JP5386237B2 - Material information management system - Google Patents

Description

  The present invention relates to a member information management system.

  In construction work and civil engineering work, work to inspect each part of the building before completion is carried out at the construction site in order to record that construction is performed according to the design drawing. For example, in the frame construction of a reinforced concrete structure or a steel reinforced concrete structure, a bar arrangement inspection is performed to check whether the arrangement of the reinforcing bars, the steel type, the interval, the fixed state, the joints, and the like are as designed.

  In this bar arrangement inspection, a plan view (plan view) for specifying the position of the inspection target part at the work site, a bar arrangement diagram of each inspection target part, a check list corresponding to each inspection target part, and the like were described. Using the inspection field book, an inspector specified an inspection object (for example, a beam, a slab, a column, etc.) and recorded the inspection result of the inspection object.

Japanese Patent Laid-Open No. 10-25895 (paragraph “0002”)

  By the way, in the examination field book used for the examination as described above, for example, the creator manually cuts out a part corresponding to the examination target part from the bar arrangement diagram and pastes it on the position corresponding to the examination target part in the plan view. It was created by that. Accordingly, there is a possibility that selection errors or selection omissions of the arrangement charts to be cut out or errors in the pasting positions of the arrangement arrangement charts in the plan view may occur. In order to prevent these errors and to ensure the reliability of the inspection field book, it is necessary to perform several steps such as collation with the original floor plan and bar arrangement diagram. The work load required was large.

  In addition, when a design change occurs, going back and forth, such as re-creating the entire examination field book after cutting out the bar arrangement diagram of the corresponding part, has occurred. Furthermore, in order to carry the inspection field book to the work site, because the inspection field book was created after copying the plan view and bar arrangement diagram originally created in A1 size to A3 size, the characters were reduced excessively. It was also inconvenient that it was difficult to read.

  This invention is made in view of the above, Comprising: It aims at providing the member information management system which can create a highly reliable inspection field book easily.

In order to solve the above-described problems and achieve the object, the member information management system according to claim 1 stores a member drawing relating to a building member and a building drawing relating to a building using the building member. Means, member information extracting means for extracting member information relating to the building member from the member drawing for each building member, identification information for uniquely identifying the building member, and the member information extracted by the member information extracting means And the member information storage means for storing them in association with each other, the identification information corresponding to the building member included in the architectural drawing is acquired from the architectural drawing, and the member information corresponding to the acquired identification information Is acquired from the member information storage means, and the acquired member information is associated with the building member corresponding to the acquired identification information and arranged in the architectural drawing. It includes information arranging means, and output means for outputting at least a part of the architectural drawings the member information is arranged by the member information arrangement means, the architectural drawings, the building components that are included in the building drawing The member information arrangement unit extracts the code from the architectural drawing, and extracts the member information associated with the identification information corresponding to the extracted code from the member information storage unit. The position of the code | symbol in the said architectural drawing is specified on the basis of arrangement | positioning of the core in the said architectural drawing as a reference | standard, The said acquired member information is matched and arrange | positioned corresponding to the position of the specified said code | symbol.

  The member information management system according to claim 2 is the member information management system according to claim 1, wherein the member drawing is a table partitioned for each building member by a partition line, and the member information The member information extracting means acquires the member table as vector data from the member drawing, specifies the lane lines in the acquired member table, and is partitioned by the specified lane lines. Each vector data is extracted as the member information.

  The member information management system according to claim 3 is the member information management system according to claim 2, wherein the member table is an area partitioned by the lane markings and includes the identification information. And a member information area including the member information, and the member information extracting means corresponds to the vector data corresponding to the title area and the member information area among the vector data partitioned by the lane markings. Data combined with vector data to be extracted is extracted as the member information.

  Further, the member information management system according to claim 4 is the member information management system according to claim 2 or 3, wherein the member information extraction means is not less than a predetermined length among lines constituting the member table. Are identified as the dividing lines.

According to the member information management system according to claim 1, the member information related to the building member is automatically extracted from the member drawing for each building member, so that it is easy to cut out the member information that has been conventionally performed manually. This can be done, and the work cost required to create the inspection field book can be reduced. Moreover, since the member information corresponding to the identification information for uniquely identifying the building member is arranged in the building drawing in association with the building member corresponding to the identification information, the extracted member information and the building member in the building drawing An error in association can be prevented, the reliability of the inspection field book can be improved, and the labor required for checking the inspection field book can be reduced.
Moreover, since the code | cord | chord corresponding to a building member is extracted from a building drawing and the member information corresponding to the said extracted code | cord | chord is arrange | positioned corresponding to the position of the code | symbol in a building drawing, it is in the position of each building member in a building drawing. Correspondingly, member information can be easily arranged.
Moreover, since the position of the code | symbol in the said architectural drawing is specified on the basis of arrangement | positioning of the street core in an architectural drawing, and member information is arrange | positioned corresponding to the position of the specified code | symbol, the position of each building member in an architectural drawing is easy. Can be specified.

  Further, according to the member information management system according to claim 2, the member table is acquired as vector data from the member drawing, the partition line in the acquired member table is specified, and each partition partitioned by the specified partition line Since vector data is extracted as member information, member information can be extracted for each building member from a member drawing as vector data.

  According to the member information management system according to claim 3, data obtained by combining the vector data corresponding to the title area and the vector data corresponding to the member information area among the vector data divided by the dividing line is obtained. Since it extracts as member information, the member information which has required information about each building member can be extracted easily.

  According to the member information management system according to claim 4, among the lines constituting the member table, a line having a predetermined length or more is specified as a partition line, so that a complicated selection operation is requested to the user. The partition line can be easily specified.

It is the block diagram which showed the electrical structure of the member information management system which concerns on Embodiment 1 functionally conceptually. It is the figure which illustrated the member drawing about a beam. It is the figure which illustrated the sketch figure conceptually. It is a flowchart of a member information management process. It is a flowchart of member information extraction processing. It is the figure which illustrated the selection instruction | indication of the member table | surface and division line displayed on the display part of the terminal device. It is the figure which illustrated the selection instruction | indication of the member table | surface and division line displayed on the display part of the terminal device. It is the figure which illustrated the member table | surface displayed on the display part, the necessity of a division line, and the input instruction of the name of each division. It is the figure which illustrated the member table | surface displayed on the display part, the necessity of a division line, and the input instruction of the name of each division. It is the figure which illustrated the member table | surface displayed on the display part, and the setting instruction | indication of a member and an unnecessary member same as the above. It is the figure which illustrated the member information which the member information extraction part extracted and displayed on the display part. It is a flowchart of a code position specific process. It is the figure which illustrated the setting instruction | indication of the range of the street core displayed on the display part of the terminal device. It is the figure which illustrated the code | symbol selection instruction | indication of the through-core displayed on the display part. It is the figure which illustrated the code selection directions of all the building members displayed on the display part. It is a flowchart of member information arrangement processing. It is the figure which illustrated the designation | designated instruction | indication of the division number displayed on the display part of the terminal device. It is the figure which illustrated the designation | designated instruction | indication of the range of a work area and the name displayed on the display part of the terminal device. It is a figure which illustrates the architectural drawing by which member information is arrange | positioned. It is the figure which showed the member drawing about a slab schematically. It is the figure which illustrated the selection instruction | indication of the member table | surface and division line displayed on the display part of the terminal device. It is the figure which illustrated the selection instruction | indication of the member table | surface and division line displayed on the display part of the terminal device. It is the figure which illustrated the member table | surface displayed on the display part, the necessity of a division line, and the input instruction of the name of each division. It is the figure which illustrated the member table | surface displayed on the display part, the necessity of a division line, and the input instruction of the name of each division. It is the figure which illustrated the member information which the member information extraction part extracted and displayed on the display part.

  Embodiments of a member information management system according to the present invention will be described below in detail with reference to the accompanying drawings. [I] First, the basic concept of each embodiment will be described, then [II] the specific contents of each embodiment will be described, and [III] Finally, modifications to each embodiment will be described. However, the present invention is not limited to each embodiment.

[I] Basic concept of each embodiment First, the basic concept of each embodiment will be described. The application target of the member information management system according to each embodiment is arbitrary, and can be used, for example, to output an inspection field book for a building under construction or an inspection form for a product under manufacture. Here, the “member” is a concept indicating each element constituting a product such as a building, a machine, a transportation device, and an electronic device, and includes, for example, a building member, a mechanical component, and an electronic component. In each of the following embodiments, a case where a bar arrangement inspection book of each member (for example, a beam, a slab, a column, etc.) of a building under construction is created for the bar arrangement inspection will be described as an example.

  One of the features of this member information management system is that, generally, member information such as bar arrangement information and dimensions is extracted from the member drawing for each building member, and the extracted member information is associated with the corresponding building member and the building drawing. It is in the point to arrange in.

  According to this system, it is possible to easily cut out member information that has been performed manually in the past, and it is possible to reduce the work cost required to create the inspection field book. In addition, it is possible to prevent errors in associating the extracted member information with the building member in the building drawing, to improve the reliability of the inspection field book, and to reduce the labor required for checking the inspection field book. be able to.

[II] Specific Contents of Embodiment Next, specific contents of each embodiment will be described.

[Embodiment 1]
First, the first embodiment will be described. FIG. 1 is a block diagram functionally conceptually showing the electrical configuration of the member information management system according to the first embodiment. As shown in FIG. 1, the member information management system 1 includes a printer 3, a terminal device 4, and a member information management device 5 via a network 2 such as the Internet, a LAN (Local Area Network), and a WAN (Wide Area Network). Are connected to be communicable with each other.

(Configuration-printer, terminal device)
The printer 3 and the terminal device 4 are output means for outputting at least a part of the architectural drawing input from the member information management device 5 via the network 2. As the printer 3, a known printer can be used. As the terminal device 4, for example, a known portable information terminal, notebook type PC, or the like can be used. The terminal device 4 includes a display unit 41 that displays information input from the member information management device 5. As the display unit 41, for example, a known display device such as a liquid crystal display can be used.

(Configuration-member information management device)
The member information management device 5 is configured by connecting a network IF 51, a control unit 52, and a data recording unit 53 through a bus 54 so that they can communicate with each other.

(Configuration-Member information management device-Network IF)
The network IF 51 is a communication control interface for the member information management device 5 to perform communication via the network 2. The network IF 51 is configured as a network board, for example.

(Configuration-member information management device-control unit)
The control unit 52 is a control unit that controls each unit of the member information management device 5. Specifically, the control unit 52 is a CPU (Central Processing Unit) or various programs (control programs such as an OS that are interpreted and executed on the CPU). And a program defining various processing procedures), and a computer including an internal memory for storing required programs and required data.

  The control unit 52 includes a member information extraction unit 52a and a member information arrangement unit 52b in terms of functional concept. The member information extraction unit 52a is member information extraction means for extracting member information relating to a building member for each building member from the member drawing. The member information arrangement | positioning part 52b is a member information arrangement | positioning means which relates member information with a building member, and arrange | positions it in a building drawing. Details of processing executed by each component of the control unit 52 will be described later.

(Configuration-member information management device-data recording unit)
The data recording unit 53 is a recording unit for storing a table, a database, or the like that is referred to when the control unit 52 executes various processes, and is configured by, for example, a hard disk or other recording medium. A database (hereinafter “DB”) 53a and a member information DB 53b are stored. The drawing DB 53a is a drawing storage unit that stores a member drawing 53c relating to a building member and a building drawing 53d relating to a building using the building member.

  Here, the member drawing 53c is a drawing relating to a building member such as a beam, a slab, a column, or a wall, and includes member information. The member information includes, for example, bar arrangement information for specifying the arrangement, steel type, interval, fixing state, joints, and the like of reinforcing bars used for each building member, and the shape and size of the building member. FIG. 2 is a diagram illustrating a member drawing 53c for a beam. As shown in FIG. 2, the member drawing 53c has a member table. This member table is an area partitioned by lane markings, and includes a title area including identification information for uniquely identifying a building member, and a member information area including member information. In the example of FIG. 2, in the title area (area surrounded by a thick line in the member table), the name of each beam (“G51”, “G52”, etc.) as identification information, the span of each beam (“5,000”, etc.) ), Floors (“PH”, “7”, etc.) on which each beam is arranged, and item names (“width × combination”, “bar arrangement”, etc.) such as beam arrangement information and shape. In addition, in the member information area (area other than the title area in the BOM), the dimensions of the beam (“500 × 1,800”, etc.), the bar arrangement diagram, the main line, and the stirrup line are associated with each item in the title area. Information such as standards and dimensions (“HD25”, “LD13 [2] @ 100”, etc.) is stored as member information.

  In addition, the architectural drawing 53d includes a plan view, a plan view, an elevation view, a cross-sectional view, and a plan view showing the structural framework of each building member such as a beam, slab, column, and wall constituting the building. A layout drawing etc. are included. FIG. 3 is a diagram conceptually illustrating a plan view. As shown in FIG. 3, in the plan, the street cores that are the center lines of the columns and walls are drawn vertically and horizontally, and the arrangement of building members such as beams and columns is shown based on the street cores. Yes. Note that a vertical core in FIG. 3 is referred to as an “X-directional core”, and a horizontal core is referred to as a “Y-directional core”. In addition, codes (for example, “1” for the core in the X direction and “A” for the core in the Y direction in FIG. 3) are assigned to uniquely identify the cores. A code (such as “G1” in FIG. 3) that identifies the type of the building member is assigned corresponding to the position of the member, and only the code corresponding to the beam is shown in FIG. ing.

  The member information DB 53b is a member information storage unit that stores identification information for uniquely identifying a building member and member information extracted by the member information extraction unit 52a in association with each other. As identification information, the code | symbol allocated to each building member in the architectural drawing 53d, arbitrary identification numbers, etc. can be used, for example. Details of the information stored in the member information DB 53b will be described later.

(Processing-member information management process)
Next, a member information management process executed by the member information management system 1 configured as described above will be described. FIG. 4 is a flowchart of the member information management process (in the following description of each process, step is abbreviated as “S”). This member information management process is activated when, for example, a member information management process activation instruction is input via a known input means in the terminal device 4.

  As shown in FIG. 4, when the member information management process is started, the member information extraction unit 52a executes a member information extraction process for extracting member information related to a building member from the member drawing 53c for each building member (SA1). ). Then, member information arrangement part 52b performs code position specific processing which specifies a position in architectural drawing 53d of a code corresponding to a building member (SA2). Then, the member information arrangement | positioning part 52b performs the member information arrangement | positioning process which links | relates member information with a building member, and arrange | positions in the architectural drawing 53d (SA3). Hereinafter, each of the member information extraction process, the code position specifying process, and the member information arrangement process will be described.

(Processing-member information extraction process)
FIG. 5 is a flowchart of the member information extraction process. As shown in FIG. 5, when the member information extraction process is started, the member information extraction unit 52a acquires a member table from the member drawing 53c stored in the drawing DB 53a (SB1). At this time, the member information extraction unit 52a acquires the member table as vector data. The member table acquisition method is arbitrary. For example, the member drawing 53c is displayed on the display unit 41 of the terminal device 4, and the user selects the member table region in the member drawing 53c via a known input unit. The figure contained in the selected area is acquired as vector data. Alternatively, a member table previously cut out as vector data from the member drawing 53c by the user is stored in the drawing DB 53a, and the vector data is acquired from the drawing DB 53a.

  Next, the member information extraction unit 52a displays the member table acquired in SB1 on the display unit 41 of the terminal device 4, and also displays an instruction for selecting a partition line in the member table (SB2). FIG. 6 and FIG. 7 are diagrams exemplifying an instruction for selecting a member table and a division line displayed on the display unit 41 of the terminal device 4. As shown in FIGS. 6 and 7, a member table acquired as vector data from the member drawing 53c illustrated in FIG. 2 is displayed on the display unit 41, and an instruction for prompting selection of a division line in the member table (FIG. 6). 6 and FIG. 7, a “partition line selection window” is displayed.

  Returning to FIG. 5, the member information extraction unit 52a determines whether or not a line included in the vector data of the member table displayed on the display unit 41 has been selected (SB3). As a result, when a line is not selected (SB3, No), the member information extraction unit 52a determines again whether or not a line is selected (SB3). On the other hand, when a line is selected (SB3, Yes), the member information extraction unit 52a identifies a line having a length longer than the selected line as a partition line (SB4). For example, when any one of the horizontal lines extending from the left end to the right end of the member table is selected among the lines constituting the member table shown in FIG. 6, another horizontal line longer than the length of the selected line is selected. It is specified as a division line (horizontal thick line in the member table of FIG. 6). In addition, when a vertical line (“A” in FIG. 7) from the vicinity of the center of the member table to the lower end is selected among the lines configuring the member table illustrated in FIG. 7, the length of the selected line is selected. The other vertical lines described above are specified as partition lines (the vertical thick lines in the member table of FIG. 7).

  At this time, the member information extraction unit 52a acquires the coordinate information of each line specified as a lane marking, and causes the display unit 41 to display the acquired coordinate information of each lane marking as a lane marking table (in FIGS. 6 and 7). Table on the upper left). This lane marking table has items “T”, “D”, “XS”, “YS”, “XE”, “YE”, “3pt” as table items, and information corresponding to these items is mutually stored. Stored in association. In the item “T”, information for specifying the type of line (“L” or the like indicating a dividing line in FIGS. 6 and 7) is stored. Item “D” specifies the line direction information (“0” in the horizontal direction and “1” in the vertical direction in FIGS. 6 and 7), and item “XS” specifies the X coordinate of the start point of the line. Information (such as “0” in FIGS. 6 and 7), information specifying the Y coordinate of the starting point of the line in the item “YS” (such as “0” in FIGS. 6 and 7), and a line in the item “XE” Information specifying the X coordinate of the end point of the item (“547” in FIGS. 6 and 7), information specifying the Y coordinate of the end point of the item “YE” (“1” in FIGS. 6 and 7, etc.), item In “3pt”, information specifying a name or the like corresponding to the line is stored.

  Returning to FIG. 5, the member information extraction unit 52a determines whether or not the selection of the lane marking has been completed (SB5). For example, when an input indicating that the selection of the lane marking is completed is made via a known input means (in FIG. 6 and FIG. 7, when the “Finish” button in the “lane line selection” window is pressed), It is determined that the line selection is completed.

  As a result, when selection of the division line is not completed (SB5, No), the process returns to SB3, and it is determined whether or not a line included in the vector data of the member table has been selected (SB3). On the other hand, when the selection of the lane line is completed (SB5, Yes), the member information extraction unit 52a displays the necessity of the specified lane line and an instruction to input the name of each zone (SB6).

  FIG. 8 and FIG. 9 are diagrams exemplifying the member table displayed on the display unit 41, necessity of the lane markings, and input instructions for the names of the respective zoning. As shown in FIG. 8 and FIG. 9, an input field (in FIG. 8 and FIG. 9, “Necessary and required section name” window) for inputting the necessity of each division line and the name of each division is displayed on the display unit 41. Is done. The shaded areas in FIGS. 8 and 9 indicate a state in which the area is selected via the input unit.

  Returning to FIG. 5, the member information extraction unit 52a determines whether or not the lane lines are necessary and the names of the respective lanes have been input (SB7). As a result, if the necessity of the lane line and the designation of each division are not input (SB7, No), the member information extraction unit 52a determines again whether the necessity of the lane line and the designation of each division have been input. (SB7). On the other hand, when the necessity of the lane line and the name of each division are input (SB7, Yes), the member information extraction unit 52a reflects the necessity of the lane line and the name of each division input to the lane line table. (SB8).

  For example, in FIG. 8, the row (row corresponding to the item “span”) immediately below the top row (row corresponding to the item “name”) of the BOM is selected, and the section corresponding to the row is unnecessary. When “/” indicating that it is present is input to the input field, the member information extraction unit 52a determines that the partition line that divides the top row of the member table and the row immediately below it is not necessary, Treat two lines together as one line. Correspondingly, “/” is stored in a portion corresponding to an unnecessary lane line in the item “3pt” of the lane line table, and the display of the unnecessary lane line in the member table is changed from a thick solid line to a dotted line. .

  In FIG. 9, when a column corresponding to “G51” is selected in the member table, and “G51” is input to the input field as the name of the section corresponding to the column, the member information extraction unit 52a The name of the selected column is set as “G51”. Correspondingly, in the section line table item “3pt”, in the portion corresponding to the partition line corresponding to the selected column (the third partition line from the left end of the member table among the vertical partition lines). “G51” is stored.

  8 and 9, the top row of the BOM (the row corresponding to the item “name”) is selected, and “*” indicating that the section corresponding to the row is the title area is displayed in the input field. When input, the member information extraction unit 52a starts from the horizontal lane marking on the uppermost row of the material table to the next horizontal lane marking (of the horizontal lane markings, 2 from the top of the member table). The area up to the first partition line) is treated as the title area. Correspondingly, “*” is stored in the portion corresponding to the horizontal lane marking on the uppermost row of the member table in the lane marking table item “3pt”.

  Returning to FIG. 5, the member information extraction unit 52a determines whether or not the lane lines are necessary and the designation of the names of the bays has been completed (SB9). For example, when the necessity input of the lane line and the input of the name of each division are input via a known input means, it is determined that the necessity of the lane line and the input of the name of each division are completed. .

  As a result, if the input of the lane line necessity and the designation of each division is not completed (SB9, No), the process returns to SB7 to determine whether the lane line necessity and the designation of each division have been input. (SB7). On the other hand, when the input of the necessity / unnecessity of the lane markings and the designation of each zoning is completed (SB9, Yes), the member information extraction unit 52a displays the setting instruction for the members / unnecessary members (SB10).

  FIG. 10 is a diagram exemplifying a member table displayed on the display unit 41 and setting instructions for the same member / unnecessary member. As shown in FIG. 10, a screen for confirming whether or not the setting of the same member / unnecessary member has been completed (the “same / unnecessary member setting” window in FIG. 10) is displayed on the display unit 41. At this time, the member information extraction unit 52a causes the display unit 41 to display the same / unnecessary member setting table (in the “confirmation / setting screen” window in FIG. 10) for setting the same member / unnecessary member. Here, the “same member” means a building member having the same bar arrangement, dimensions, etc. as the building member on the directly upper floor, and the part corresponding to the same member in the member table is described as “same as above”, for example. . In addition, “unnecessary member” means that there is a building member on the upper floor or a lower floor, so that there are sections in the member table, but there is actually no building member in the section. For example, a portion corresponding to an unnecessary member in the member table is hatched.

  The unnecessary / unnecessary member setting table includes table names including names of each floor (such as “PH” and “7F” in FIG. 10) and division names (such as “G51” and “G52” in FIG. 10). Symbols (“1”, “2”, etc. in FIG. 10) for specifying the difference between the upper and lower floors of the building member in association with each other are stored. For example, in the name “G51”, when the symbol “1” is stored in the floor “PH” and the symbol “2” is stored in the floor “7F” and “6F”, the building of the floor “PH” of the name “G51” is stored. Although the member is different from the building member of the floor “7F”, it means that the building member of the floor “7F” and the building member of the floor “6F” are the same. In addition, in the name “G54”, when the symbol “1” is stored in the floor “PH”, the symbol “0” is stored in the floor “7F”, and the symbol “3” is stored in the floor “6F”, the name “G54” The building member on the floor “PH” is different from the building member on the floor “6F”, which means that there is no building member on the floor “7F”.

  Returning to FIG. 5, the member information extraction unit 52a determines whether the same member / unnecessary member is set (SB11). As a result, when the same member / unnecessary member is not set (SB11, No), the member information extraction unit 52a determines again whether or not the same member / unnecessary member is set (SB11). On the other hand, when the same member / unnecessary member is set (SB11, Yes), the member information extraction unit 52a reflects the input same member / unnecessary member setting instruction in the same / unnecessary member setting table (SB12). .

  For example, in the member table shown in FIG. 10, “same as above” is written in the portion corresponding to the floor “6F” of the names “G51”, “G52”, and “G53”. Is a member as above. In this case, each of the portions corresponding to the floors “6F” of the names “G51”, “G52”, and “G53” in the above-described unnecessary / unnecessary member setting table is described in the floor “7F”, which is directly above, via a known input unit. When the symbol “2” is input, the member information extraction unit 52a reflects the input result in the same / unnecessary member setting table and causes the display unit 41 to display it.

  In the member table shown in FIG. 10, since the portion corresponding to the floor “7F” of the name “G54” is hatched, it can be seen that there is no building member corresponding to the portion. In this case, when the symbol “0” is input to each part corresponding to the floor “6F” of the name “G54” in the above-described unnecessary / unnecessary member setting table via a known input unit, the member information extracting unit 52a The input result is reflected on the same / unnecessary member setting table and displayed on the display unit 41.

  Returning to FIG. 5, the member information extraction unit 52a determines whether the setting of the same member / unnecessary member is completed (SB13). For example, when the input indicating that the setting of the same member / unnecessary member is completed is made via a known input means (in FIG. 10, when the “OK” button in the “Same as above / Unnecessary member setting” window is pressed) ), It is determined that the setting of the member / unnecessary member is completed.

  As a result, when the setting of the same member / unnecessary member has not been completed (SB13, No), the process returns to SB11 to determine whether the same member / unnecessary member has been set (SB11). On the other hand, when the setting of the same member / unnecessary member is completed (SB13, Yes), the member information extraction unit 52a specifies the title area and the member information area in the member table based on the lane marking table (SB14). For example, the member information extraction unit 52a refers to the item “3pt” of the lane line table for each lane line, specifies an area corresponding to the lane line in which “*” is stored as the title area, and sets other areas as the area. It is specified as a member information area.

  Next, the member information extraction unit 52a uses, as member information, data obtained by combining the vector data corresponding to the title area and the vector data corresponding to the member information area among the vector data of the member table divided by the lane markings. Each building member is extracted, and the extracted member information is associated with identification information and stored in the member information DB 53b (SB15).

  For example, the member information extraction unit 52a applies a region (for example, a region at the upper left end of the member table, hereinafter referred to as a “title partition”) surrounded by both a horizontal partition line and a vertical partition line that partition the title region. The vector data included, the vector data included in each area (hereinafter referred to as “identification section”) surrounded by horizontal and vertical partition lines adjacent to each other in the title area, and common to each of these identification sections Are combined with vector data contained in an area (hereinafter referred to as “member section”) in the member information area partitioned by the partition line. Then, the combined data is displayed on the display unit 41 as member information for each building member, and at the same time, identification information for uniquely identifying the building member (for example, the name of the lane line that divides the identification block). And stored in the member information DB 53b.

  FIG. 11 is a diagram illustrating member information extracted by the member information extraction unit 52 a and displayed on the display unit 41. In FIG. 11, the vector data included in the title section, the vector data included in the identification section including the floor “PH” and the identification section including the name “G51”, and a partition line common to these identification sections are divided. Vector data such as bar arrangement information included in the member section is displayed in combination with each other. Furthermore, in the example of FIG. 11, vector data included in a region of a predetermined width adjacent to the column in the original member table is combined on both sides of the column corresponding to the name “G51”. Thereby, bar arrangement information (an anchoring state, a joint, etc.) in the end of a building member or an adjacent region can be included in the member information of the building member. In the example of FIG. 11, the member information extraction unit 52a provides a data folder in the member information DB 53b with the folder name “PH”, which is the name of the horizontal partition line that partitions the identification partition. Then, “G51”, which is the name of the vertical division line dividing the identification division, is added as a file name to the vector data extracted and combined from the member table as described above, and the member information DB 53b Store in the “PH” folder. When the extracted member information is stored in the member information DB 53b, it may be converted into another data format (for example, JPEG format) and stored.

  Returning to FIG. 5, after extracting the member information and storing it in the member information DB 53b in SB15, the member information extracting process is terminated and the process returns to the main routine.

(Processing-code position specifying process)
Next, the code position specifying process will be described. FIG. 12 is a flowchart of the code position specifying process. As shown in FIG. 12, when the code position specifying process is activated, the member information arrangement unit 52b reads the architectural drawing 53d from the drawing DB 53a (SC1). The method of reading the architectural drawing 53d is arbitrary. For example, the architectural drawing 53d is displayed on the display unit 41 of the terminal device 4, and the user selects a necessary area in the architectural drawing 53d through a known input means. The figure contained in the area is acquired as vector data. Alternatively, vector data previously cut out as a necessary area from the architectural drawing 53d by the user is stored in the drawing DB 53a, and the vector data is acquired from the drawing DB 53a.

  Subsequently, the member information arrangement unit 52b causes the architectural drawing 53d acquired in SC1 to be displayed on the display unit 41 of the terminal device 4, and also displays a setting instruction for setting the core range in the architectural drawing 53d (SC2). FIG. 13 is a diagram exemplifying a setting instruction for the core range displayed on the display unit 41 of the terminal device 4. As shown in FIG. 13, the vector data acquired as a necessary area from the architectural drawing 53d illustrated in FIG. 3 is displayed on the display unit 41, and an instruction for prompting the setting of the range of the core in the area (FIG. 13). Then, the “Set the start and end points of the core” window) is displayed. The hatched area in FIG. 13 shows the range of the selected core.

  Returning to FIG. 11, the member information arrangement | positioning part 52b determines whether the range of the core in the architectural drawing 53d displayed on the display part 41 was set (SC3). As a result, when the core range is not set (SC3, No), the member information arrangement unit 52b determines again whether the core range is set (SC3). On the other hand, when the core range is set (SC3, Yes), the member information arrangement unit 52b acquires the coordinate value on the display screen of the set core range and stores it in the RAM (not shown) ( SC4).

  Subsequently, the member information arrangement unit 52b causes the display unit 41 to display a core code selection instruction in the original architectural drawing 53d stored in the drawing DB 53a (SC5). FIG. 14 is a diagram illustrating an example of a core code selection instruction displayed on the display unit 41. The selection method of the core code is arbitrary. For example, the architectural drawing 53d illustrated in FIG. 3 is displayed on the display unit 41, and the user selects the core code in the architectural drawing 53d via a known input means. .

  Returning to FIG. 11, the member information arrangement | positioning part 52b determines whether the code | symbol of the core in the architectural drawing 53d was selected (SC6). For example, when an input indicating that the core code is selected via a known input means (in FIG. 14, when the “OK” button in the “code selection” window is pressed), the code of the core is displayed. Determine that selection is complete. As a result, when the code of the core in the architectural drawing 53d is not selected (SC6, No), the member information arrangement unit 52b determines again whether the code of the core is selected (SC6). On the other hand, when the code of the core is selected (SC6, Yes), the member information arrangement unit 52b acquires the code of the selected core and the coordinate value of the code (SC7).

  At this time, the member information arrangement unit 52b causes the display unit 41 to display the acquired coordinate information of each code as a core code table (the upper left table in FIG. 14). The core code table includes “No.”, “Name”, “XS”, “YS”, “High”, “Width”, and “Degree” as table items, and information corresponding to these is stored in association with each other. The item “No.” stores information for uniquely identifying the code (“1001” in FIG. 14). The item “name” stores information (“1”, “A”, etc. in FIG. 14) for identifying the code of each core. The item “XS” stores the X coordinate (“582” in FIG. 14) of the code in the architectural drawing 53d. In particular, for the wick in the X direction, the X coordinate of the code corresponds to the X coordinate of the wick. The item “YS” stores the Y coordinate (“298” in FIG. 14) of the code in the architectural drawing 53d. In particular, with respect to the lead in the Y direction, the Y coordinate of the code corresponds to the X coordinate of the lead. The item “high” stores the character height of the code in the architectural drawing 53d (eg, “6” in FIG. 14). In the item “width”, the character width of the code in the architectural drawing 53d (“5” in FIG. 14) is stored. In the item “degree”, the inclination of the sign in the architectural drawing 53d is stored.

  Returning to FIG. 11, the member information arrangement | positioning part 52b displays the code | symbol selection instruction | indication of all the building members in the original architectural drawing 53d stored in drawing DB53a on the display part 41 (SC8). FIG. 15 is a diagram illustrating a code selection instruction for all building members displayed on the display unit 41. The method for selecting the sign of the building member is arbitrary. For example, the display unit 41 displays the building drawing 53d as illustrated in FIG. 3 and allows the user to select the building member code in the building drawing 53d via a known input means. .

  Returning to FIG. 11, the member information arrangement | positioning part 52b determines whether the code | symbol of all the building members in the architectural drawing 53d was selected (SC9). For example, when an input indicating that the codes of all building members have been selected via a known input means (in FIG. 15, when the “OK” button in the “code selection” window is pressed), the codes of the building members are displayed. It is determined that the selection has been completed. As a result, when the code | symbol of all the building members in 53 d of architectural drawings is not selected (SC9, No), the member information arrangement | positioning part 52b determines again whether the code | symbol of all the building members was selected (SC9). On the other hand, when the code | symbol of all the building members is selected (SC9, Yes), the member information arrangement | positioning part 52b acquires the code | symbol of all the selected building members, and the coordinate value of the said code | symbol (SC10). And the position of the code | symbol of a building member is specified on the basis of arrangement | positioning of the core in the architectural drawing 53d (SC11). For example, the member information arrangement unit 52b refers to the core code table, the X-direction core where the X coordinate of the code is located within a predetermined range from the X coordinate of the code of the building member acquired in SC10, and the building member A core in the Y direction where the Y coordinate of the code is located within a predetermined range from the Y coordinate of the code is specified. Thereby, it can be specified in the architectural drawing 53d of FIG. 3 which building symbol is located on or between the cores.

  At this time, the member information arrangement part 52b displays the acquired coordinate information of each code on the display part 41 as a member code table (the upper left table in FIG. 15). This member code table includes “No.”, “Name”, “X1”, “X2”, “Y1”, and “Y2” as table items, and information corresponding to these is stored in association with each other. The item “No.” stores information for uniquely identifying the code (“3001” in FIG. 15). The item “name” stores information for identifying a code (“G1” in FIG. 15). In the item “X1” and the item “X2”, the code name of the core in the X direction corresponding to the code position of the building member is stored (“1” in FIG. 15). For example, when the sign of the building member is positioned on the core “1” as in the X direction, “1” is stored only in the item “X1”. When the sign of the building member is located between the cores “1” and “2” as in the X direction, “1” is stored in the item “X1” and “2” is stored in the item “X2”. Is stored. Similarly, in the items “Y1” and “Y2”, the code names of the cores in the Y direction corresponding to the code positions of the building members are stored (“E” in FIG. 15). For example, when the symbol of the building member is positioned on the core “E” as in the Y direction, “E” is stored only in the item “Y1”. When the sign of the building member is located between the cores “E” and “F” as in the X direction, “E” is stored in the item “Y1” and “F” is stored in the item “Y2”. Is stored.

  Next, the member information arrangement unit 52b correlates the positional information of the building member code acquired in SC10 with the building drawing 53d including the core code table and the member code table, and stores them in the drawing DB 53a (SC12). Thereafter, the code position specifying process is terminated and the process returns to the main routine.

(Processing-member information arrangement processing)
Next, the member information arrangement process will be described. FIG. 16 is a flowchart of the member information arrangement process. As shown in FIG. 16, when the member information arrangement process is activated, the member information arrangement unit 52b reads the architectural drawing 53d stored in SC12 and the code position information corresponding to the architectural drawing 53d from the drawing DB 53a (SD1). .

  Subsequently, the member information arrangement unit 52b displays the architectural drawing 53d read in SD1 on the display unit 41 of the terminal device 4, and also displays an instruction for designating the number of divisions of the construction drawing 53d (SD2). FIG. 17 is a diagram illustrating an example of designating the number of divisions of the work area displayed on the display unit 41 of the terminal device 4. As shown in FIG. 17, for example, an examination field template is displayed on the display unit 41, the architectural drawing 53d read in SD1 is displayed in the center of the template, and a reduced view of the architectural drawing 53d is displayed in the lower left. Let In addition, an instruction for prompting the designation of the number of divisions of the architectural drawing 53d (“division of division” window in FIG. 17) is displayed. Here, “section division” means that the architectural drawing 53d is divided into a plurality of sections.

  Returning to FIG. 16, the member information arrangement unit 52b determines whether or not the number of divisions in the construction drawing 53d has been designated (SD3). As a result, when the number of divisions is not designated (No in SD3), the member information arrangement unit 52b determines again whether or not the number of divisions is designated (SD3). On the other hand, when the number of divisions of the work area is designated (SD3, Yes), the member information arrangement unit 52b displays the designation of the range and the designation of each work area divided into the designated number (SD4). FIG. 18 is a diagram exemplifying a designation of designation of the range of the work area and the name displayed on the display unit 41 of the terminal device 4. As shown in FIG. 18, the range of the designated work area is displayed at the center of the template of the inspection field book, and the name of the divided work area is entered (FIG. 18). 18, the “name of the work area” window) is displayed.

  Returning to FIG. 16, the member information arrangement unit 52b determines whether or not the range of the work area and the designation are designated (SD5). As a result, when the range and name of the work area are not designated (SD5, No), the member information arrangement unit 52b determines again whether or not the range and name of the work area is designated (SD5). On the other hand, when the range and name of the work area are designated (SD5, Yes), the member information arrangement unit 52b specifies the code of the building member included in the designated work area range (SD6). The method for specifying the code of the building member is arbitrary. For example, the member information arrangement unit 52b acquires the position information of the code of the building member stored in the drawing DB 53a in association with the building drawing 53d in SC12 of FIG. The code | symbol of the building member located in the range of the construction area designated by SD5 of is specified.

  Subsequently, the member information arrangement unit 52b acquires member information associated with the identification information corresponding to each code identified in SD6 from the member information DB 53b (SD7). For example, the member information arrangement unit 52b specifies the name of the code specified in SD6 and specifies the number of floors corresponding to the architectural drawing 53d including the code based on the file name of the architectural drawing 53d. And in member information DB53b, the folder of the name of the specified floor is referred and the file of the same name as the name of each code | symbol is acquired as member information corresponding to the said code | symbol.

  Next, the member information arrangement unit 52b enlarges and displays the area of the work area designated by SD5 in the architectural drawing 53d read by SD1, and displays each member information acquired by SD7 in the peripheral area of the area of the work area. It arrange | positions corresponding to the position of the code | symbol in the architectural drawing 53d (SD8). The member information arrangement unit 52b acquires the position information of the code of the building member corresponding to each member information, arranges the member information within a predetermined range from the code, and displays an arrow from the member information to the code. Furthermore, the member information arrangement unit 52b arranges a check list for inspection at a position adjacent to the member information. The specific contents of the check list are arbitrary, and are configured as a table including check items such as a reinforcing bar diameter, pitch, and cover. Further, a graphic alignment function in known drawing software can be used so that a plurality of pieces of member information are not displayed overlapping each other.

  FIG. 19 is a diagram illustrating an architectural drawing 53d in which member information is arranged. As shown in FIG. 19, the member information corresponding to the sign of each building member is arranged around the enlarged range of the work area, and an arrow is displayed for the sign of each corresponding building member from each member information. The Returning to FIG. 16, the member information arrangement unit 52b causes the printer 3 to output the architectural drawing 53d in which the member information is arranged (SD9). Thereafter, the member information arrangement process is terminated, and the process returns to the main routine.

(effect)
Thus, according to this Embodiment 1, since the member information regarding a building member is automatically extracted for every building member from the member drawing 53c, the member information conventionally performed manually can be cut out easily. This can be done, and the work cost required to create the inspection field book can be reduced. Moreover, since the member information corresponding to the identification information for uniquely identifying the building member is arranged in the building drawing 53d in association with the building member corresponding to the identification information, the extracted member information and the building member in the building drawing 53d are arranged. Can be prevented, the reliability of the inspection field book can be improved, and the labor required for checking the inspection field book can be reduced.

  In addition, the member table is acquired as vector data from the member drawing 53c, the partition line in the acquired member table is specified, and each vector data partitioned by the specified partition line is extracted as member information. The member information can be extracted for each building member from the member drawing 53c.

  In addition, among the vector data divided by the lane markings, data that is a combination of vector data corresponding to the title area and vector data corresponding to the member information area is extracted as member information, so information necessary for each building member Can be easily extracted.

  Moreover, since the line more than predetermined length is specified as a division line among the lines which comprise a member table | surface, a division line can be specified easily, without requiring a user's complicated selection operation.

  Moreover, since the code | cord | chord corresponding to a building member is extracted from the architectural drawing 53d and the member information corresponding to the extracted code | cord | chord is arrange | positioned corresponding to the position of the code | symbol in the architectural drawing 53d, each building member in the architectural drawing 53d The member information can be easily arranged corresponding to the positions.

  Moreover, since the position of the code | symbol in the said architectural drawing 53d is specified on the basis of arrangement | positioning of the core in the architectural drawing 53d, and member information is arrange | positioned corresponding to the position of the specified said code | symbol, each building member in the architectural drawing 53d is arranged. The position can be easily specified.

[Embodiment 2]
Next, a second embodiment will be described. This Embodiment 2 is a form which extracts member information from the member drawing about a slab. The configuration of the second embodiment is substantially the same as the configuration of the first embodiment unless otherwise specified, and the same configuration as that of the first embodiment is the same as that used in the first embodiment. The code | symbol and / or name are attached | subjected as needed, and the description is abbreviate | omitted.

(Configuration-member information management device-drawing DB)
The member drawing 53c stored in the drawing DB 53a according to the second embodiment is a member drawing related to the slab. FIG. 20 is a diagram schematically showing a member drawing 53c for a slab. This member drawing 53c has a member table in the same manner as the member drawing 53c for the beam described in the first embodiment. In the title area of this BOM, each slab name corresponding to the item “name” (“S0”, “S1”, etc.) as identification information, and the dimensions of each slab corresponding to the items “Lx × Ly” “plate thickness” (“6,400 × 13,000”, etc.), and item names of slab bar arrangement information (“position”, “short side direction”, “long side direction”, etc.) are stored. In the member information area, bar arrangement information (“LD10, 13 @ 200”, etc.) of each slab is stored in association with each item in the title area.

(Processing-member information extraction process)
Next, the member information extraction process executed by the member information management system according to the second embodiment will be described. The contents of each process to be executed are the same as the member information extraction process described in the first embodiment, and will be described with reference to FIG. 5 as appropriate.

  In SB2 of FIG. 5, the member information extraction unit 52a displays the member table acquired in SB1 on the display unit 41 of the terminal device 4 and also displays a partition line selection instruction in the member table (SB2). FIG. 21 and FIG. 22 are diagrams exemplifying an instruction for selecting a member table and a division line displayed on the display unit 41 of the terminal device 4. As shown in FIGS. 21 and 22, a member table acquired as vector data from the member drawing 53c illustrated in FIG. 20 is displayed on the display unit 41, and an instruction for prompting selection of a division line in the member table (FIG. 21 and FIG. 22, a “partition line selection window” is displayed.

  When identifying the partition line in SB4 in FIG. 5, the member information extraction unit 52a, for example, selects one of the horizontal lines from the left end to the right end of the member table among the lines constituting the member table shown in FIG. When selected, another horizontal line that is longer than the length of the selected line is specified as a division line (a horizontal thick line in the member table of FIG. 21). In addition, when one of the vertical lines extending from the upper end to the lower end of the member table is selected among the lines constituting the member table shown in FIG. 22, another vertical line whose length is longer than the selected line is selected. A line is specified as a division line (a vertical thick line in the member table of FIG. 22).

  At this time, the member information extraction unit 52a acquires the coordinate information of each line specified as a lane line, and causes the display unit 41 to display the acquired coordinate information of each lane line as a lane line table (in FIGS. 21 and 22). Table on the upper left). Information for specifying the type of line or the type of building member in the item “T” in the lane marking table (in FIGS. 21 and 22, it means that the slab inter-column strips and the column arrangements are the same. “A”, “WMN” which means that the bar arrangement is different for each of the end / center of the inter-column belt and the column row belt, “×” which means an unnecessary line, and a dividing line “L” and the like are stored.

  FIG. 23 and FIG. 24 are diagrams exemplifying the member table displayed on the display unit 41, necessity / unnecessity of lane markings, and input instructions for names of each lane.

  In SB8 of FIG. 5, the member information extraction unit 52a reflects the necessity / unnecessity of the input lane marking and the designation of each lane in the lane marking table (SB8). For example, in FIG. 23, when a column corresponding to the item “plate thickness” in the member table is selected and “/” indicating that a section corresponding to the column is unnecessary is input in the input field, member information extraction is performed. The unit 52a does not need a partition line that divides a column corresponding to the item “Lx × Ly” and a column corresponding to the item “plate thickness”, and treats these two columns as one column.

  In FIG. 24, when a column corresponding to the item “short side direction” is selected from the member table, and “slab” is input in the input field as the name of the section corresponding to the column, the member information extraction unit 52a. Sets the name of the selected column to “slab”. Correspondingly, in the section line table item “3pt”, in the portion corresponding to the partition line corresponding to the selected column (the third partition line from the left end of the member table among the vertical partition lines). Stores “slabs”.

  In SB15 of FIG. 5, the member information extraction unit 52a extracts the member information by combining the vector data of the member table partitioned by the lane markings (SB15). In the second embodiment, the member information extraction unit 52a includes vector data included in the entire title area at the upper end of the member table including the title section, vector data included in the identification section in the title area at the left end of the member table, Vector data included in an area (hereinafter referred to as “member section”) in the member information area partitioned by the horizontal partition line common to the identification section is combined. Then, the combined data is displayed on the display unit 41 as member information for each building member, and at the same time, identification information for uniquely identifying the building member (for example, the name of the lane line that divides the identification block). And stored in the member information DB 53b.

  FIG. 25 is a diagram illustrating member information extracted by the member information extraction unit 52 a and displayed on the display unit 41. In FIG. 25, the vector data included in the entire title area at the top of the BOM including the title section, the vector data included in the identification section including the slab name “S1”, and the horizontal direction common to the identification section Vector data such as bar arrangement information included in the member sections partitioned by the partition lines are displayed in combination with each other. In particular, in the example of FIG. 25, the combined member information is displayed by being divided into three parts with a vertical partition line as a boundary so that it can be displayed on the entire screen. Furthermore, the remarks column is arranged adjacent to the member information.

(effect)
Thus, according to this Embodiment 2, since member information is extracted for every building member from the member drawing 53c in a format corresponding to the type of building member, the member information suitable for the type of building member is cut out. This can be easily performed, and the work cost required to create the inspection field book can be reduced.

[III] Modifications to Embodiments Although the embodiment has been described above, the specific configuration and means of the present invention are arbitrary within the scope of the technical idea of each invention described in the claims. Modifications and improvements can be made. Hereinafter, such a modification will be described.

(About problems to be solved and effects of the invention)
First, the problems to be solved by the invention and the effects of the invention are not limited to the above-described contents, and the present invention solves the problems not described above or has the effects not described above. There are also cases where only some of the described problems are solved or only some of the described effects are achieved.

(About configuration and control)
Further, all or any part of the control described as being automatically performed in the present embodiment may be performed manually, and conversely, all or any of the control described as being performed manually is performed. The part may be automated based on a known technique or the above-described idea. Further, each of the electrical components described above is functionally conceptual and does not necessarily need to be physically configured as illustrated. In other words, the specific form of distribution / integration of each part is not limited to the one shown in the figure, and all or a part thereof may be functionally or physically distributed / integrated in arbitrary units according to various loads and usage conditions. Can be configured. For example, the member information management device 5 may include the display unit 41 of the printer 3 or the terminal device 4. In addition, the processing procedure or the control procedure shown in the document or the drawing can be arbitrarily changed unless otherwise specified.

(About member information management processing)
Each process of the member information management process may be executed on a known CAD (Computer Aided Design) system, or may be executed by combining known spreadsheet software or presentation software.

  The member information management system according to the present invention is useful for a member information management system that can easily create a highly reliable examination field book.

DESCRIPTION OF SYMBOLS 1 Member information management system 2 Network 3 Printer 4 Terminal device 5 Member information management apparatus 41 Display part 51 Network IF
52 Control part 52a Member information extraction part 52b Member information arrangement part 53 Data recording part 53a Drawing DB
53b Member information DB
53c Part drawing 53d Architectural drawing 54 Bus

Claims (4)

A drawing storage means for storing a member drawing relating to a building member and a building drawing relating to a building using the building member;
Member information extracting means for extracting member information related to the building member for each building member from the member drawing;
Member information storage means for storing the identification information for uniquely identifying the building member and the member information extracted by the member information extraction means in association with each other;
The identification information corresponding to the building member included in the architectural drawing is acquired from the architectural drawing, the member information corresponding to the acquired identification information is acquired from the member information storage means, and the acquired member information is acquired. A member information arrangement means for associating with a building member corresponding to the acquired identification information and arranging it in the architectural drawing;
Output means for outputting at least a part of the architectural drawing in which the member information is arranged by the member information arranging means ,
The architectural drawings are:
It has the code | symbol corresponding to the said building member contained in the said architectural drawing,
The member information arranging means is
The code is extracted from the architectural drawing, the member information associated with the identification information corresponding to the extracted code is acquired from the member information storage means,
Specify the position of the code in the architectural drawing based on the arrangement of the cores in the architectural drawing,
The acquired member information is arranged in association with the position of the specified code,
Material information management system. The member drawings are:
It is a table divided for each building member by a lane marking, and has a member table including the member information,
The member information extraction means includes
The member table is acquired as vector data from the member drawing, the partition line in the acquired member table is specified, and each vector data partitioned by the specified partition line is extracted as the member information.
The member information management system according to claim 1. The bill of materials is
An area partitioned by the lane markings, including a title area including the identification information and a member information area including the member information;
The member information extraction means includes
Of the vector data partitioned by the partition line, data combining vector data corresponding to the title area and vector data corresponding to the member information area is extracted as the member information.
The member information management system according to claim 2. The member information extraction means specifies a line having a predetermined length or more as the partition line among the lines constituting the member table.
The member information management system according to claim 2 or 3.

Images