but also a general operation of enlarging / reducing the display of the portable terminal or moving the display range.

  When the database server 4 receives an operation signal (or check information transmission request) from either the first portable terminal 2a or the second portable terminal 2b, the latest stored in the database server 4 at the time of reception. Is sent to the first portable terminal 2a and the second portable terminal 2b. At this time, the latest check information may be transmitted to all the mobile terminals regardless of the mobile terminal to which the operation signal (check information transmission request) is transmitted (operated). The latest check information may be transmitted only to the portable terminal to which (check information transmission request) is transmitted (operated).

FIG. 3 illustrates a specific example of check information stored in the database server 4 and display contents of each portable terminal in the drawing management system configured as described above.
First, the check information stored in the database server 4 will be described. About each wiring which is a check required part, the line number for identifying each uniquely is allocated. As the check information, whether each line number is checked is “completed” or “not yet” is stored.

  On the first portable terminal 2a and the second portable terminal 2b, the drawing information indicating the arrangement of each device of the target equipment and the position of the check required point transmitted from the database server 4 and the check information are superimposed and displayed. Is done. The check information is displayed as a check box in the vicinity of the corresponding check required portion. A corresponding line number is also displayed in the vicinity of the check-required portion.

  And the check box corresponding to the check required part that is checked “completed” is displayed with a check, and the check box corresponding to the check necessary part that is “unchecked” is not checked. Displayed with status. Further, in order to make it easier to understand whether or not it is checked, the checked wiring may be displayed thickly or displayed in a different color.

  The worker carrying the first portable terminal 2a or the second portable terminal 2b can toggle the check state by tapping the check box on the display screen with a stylus, for example. In other words, tapping a check box for a wiring that is not checked can input check information for checking that the wiring is “completed”, and conversely, tapping a check box for a wiring that is check “completed”. Then, it is possible to input check information for checking “not yet” for the wiring.

Here, for example, it is assumed that there are a total of six wirings that need to be checked from L1 to L6, and all these wirings are unchecked at first.
Then, the worker carrying the first mobile terminal 2a completes the check of the wiring of L1 and L2 in the first work place 1a, and taps the check boxes of these L1 and L2 to update the check to “completed”. When the check information is input, the updated check information is transmitted from the first portable terminal 2 a to the database server 4. The database server 4 that has received the updated check information updates the check state of the line numbers L1 and L2 from “not yet” to “done”.

  In addition, the worker carrying the second portable terminal 2b completes the check of the wirings of L5 and L6 in the second work place 1b, and taps the check boxes of these L5 and L6 to update the check to “done”. When the check information is input, the updated check information is transmitted from the second portable terminal 2b to the database server 4. The database server 4 that has received the updated check information updates the check state of the line numbers L5 and L6 from “not yet” to “done”.

  In this way, check information of each check-necessary portion input to the first mobile terminal 2 a and the second mobile terminal 2 b is accumulated as check information stored in the database server 4. The latest check information stored in the database server 4 is updated periodically or when the check information stored in the database server 4 is updated or when the first portable terminal 2a or the second portable terminal 2b is operated. Sometimes transmitted to the first portable terminal 2a and the second portable terminal 2b.

  In the example described here, L1 and L2 are checked “completed” by the first portable terminal 2a, and L5 and L6 are checked “completed” by the second portable terminal 2b. In the latest check information, L1, L2, L5, and L6 are checked “completed”. Therefore, the check information in which the wirings of L1, L2, L5, and L6 are checked “completed” is displayed on both the first portable terminal 2a and the second portable terminal 2b that have received the latest check information. . That is, the updated check information is shared from other mobile terminals and reflected in the display on each mobile terminal.

  Then, the check information is accumulated in the database server 4 by proceeding with the wiring check work as described above, and the drawings stored in the database server 4 at the stage where all the necessary check points have been checked. The final completed drawing can be obtained almost automatically from the information and check information.

  The drawing management system configured as described above includes the layout of the target equipment for the confirmation work and the drawing information that represents the confirmation necessary places that need the confirmation work existing in the target equipment, and the confirmation that represents the confirmation status of the confirmation necessary places. Information is stored in the database server, each worker carries a portable terminal for referring to the drawing information and the confirmation information stored in the database server and accepting an input operation of the confirmation information changed as a result of the confirmation work. The database server and the portable terminal are communicably connected via a communication line. Each time the mobile terminal accepts the confirmation information input operation, the mobile terminal transmits the input confirmation information to the database server, and the database server uses the received confirmation information from the mobile terminal to store the confirmation information stored in itself. Update.

  For this reason, it is possible for multiple workers to update the check information by referring to one drawing related to the check work and the check information entered in this drawing in parallel from different work places at the same time zone. It is.

Embodiment 2. FIG.
4 and 5 relate to Embodiment 2 of the present invention. FIG. 4 is a diagram for explaining the contents stored in the database and the contents displayed on each terminal. FIG. 5 is the information on the database and each terminal. It is a figure explaining the example of an update.

  In the second embodiment described here, in the configuration of the first embodiment described above, the database server also stores, as check information, the change time at which the check state was last updated together with the check state for each check-required portion. It is what I did. Therefore, the check state change time is also added to the check state update information transmitted from each mobile terminal to the database server. And when the check information regarding the same line number is transmitted from a plurality of portable terminals, the database server stores the latest check state change time in these check information in the database server. Reflect in check information.

  That is, as shown in FIG. 4, the check information stored in the database server 4 is configured to store the check state (completed / not yet) and the last change time of the check state for each line number. . In the example of FIG. 4, the line numbers L1 and L2 have been updated to the check “completed” from the first portable terminal 2a, and their change times are 1:00 and 1:01, respectively. The line numbers L5 and L6 are updated to the check “completed” from the second portable terminal 2b, and their change times are 1:22 and 1:23, respectively.

  For line numbers L3 and L4, it is not clear from FIG. 4 alone whether the last update was from the first portable terminal 2a or the second portable terminal 2b. The update times updated to "" are recorded in the check information of the database server 4 as 1:20 and 1:21, respectively.

  Then, in the latest check information transmitted from the database server 4 to the first mobile terminal 2a and the second mobile terminal 2b after time 1:23, L1, L2, L5, and L6 are in a check “completed” state. The updated check information is shared from other mobile terminals and reflected in the display on each mobile terminal.

  Next, with reference to FIG. 5, the update process of the check information using the check state change time in the database server 4 will be described with a specific example. First, in the state before the change, L1, L2, L3, and L4 are “checked”, and L5 and L6 are “not checked”. The change times of L1 to L6 are assumed to be 1:00, 1:01, 1:02, 1:03, 1:04, and 1:05, respectively. Therefore, before the change, the display screens of the first mobile terminal 2a and the second mobile terminal 2b are checked in the check boxes of L1, L2, L3, and L4, and the check boxes of L5 and L6 are checked. Indicates that the check box is not checked.

  From the state before the change, first, the worker performs an operation of checking the L5 check box at time 1:10 and checking the L6 check box at time 1:11 on the first portable terminal 2a. Suppose. Then, in the first portable terminal 2a, the change time information (time stamp) of 1:10 is added to the check information of the change content that L5 has been checked “finished”, and the change includes this change time information. The content check information is transmitted to the database server 4. Similarly, for L6, the first portable terminal 2a is given the change time information (time stamp) of 1:11 to the check information of the change content that L6 has been checked “done”, and then the database. It is transmitted to the server 4.

  Next, similarly, in the first portable terminal 2a, it is assumed that the worker performs an operation of unchecking the L5 check box at time 1:21 and unchecking the L6 check box at time 1:22. Then, the change time information of 1:21 is given to the check information of the change content that L5 is checked “unchecked” in the first portable terminal 2a, and then transmitted to the database server 4. Similarly, for L6, the modification information indicating that L6 is not checked is added with the modification time information of 1:22 in the first portable terminal 2a, and then the database server 4 is contacted. Sent.

  On the other hand, in the second portable terminal 2b, the worker unchecks the check boxes for L3 and L4 at time 1:20 and time 1:21, respectively, and sets L5 and L at time 1:22 and time 1:23, respectively. It is assumed that an operation for checking the check box of L6 is performed. Then, the change time information of 1:20 and 1:21 is added to the check information of the change contents that L3 and L4 are checked “unchecked” in the second portable terminal 2b, respectively, and then to the database server 4. Is sent. In addition, change time information of 1:22 and 1:23 is added to the check information of the change contents that L5 and L6 are checked “finished” in the second portable terminal 2b, respectively, and then to the database server 4. Is sent.

  The database server 4 that has received the updated check information with the change time information (time stamp) transmitted from the first mobile terminal 2a and the second mobile terminal 2b receives the change time included in the received check information. While referring to the information, update processing of the check information stored in itself is performed. In principle, the update process of the check information is performed in the order in which data is received by the database server 4.

  However, for the check information related to the same line number, the time-series order of the change times including the check information is prioritized over the reception order in the database server 4. That is, for the check information related to the same line number, the change time indicated by the change time information is always new and the change time is changed so that the data with the newer change time indicated by the change time information remains in the database server 4 as the final check information. The check information is updated so that the old information is overwritten.

  More specifically, the database server 4 that has received the check information of a certain line number from the first mobile terminal 2a or the second mobile terminal 2b, and the change time of the line number in the check information stored in the database server 4 When the received check information change time is newer compared with the received check information change time, the check information of the line number is overwritten and updated with the received data. On the other hand, when the change time of the received check information is older, the received check information is discarded.

  Therefore, in the example of FIG. 5, for example, when the database server 4 receives check information from the first portable terminal 2a at which the check L5 is “done” at the change time 1:10, the database server 4 The change time 1:04 of L5 stored in itself is compared with the change time 1:10 of the received data. In this case, since the modification time of the received data is newer, it is overwritten with the received data, and the database server 4 checks that L5 is checked at the modification time 1:10. Information will be stored.

  In addition, for example, for some reason, the check information transmitted from the second portable terminal 2b at the change time 1:22 that L5 is checked is “completed” is first received by the database server 4 and sent to the database server 4. If the check information sent from the first portable terminal 2a and sent to the database server 4 at the change time 1:21 is sent to the database server 4 after being reflected in the stored check information. The server 4 compares the change time 1:22 of L5 stored in itself with the change time 1:21 of the received data. In this case, since the modification time of the received data is older, the received data is discarded, and L5 stored in the database server 4 is checked at the modification time 1:22 as “done”. Will hold the check information.

  As described above, when the database server 4 receives the check information from the first portable terminal 2a and the second portable terminal 2b, the database server 4 confirms the change time information and starts from the change time of the check information stored in itself. The update contents of new data are reflected in the stored check information. In the example of FIG. 5, finally, L1, L2, L5, and L6 are “checked”, L3 and L4 are “not checked”, and the change times of L1 to L6 are 1:00, : 01, 1:20, 1:21, 1:22, and 1:23.

  Note that the first portable terminal 2a and the second portable terminal 2b have a built-in clock in order to give change time information that is a time stamp when transmitting check information. In order to perform more accurate check information update processing, it is desirable to set the clocks for these clocks. As a time adjustment method, each mobile terminal may be provided with a so-called radio time clock function so that the time is adjusted based on a standard radio wave transmitted from a transmission station, or an NTP (Network Time Protocol) is stored in the database server 4. ) A server function may be provided, and the clock of each portable terminal may be set based on the clock of the database server 4.

Here, for convenience of explanation, the change time is displayed only up to the hour and minute unit, but it is needless to say that the change time may be recorded in a second unit or a finer unit.
Other configurations and operations are the same as those in the first embodiment, and detailed description thereof is omitted.

  In the drawing management system configured as described above, in the configuration of the first embodiment, each mobile terminal adds the time when the input operation of the check information is performed to the input information as the change time information, and then sends it to the database server. When the change time information of the received information is newer than the change time information of the check information stored in itself, the database server uses the received information to check the check information stored in itself. It is to be updated.

  For this reason, even if the information transmitted from each mobile terminal is complicated and a discrepancy occurs between the repetitive order at each mobile terminal and the reception order at the database server, the database server Check information update processing is performed according to the time stamp given at the time of operation on the terminal, so it is possible to input check information from multiple different terminals at the same time, but avoid contention of information input from multiple terminals. Thus, it is possible to ensure that the final wiring check state is reflected in the check information stored in the database server.

DESCRIPTION OF SYMBOLS 1a 1st work place 1b 2nd work place 2a 1st portable terminal 2b 2nd portable terminal 3 Access point 4 Database server 5a 1st drawing 5b 2nd drawing 6 Completion drawing

Claims (6)

A database server for storing the arrangement of the target equipment for the confirmation work and the drawing information that represents the confirmation necessary place that is necessary for the confirmation work existing in the target equipment, and the confirmation information that represents the confirmation state of the confirmation necessary place; ,
A portable terminal that refers to the drawing information and the confirmation information stored in the database server and receives an input operation of the confirmation information that has changed as a result of the confirmation work;
A communication line that connects the database server and the mobile terminal so that they can communicate with each other;
Each time the portable terminal accepts an input operation of the confirmation information, it transmits the input confirmation information to the database server,
The said database server updates the said confirmation information stored in itself with the said confirmation information from the said portable terminal received, The drawing management system characterized by the above-mentioned.   The drawing management system according to claim 1, wherein the database server transmits the confirmation information stored in the database server to the portable terminal at a predetermined period.   The drawing management system according to claim 1, wherein the database server transmits the confirmation information to the portable terminal when the confirmation information stored in the database server is updated. . Each time the portable terminal is operated, it transmits a confirmation information transmission request to the database server,
4. The database server according to claim 1, wherein the database server transmits the confirmation information stored in the database server to the portable terminal when the confirmation information request is received from the portable terminal. Drawing management system described in 1.   The database server updates the confirmation information stored in the database server by reflecting the confirmation information from the mobile terminal in the order of reception. Drawing management system. The mobile terminal transmits the time when the input operation was performed to the confirmation information input as change time information and then transmits the confirmation information to the database server,
The database server stores the confirmation information received by the database server according to the received confirmation information when the modification time information of the received confirmation information is newer than the modification time information of the confirmation information stored in the database server. The drawing management system according to claim 1, wherein the confirmation information is updated.

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