JP4300053B2 - Building inspection support device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a building inspection support device.
[0002]
[Prior art]
Conventionally, in the inspection of buildings such as condominiums, for example, when inspecting finishing work, the inspector carries the finishing work check sheet and finds the repair location, the room name of the repair location, the repair site, the repair The contents and the name of the retouching company were entered on the check sheet by hand.
[0003]
Also known is a method of inputting a check item by giving a tablet function to a display unit of a portable terminal device such as a PDA or a personal computer, and instructing the check item displayed on the display unit with a touch pen ( For example, see Patent Document 1.)
Specifically, for example, a plan view of a building to be inspected is displayed on the display unit, and a position corresponding to the rework location on the plan view is indicated with a touch pen, whereby the rework location and its identification number are shown in a plan view. The room name, rework site name, rework work name, rework content, rework content, and refurbishment company name corresponding to the rework location are displayed on the display unit, and the room name and rework site name corresponding to the rework location from each display content The rework work name, rework content, and rework trader name can be selected and registered with a touch pen.
[0004]
[Patent Document 1]
Japanese Patent Laid-Open No. 7-207938
[0005]
[Problems to be solved by the invention]
However, in the method of inputting the inspection result described in Patent Document 1, although the efficiency up to the input of the retouched portion has been improved to some extent, the follow-up after pointing out the retouched portion has not yet been supported.
In other words, there was no support for managing the progress of rework after pointing out where to rework.
[0006]
Then, the subject of this invention is providing the building inspection assistance apparatus which can perform management after the point of reworking in the building inspection can be performed efficiently.
[0007]
[Means for Solving the Problems]
  In order to solve the above-described problem, the invention described in claim 1 includes, for example, as shown in FIGS. 1 to 16, a drawing information storage unit (for example, a drawing master DB 41) that stores drawing information related to a drawing of a building; A display unit (7) for displaying a drawing based on the drawing information of the building stored in the drawing information storage unit, and an input unit for inputting a repaired portion requiring correction on the drawing of the building displayed on the display unit. (Input unit 5, voice input unit 6), a portable building inspection support device (1) comprising:
The building is composed of a plurality of living units,
  Display control means (for example, CPU 2 etc.) for displaying an indication in a predetermined form at a position on the drawing corresponding to the reworked portion input by the input means;
  Display changing means (for example, CPU 2) for changing the indication display to a different display mode for each rework process based on input of progress information of a predetermined rework process regarding the rework site;
A resident part display control means (for example, CPU 2) for displaying the plurality of resident parts on the display part in a predetermined resident display mode for each resident part;
Based on the input of the progress information in the living part, the living display form change control means (for example, CPU 2) changes the living display form at the position corresponding to the living part displayed on the display part according to the progress information. When,
  It is characterized by providing.
[0008]
  According to the first aspect of the present invention, the display control means displays the indication in a predetermined form at the position on the drawing corresponding to the retouched part input by the input means, and the display changing means performs the predetermined display relating to the reworked part. The indication display is changed to a different display mode based on the input of the progress information of the retouching process. Therefore, the inspector can visually grasp the progress of the rework of the reworked part on the drawing, and can efficiently perform management after pointing out the reworked part in the building inspection.
In particular, a plurality of living units are displayed on the display unit in a predetermined residence display mode for each living unit by the living unit display control unit, and displayed based on input of progress information in the living unit by the residential display mode change control unit. Since the residence display mode at the position corresponding to the residence part displayed on the part is changed and displayed according to the progress information, the inspection status for each residence part can be grasped more easily. Improve operational efficiency of building inspection.
[0009]
  The invention according to claim 1 is the building inspection support device,
  The display changing means includes
  First display changing means (for example, CPU 2 or the like) for changing to a request display having a mode different from the indication display based on an input of a rework request for the rework portion;
  A second display changing means (for example, CPU 2) for changing to a confirmation display of a different form from the indication display and the request display, based on an input for confirmation of rework of the rework portion;
  It is characterized by providing.
[0010]
  According to the first aspect of the present invention, in particular, the first display changing means changes the request display to a different form from the indication display based on the input of the rework request for the reworked portion, and the second change display means Since the display is changed to a confirmation display different from the indication display and the request display on the basis of the input of the reconfirmation confirmation of the correction portion, the indication display, the request display, and the confirmation display can be reliably distinguished.
[0011]
  The invention according to claim 2 is the building inspection support device according to claim 1,
  Pointed matter storage means (for example, a part master DB 42 and an item master DB 43) that stores the part information on the part of the building in association with the pointed items that can be pointed out at each part;
  When a revising part is input by the input means, an indication matter display control means (for example, an indication matter that can be pointed out at the retouching site is obtained from the indication matter storage means and displayed on the display unit (for example, CPU2),
  It is characterized by providing.
[0012]
  According to the invention described in claim 2, it is of course possible to obtain the same effect as that of the invention described in claim 1. In particular, when the corrected part is input by the input means by the indication display control means. In addition, since the indication items that can be pointed out at the repair site are acquired from the indication item storage means and displayed on the display unit, it is possible to improve the input efficiency of the indication items by the inspector and to prevent erroneous input can do.
[0013]
  The invention according to claim 3 is the building inspection support device according to claim 2,
  The contractor storage means (for example, the contractor master DB 44) that stores the pointed item of the building part in association with the contractor performing rework on the pointed item,
  A contractor display control for acquiring a contractor for revising the pointed item of the building part from the contractor storage means based on the pointed item of the building part being input and displaying the contractor on the display unit. Means (for example, CPU 2);
  It is characterized by providing.
[0014]
  According to the invention described in claim 3, it is of course possible to obtain the same effect as that of the invention described in claim 2. In particular, an indication matter of the building part is input by the contractor display control means. Based on the above, the contractor who corrects the pointed out matter of the building concerned is acquired from the contractor storage means and displayed on the display unit, so even if the inspector does not know the contractor, it is automatically displayed. As a result, it becomes possible to more efficiently perform management after pointing out the reworked part in the building inspection.
[0018]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, a building inspection support apparatus according to the present invention will be described in detail with reference to the drawings. The building inspection support apparatus according to the present embodiment supports an inspection operation for a building such as an apartment, and is configured by a portable terminal that can be carried by an inspector such as a tablet PC or PDA.
[0019]
As shown in FIG. 1, a building inspection support apparatus 1 includes a CPU (Central Processing Unit) 2, a RAM (Random Access Memory) 3, a storage unit 4, an input unit 5, a voice input unit 6, a display unit 7, and a time measuring unit 8. , An interface (I / F) 9 for connecting to an external device is provided, and these are connected via an internal bus B.
[0020]
<Description of storage unit>
The storage unit 4 has a recording medium 4a in which programs and data are stored in advance. The recording medium 4a is composed of, for example, a magnetic recording medium, an optical recording medium, a semiconductor memory, or the like. The recording medium 4 a is provided fixedly or detachably with respect to the storage unit 4.
[0021]
The recording medium 4 a includes a drawing master database (drawing master DB) 41, a part master database (part master DB) 42, an item master database (item master DB) 43, and a contractor master database (constructor master DB) 44. And are stored.
The recording medium 4a is provided with a program storage area 45 for storing various application programs used for building inspection support processing, a result data storage area 46 for storing execution results of various application programs, and the like. Yes.
[0022]
Note that some or all of the programs, data, and the like stored in the recording medium 4a may be acquired from another external device or the like via an interface or the like and recorded in the recording medium 4a.
[0023]
<Description of each database>
The drawing master DB 41 stores, for example, plan view data for each room number (residential part) of an apartment.
The drawing data may be CAD data at the time of design, or image data in the BMP format, JPEG format, or GIF format obtained by capturing the drawing with a scanner (not shown).
[0024]
The part master DB 42 stores part information regarding each part in each living part of the building.
Specifically, as shown in FIG. 2, the part information is stored in a hierarchy of four layers of room name data, part data, position data, and finishing / background data. There are entrance, bedroom (1), bedroom (2), bedroom (3), LD, Japanese-style room, corridor, balcony, patio terrace, wash basin, kitchen, WC, UB, outdoor unit storage place, dressing room and the like. In addition, as part data (second level), floors, skirting boards, walls, ceilings, etc., shelves, kitchens, three-sided frames, hanging cabinets, pantry doors, sliding doors, storage, footsteps, doors, center doors, picture frames , Glass, basket, outdoor unit storage, handrail, towel storage, sliding door, vanity, joinery, trunk room, etc. The position data (third layer) includes upper, lower, left, right, and around. Finish / underground data (4th layer): cloth, carpet, flooring, soft baseboard, PVC sheet, semi-porcelain tile, three-sided frame, door, kitchen panel, sash, cooler cap, frame, top edge, caulking, frame, There are sleeve caps, shelves, glass, crescent, tatami mats, bran, kamoi, plywood, and cedar.
[0025]
Each layer of the part information has a tree structure, and when an item in the upper layer is selected, data that can be selected in the lower layer of the item is linked and stored.
[0026]
The item master DB 43 stores pointed item information that can be pointed out in the examination.
Specifically, for example, dirt, tears, untreated, peeling, stains, scratches, floats, attachment, joints, rattling, poor attachment, malfunction, tear attachment, glue adhesion, turning, makeup None, level adjustment, crushing, paint adhesion, coke treatment, gap, chipping, treatment, unpainted, cleaning, etc.
The indication item information is linked to the part information, and the indication items that can be selected for each part are stored in association with each other.
[0027]
The contractor master DB 44 stores a contractor who makes corrections to the indications regarding the finishing of the building part. The contractor master DB 44 is linked to the item master DB 43, and stores items that are pointed out for each finish and contractors that perform rework on the points indicated.
[0028]
The program storage area 45 stores a system program and application programs for performing various operations in the CPU 2. In particular, the CPU 2 displays the indication display based on the input of the progress information of the predetermined retouching process regarding the retouching portion, the display control means for displaying the indication in a predetermined mode at the position on the drawing corresponding to the input retouching portion. A display change program 45a for functioning as a display change means for changing to a different display mode is stored.
[0029]
The result data storage area 46 stores data input by the user, data extracted by the CPU 2, and the like.
[0030]
<Description of CPU 2>
The CPU 2 stores various application programs and system programs stored in the storage unit 4 in the RAM 3 and executes various processes according to the application programs stored in the RAM 3 in accordance with various instruction signals and input data. . In addition, the CPU 2 performs control to temporarily store the processing result in the RAM 3 and display it on the display unit 7. The CPU 2 also performs control to store the processing result information in the result data storage area of the storage unit 4.
[0031]
Specifically, the CPU 2 functions as display control means for performing indication display at a position on the drawing corresponding to the retouched part input by the input unit 5 by executing the display change program 45a, and for the predetermined part related to the reworked part. It functions as a display changing means for changing the indication display to a different display mode based on the input of progress information of the retouching process.
[0032]
More specifically, the CPU 2 based on the input of the request for reworking the reworked part, based on the first display changing means for changing to the request display in a mode different from the indication display, and on the input of the rework confirmation of the reworked part, It functions as a second display changing means for changing to a confirmation display different from the indication display and the request display.
[0033]
In addition, when the CPU 2 determines that the retouched part has been input by the input unit 5, the CPU 2 acquires the indicated item linked to the retouched part from the item master DB 43 and displays it on the display unit 7. Function.
Moreover, CPU2 acquires the construction contractor linked with the indication matter of the said site | part of the said building from construction company master DB44 based on the indication matter of the site | part of a building being input, and the display part 7 displays it It functions as a vendor display control means.
Further, the CPU 2 functions as a resident part display control unit that displays a plurality of resident parts (for example, each room of the apartment) on the display unit 7 in a predetermined resident display mode for each resident part, and progress information in the resident part. Based on this input, it functions as a residence display mode change control means for changing the residence display mode at the position corresponding to the living unit displayed on the display unit 7 according to the progress information.
[0034]
<Description of RAM 3>
The RAM 3 forms a program storage area for developing various data when the CPU 2 executes the program stored in the storage unit 4. Further, a storage area for temporarily storing data relating to processing executed by the CPU 2 is formed. Further, a work area or the like processed by the input instruction and input data is formed.
[0035]
<Description of Input Unit 5>
The input unit 5 includes a key group 5a, a touch pen 5b, and a tablet 5c.
[0036]
The key group 5a includes various keys such as a cursor key, a numeric key, and a function key, and outputs an operation signal corresponding to the key operated by the user to the CPU 2.
[0037]
The tablet 5c is configured integrally with the display unit 7, and detects the coordinate position where the user touches the display unit 7 with the touch pen 5b based on various coordinate reading principles such as a resistive film type, an optical type, and a capacitance type, and the coordinates An input signal corresponding to the position is output to the CPU 2.
[0038]
Specifically, by touching a menu bar, an icon, or the like displayed on the display unit 7 with the touch pen 5b, an operation corresponding to the touched menu item or icon can be performed.
[0039]
<Description of the voice input unit 6>
The voice input unit 6 includes a microphone (not shown), a voice recognition unit, and the like. A voice signal input from the microphone is recognized by the voice recognition unit and converted into text data, and the converted text data is input as voice. It outputs to CPU2 as information.
[0040]
<Description of Display Unit 7>
The display unit 7 is configured by, for example, an LCD (Liquid Crystal Display). In accordance with the display control of the CPU 2, an input screen for inputting various data can be displayed on the display screen.
[0041]
<Description of timing unit 8>
The timekeeping unit 8 keeps time and date, and the time data and the like timed are sent to the RAM 3 via the CPU 2 and sequentially updated and set. For example, an oscillation circuit (not shown) that oscillates a clock signal with a predetermined frequency, a frequency divider circuit (not shown) that divides the signal from the oscillation circuit to obtain a signal with a predetermined frequency, and clock data in units of one second And a time counter (not shown) for conversion into the above.
When the CPU 2 inputs a correction indication, a correction request, a correction confirmation, or the like, the input date and time is stored in the result data storage area of the storage unit 4.
[0042]
<Description of interface (I / F) 9>
The I / F 9 is an interface for inputting / outputting various instruction signals, position information, and the like between the building inspection support apparatus 1 and an external device (not shown). For example, a USB (Universal Serial Bus) port or RS-232C Terminals and other serial input / output terminals, parallel input / output terminals, SCSI interfaces, infrared communication devices conforming to IrDA (Infrared Data Association) standards, etc. are provided, and can be connected to external devices by wired or wireless communication means It is.
And each data of drawing master DB41 memorized by storage part 4, part master DB42, item master DB43, and contractor master DB44 is memorized by another construction management system via I / F9, for example. You may make it acquire from data.
[0043]
Next, on-site work processing by the building inspection support apparatus will be described in detail with reference to FIGS.
In describing the site work process, it is assumed that necessary data is stored in advance in the drawing master DB 41, the part master DB 42, the item master DB 43, and the contractor master DB 44. The building is a condominium, and each room number (residential part) is inspected.
[0044]
As shown in FIG. 3, first, when “site work” is input by the touch pen 5 b on the process selection display screen (not shown) displayed on the display unit 7 (step S <b> 101), the CPU 2 displays the display unit 7. For example, the room number selection screen G100 shown in FIG. 4 is displayed (step S102). Then, when the user selects the room number list 101 displayed on the room number selection screen G100 with the touch pen 5b, a room number selection instruction is input to the CPU 2, and the CPU 2 temporarily stores the selected room number data in the RAM 3. (Step S103). Here, for example, “201” is selected.
[0045]
Further, the CPU 2 extracts the plan view data corresponding to “201” from the drawing master DB 41 based on the input room number selection instruction, for example, as shown in FIG. 4, the plan view of “201”. 102 is displayed (step S104), and room name data corresponding to the “201” is extracted from the part master DB 42 and displayed on a room selection display screen G200 as shown in FIG. 5, for example (step S105). . Specifically, an entrance, a bathroom, a kitchen, a dressing room, and so on are displayed.
[0046]
In the room selection display screen G200 shown in FIG. 5, a plan view 210 of “201” is displayed on the left side of the screen, and a room selection column 220 is displayed on the right side thereof.
In this state, when the user presses a place on the plan view 210 corresponding to the indicated place with the touch pen 5b or the like, the position data is input to the CPU 2 (step S106). Then, the CPU 2 displays an indication display 211 at the pressed position and temporarily stores the position data in the RAM 3 (step S107). Specifically, the indication display 211 includes, for example, a “leading line” display 211a as shown in FIG. 5 and a “pointing No.” display 211b displayed in the vicinity of the “leading line” display 211a. The “pointed number” display 211b is a number indicating the pointed-out order. In addition, the indication is displayed in red, and the “indication No.” display is a display with parentheses such as “(1)”.
[0047]
Next, from the room name list 221 displayed in the room selection column 220, the user selects a room name corresponding to the indicated location with the touch pen 5b or the like, whereby a room name selection instruction is input to the CPU 2, and the CPU 2 is selected. Pointed out the room name data. The data is temporarily stored in the RAM 3 in association with the data (step S108). Specifically, here, “Western-style room 1” is selected as the room name.
[0048]
Further, the CPU 2 performs control to display “Western room 1” in the room name entry field 222 based on the room name selection instruction (step S109).
[0049]
Next, the CPU 2 extracts the part data linked to “Western room 1” from the part master DB 42 based on the input room name selection instruction, and displays it on the part selection display screen G300 as shown in FIG. (Step S110). That is, by selecting “Western-style room 1”, only selectable parts are displayed in the part list 321 of the part selection column 320 of the part selection display screen G300. Specifically, as shown in FIG. 6, walls, closets, ceilings, skirting boards, and floors are displayed in the part list 321.
[0050]
Next, when the user selects a part with the touch pen 5b from the part list 321 displayed on the part selection display screen G300, a part selection instruction is input to the CPU 2, and the CPU 2 temporarily stores the selected part data in the RAM 3. Store (step S111). Specifically, “floor” is selected as the part here.
Then, the CPU 2 performs control to display “floor” in the part entry field 322 based on the part selection instruction (step S112).
[0051]
Next, the CPU 2 extracts position data linked to “floor” from the part master DB 42 based on the input part selection instruction, and causes the display unit 7 to display a position display screen (not shown). Depending on the selected part, the position may not be selected. In this case, the position data is not displayed. In the case of the floor, the position data is not displayed because the position data is not selected.
[0052]
If there is no position data, the CPU 2 extracts finishing / background data linked to the part from the part master DB 42 and causes the display unit 7 to display a finishing / background selection display screen G400 as shown in FIG. S113). In other words, only finishing / grounds that can be selected by selecting “Western style room 1”-“floor” are displayed in the finishing list 421 of the finishing selection column 420. Specifically, the carpet is displayed in the finishing list 421.
[0053]
Next, when the user selects a finish / ground with the touch pen 5b from the finish / background list displayed on the finish / background selection display screen G400, a finish / background selection instruction is input to the CPU 2, and the CPU 2 selects the selected finish. / Background data is temporarily stored in the RAM 3 (step S114). Specifically, here, “carpet” is selected as the finishing / base.
Further, the CPU 2 performs control to display “carpet” in the finishing entry field 422 based on the finishing / base selection instruction (step S115).
[0054]
Next, the CPU 2 extracts pointed item data linked to “carpet” from the item master DB 43 based on the input finish / background selection instruction, and displays the pointed item selection display screen G500 as shown in FIG. The indication item list 521 in the indication item selection column 520 is displayed on the display unit 7 (step S116). Specifically, floating, scratches, stains, peeling,... Are displayed in the indication item list 521.
[0055]
Next, when the user selects an indication item with the touch pen 5b from the indication item list 521 displayed on the indication item selection display screen G500, an indication item selection instruction is input to the CPU 2, and the CPU 2 stores the selected indication item data. The data is temporarily stored in the RAM 3 (step S117). Specifically, here, “scratch” is selected as the indication item.
[0056]
Further, the CPU 2 performs control to display “scratch” in the indication entry column 522 based on the indication item selection instruction (step S118). Specifically, a retouched part indication completion screen G600 as shown in FIG. On the retouched part completion screen G600, the selected data is input in the room name entry field 601, the part entry field 602, the position entry field 603, the finishing entry field 604, and the indication entry field 605, respectively.
[0057]
Next, the CPU 2 determines whether or not the user has pressed a place on the plan view corresponding to the indicated place in the plan view 610 displayed on the retouched part completion screen G600 with the touch pen 5b or the like (step S119). If it is determined that the button has been pressed by the input of the pressing signal (step S119; Yes), the CPU 2 returns to step S107 again. On the other hand, if the CPU 2 determines that the location on the plan view corresponding to the indicated location is not pressed with the touch pen 5b or the like (step S119; No), the CPU 2 proceeds to step S120.
[0058]
Next, the CPU 2 determines whether or not the user has input the end button 630 (step S120). If it is determined that the end button 630 has been input (step S120; Yes), a data storage message is displayed. This is displayed on the part 7 (step S121). When the data storage signal is input from the user (step S122; Yes), the CPU 2 stores the data “201 (room number data) −1 (pointed No. data) temporarily stored in the RAM 3. -Western room 1 (room name data)-Floor (part data)-Carpet (finishing / ground data)-Scratch (pointed item data) "are stored as field input data in the result data storage area 46 of the storage unit 4 (step S123), it is determined that the retouching input of “201” has been completed, and the display mode of the display of “201” in the room number list displayed on the room number selection screen shown in FIG. 4 is changed from black to red. After the processing (step S124), the room number selection screen shown in FIG. 4 is displayed (step S125), and this processing is terminated. For example, when the retouching input for all the rooms 201 to 206 belonging to 2F in FIG. 4 is completed, the CPU 2 changes the display mode of “2F” in the upper hierarchy from black to red.
[0059]
On the other hand, when the CPU 2 determines that the user does not input the end button 630 (step S120; No), the CPU 2 proceeds to step S119.
[0060]
Next, office work processing will be described in detail with reference to the drawings.
In explaining the office work process, it is assumed that the items to be pointed out are input in advance by the field work process of FIG.
[0061]
As shown in FIG. 10, first, when “office work” is input with the touch pen 5 b on the process selection display screen (not shown) displayed on the display unit 7 (step S <b> 201), the CPU 2 displays the display unit 7. For example, the room number selection screen G700 shown in FIG. 11 is displayed (step S202). When the user selects a room number with the touch pen 5b from the room number list 710 displayed on the room number selection screen G700, a room number selection instruction is input to the CPU 2, and the CPU 2 temporarily stores the selected data in the RAM 3. Store (step S203). Specifically, for example, “201” is selected.
[0062]
Further, the CPU 2 extracts the plan view data corresponding to “201” from the drawing master DB 41 based on the input room number selection instruction, and for example, as shown in FIG. 11, the plan view of “201”. 720 is displayed (step S204), and the field input data corresponding to the “201” stored in the result data storage area 46 is extracted. At this time, the CPU 2 extracts the contractor data linked to the indicated item data from the contractor master DB 44. Next, the CPU 2 displays an indication item list 730 as shown in FIG. 11, for example (step S205). Specifically, the indication item list 730 includes, for example, No. Nos. 1-4 Room name data (for example, “Western-style room 1”, “Western-style room 2”, “Living room”, “Japanese-style room”), part data, position data, finishing / ground data, indication data, and contractor data are displayed. .
[0063]
Here, for example, when the user wants to change the name of the contractor, it is determined that the CPU 2 has input a pressing signal by pressing the contractor column (for example, reference numeral 732) of the corresponding pointed item in the pointed item list 730 by the user. When it has been done (step S206; Yes), the contractor selection field 810 is displayed on the display unit 7 on the contractor selection screen G800 as shown in FIG. Then, when the user presses the all item button 811 in the contractor selection field 810, the CPU 2 extracts all contractors from the contractor master DB 44 and displays them in the contractor selection field 810 (step S207). Specifically, for example, an all contractor display screen G850 as shown in FIG. 13 is displayed. Here, the indication No. The contractor of “Western-style room 2” 2 will be changed. Next, an instruction to select a corresponding contractor from all the contractors displayed in the contractor selection field 851 is given. Then, a selection instruction is input to the CPU 2, and the CPU 2 temporarily stores the selected contractor data in the RAM 3 (step S208). Specifically, it is assumed here that the contractor changes from “XX decoration” to “□□ trading”.
[0064]
Further, the CPU 2 performs control to display “□□ Trading” in the contractor entry field (for example, reference numeral 901 in FIG. 14) based on the contractor selection instruction (step S209). In step S206, if there is no input in the contractor column 852 (step S206; No), the CPU 2 determines whether or not there is an input for the rework method (step S210).
[0065]
If the CPU 2 determines that a pressing signal based on the pressing of the retouching method column by the user has been input (step S210; Yes), it extracts retouching method data from a database (not shown) and displays a retouching method list (not shown). It is displayed (step S211). Then, an instruction to select a corresponding repair method from the repair methods displayed in the repair method list is issued. Then, an instruction for selecting the retouching method is input to the CPU 2, and the CPU 2 temporarily stores the selected retouching method data in the RAM 3 (step S212). Further, the CPU 2 displays the selected retouching method on a retouching method selection display screen G900 as shown in FIG. 14, for example (step S213). Specifically, for example, the indication No. The retouching method for 1 is displayed as “re-paste” 931.
[0066]
Next, in step S214, the CPU 2 determines whether or not a pressing signal for each scheduled start date, a scheduled completion date or an all scheduled start signal has been input, and if these signals are not input (step S214; No). In step S217, if these input signals are present (step S214; Yes), the construction schedule / completion schedule instruction input is temporarily stored in the RAM 13 (step S215). Then, for example, as shown in FIG. 14, the CPU 2 displays the date in the scheduled start date column 911 (step S216). Specifically, for example, “April 15, 2003” is input.
Further, the CPU 2 displays the date in the scheduled completion date column 1001 as in the confirmation date input screen G1000 shown in FIG. 15 (step S216). Specifically, for example, “April 15, 2003” is displayed.
[0067]
Next, for example, the CPU 2 determines whether or not a pressing signal for the end button 1030 shown in FIG. 15 is input (step S217). If it is determined that no pressing signal is input (step S217; No), Return to S206. On the other hand, if the CPU 2 determines that the pressing signal of the end button 1030 has been input (step S217; Yes), it displays a data storage message on the display unit 7 (step S218). When the data storage signal is input from the user (step S219; Yes), the CPU 2 stores the contractor data, the scheduled start date data, the start completion date data, etc. temporarily stored in the RAM 3. 4 is stored in the result data storage area 46 (step S220), and this process ends.
[0068]
Next, the progress display change process will be described with reference to FIG.
In the progress display change process shown in FIG. 16, when a room number selection process (not shown) is performed, the CPU 2 determines whether or not a rework request input has been made regarding the indicated part of the rework of the selected room number (step). S251).
[0069]
Specifically, for example, in a document creation process to be described later, when an instruction to print a trader-specific instruction is input, the CPU 2 determines that a rework request is input (step S251; Yes), and the CPU 2 The indication of the indicated part to be changed is changed to the request display (step S252). Specifically, for example, as shown in FIG. 14, the “leader line” display 921 is changed from red display to blue display, and the “pointed No.” display 922 is changed from “(1)” to “[1]”. Display control to change to the parenthesized request display is performed (step S212).
[0070]
Next, the CPU 2 determines whether or not a rework confirmation input has been made (step S253). Specifically, for example, on the confirmation date input screen G1000 shown in FIG. 15, the CPU 2 determines that a confirmation confirmation input has been made when the confirmation date is input to the CPU 2 by the user in the confirmation date column 1010 ( In step S253; Yes), the CPU 2 temporarily stores the confirmation date data in the RAM 3, changes the “leading line” display 1020 of the corresponding indication item from blue display to black display, and also displays “indication No.”. Display control is performed to change the display 1021 from “[1]” to a confirmation display without parentheses “1” (step S254).
[0071]
Next, for example, the CPU 2 determines whether an instruction to press the end button 1030 is input on the confirmation date input screen G1000 shown in FIG. 15 (step S255), and determines that the end button 1030 is not input (step S255). S255; No), the process proceeds to step S253 again. If it is determined that the end button 1030 has been input (step S255; Yes), a data storage message is displayed on the display unit 7 (step S256). When the data storage signal is input from the user (step S257; Yes), the CPU 2 prints out the pointed item data temporarily stored in the RAM 3 and the print instruction data of the vendor-specific instruction (rework request data). Then, confirmation date data (reconfirmation confirmation data) and the like are stored in the result data storage area 46 of the storage unit 4 (step S258), and this process is terminated.
[0072]
Next, the document creation process will be described in detail with reference to the drawings.
In explaining the document creation process, the items to be pointed out are input in advance by the on-site work process of FIG. 3, and the contractor's input process, rework request process, rework confirmation process, etc. are performed by the office work process of FIG. It is done as appropriate.
[0073]
As shown in FIG. 17, first, when “printing work” is input by the touch pen 5 b or the like on the processing content display screen (not shown) displayed on the display unit 7 (step S <b> 301), the CPU 2 displays the display unit 7. For example, a print selection screen G1100 shown in FIG. 18 is displayed (step S302). When the user selects a room number with the touch pen 5b from the output room number list 1110 displayed on the print selection screen G1100, a room number selection instruction is input to the CPU 2, and the CPU 2 temporarily stores the selected room number data in the RAM 3. (Step S303). Specifically, for example, “201” is selected.
[0074]
Further, the CPU 2 stores the field input data, the contractor data, the scheduled start date data, and the check date data corresponding to the “201” stored in the result data storage area 46 based on the input room number selection instruction. Etc. are extracted (step S304).
[0075]
Next, when the user selects the printing condition of the document to be printed with the touch pen 5b, the CPU 2 stores the selection data in the RAM 3 (step S305).
Next, when the CPU 2 inputs a printing instruction from the user, the CPU 2 executes printing based on the printing conditions stored in the RAM 3 (step S306), and ends this processing.
[0076]
As the printing condition, for example, as displayed on the print selection screen G1100 shown in FIG. More specifically, when the user designates the supplier-specific instruction column 1120 with the touch pen 5b, for example, a contractor selection column 1130 shown in the print selection screen G1100 is displayed, and here, a contractor is selected. Next, from the output content selection column 1140, “all output” 1141 that outputs all of the indication items related to the contractor, “input only incomplete” 1142 that outputs only the indication items that are not input for confirmation, or output only the completion of confirmation The print condition such as “output only confirmation completion” 1143 can be selected, and the user can select the print condition, and printing can be performed under the selected print condition. Note that when the vendor-specific instruction sheet is printed, the CPU 2 changes the indication of the indication item to the request display on the assumption that the rework request has been completed by inputting the printing instruction.
[0077]
Further, as the print condition, for example, as indicated on the print selection screen G1100 shown in FIG. 18, the pointed item list can be printed. More specifically, when the user designates the indication item list column 1150 with the touch pen 5b, the output content display column 1140 is displayed, “all output” for outputting all indication items, and indication items for which confirmation input has not been input. Printing conditions such as “Only input incomplete” or “Output only confirmation completed” can be selected, and the user can select a printing condition from among them. Printing is possible.
[0078]
Furthermore, as a print condition, for example, a condition extraction table can be printed as displayed on the print selection screen G1100 shown in FIG. More specifically, when the user designates the condition extraction field 1150 with the touch pen 5b, the room number, the part, the finish, and the construction contractor, which are the living parts, are selected as the output contents, and the selected printing conditions are used. Can be printed.
[0079]
Further, as a printing condition, for example, a process chart can be printed as displayed on the print selection screen G1100 shown in FIG. More specifically, when the user designates the process table column 1170 with the touch pen 5b, the output content selection column 1140 is displayed, “all output” for outputting all of the indication items, and only the indication items for which confirmation input has not been made. Printing conditions such as “input only incomplete” to be output or “output only confirmation completed” to output only confirmation completion can be selected, and printing can be performed under the selected printing conditions by selecting each. ing. The process chart can also be printed for each contractor.
[0080]
According to the building inspection support device of the present invention described above, indications such as lead lines are displayed at positions on the drawing corresponding to the retouched part input by the touch pen 5b, and a request for reworking to the construction contractor regarding the reworked part is performed. The indication display is changed to a request display and a confirmation display, respectively, based on the input and the reconfirmation confirmation input of the rework site. Therefore, the user can visually grasp the progress of the reworking of the reworked part on the drawing, and can efficiently perform management after pointing out the reworked part in the building inspection.
[0081]
In addition, when a part to be repaired is input with the touch pen 5b, an indication item that can be pointed out at the part to be repaired is displayed on the display unit 7. This prevents erroneous entry of the indication item by the examiner. As well as being able to input, it will be faster.
[0082]
In addition, since the contractor who corrects the pointed item of the building part is displayed on the display unit 7 based on the input of the pointed item of the building part, the inspector does not know the contractor. Even in this case, it is automatically displayed, and it becomes possible to more efficiently perform management after pointing out the reworked part in the building inspection.
[0083]
Furthermore, based on the input retouching process, the retouching part corresponding to the corresponding retouching process is extracted, and the indication display changed to the display mode corresponding to the retouching process of the extracted retouching part is displayed. Since it is possible to easily grasp only the information of the reworked part of the desired reworking process, the progress status after the building inspection can be managed more easily.
[0084]
In addition, when the indication of each room number of the apartment which is the building displayed on the display unit 7 is completed in the field work, each room number display displayed on the display unit 7 is changed from black to red. Therefore, the inspection status for each room number can be grasped more easily, and the work efficiency of the building inspection can be improved.
[0085]
The present invention is not limited to the one according to the above embodiment, and the design may be changed as appropriate. For example, in the above-described embodiment, the touch pen 5 b is used for data input, but voice input may be performed by the voice input 6, for example.
Also, display modes such as indication display, request display, confirmation display, etc. are not limited to the embodiment, and any display modes can be used as long as they can be distinguished from each other.
The change timing of the indication display, the request display, and the confirmation display is not limited to the above embodiment. For example, in the case of a rework request, the request display may be changed to the request display at the stage when the scheduled start date is input.
[0086]
【The invention's effect】
  According to the first aspect of the present invention, the display control means displays the indication in a predetermined form at the position on the drawing corresponding to the retouched part input by the input means, and the display changing means performs the predetermined display relating to the reworked part. The indication display is changed to a different display mode based on the input of the progress information of the retouching process. Therefore, the inspector can visually grasp the progress of the rework of the reworked part on the drawing, and can efficiently perform management after pointing out the reworked part in the building inspection.
In particular, a plurality of living units are displayed on the display unit in a predetermined residence display mode for each living unit by the living unit display control unit, and displayed based on input of progress information in the living unit by the residential display mode change control unit. Since the residence display mode at the position corresponding to the residence part displayed on the part is changed and displayed according to the progress information, the inspection status for each residence part can be grasped more easily. Improve operational efficiency of building inspection.
[0087]
  Further, according to the first aspect of the present invention, in particular, the first display changing means changes the request display to a mode different from the indication display based on the input of the rework request for the reworked portion, and the second change display The means is changed to a confirmation display different from the indication display and the request display on the basis of the input of the reconfirmation confirmation of the reworked portion, so that the indication display, the request display, and the confirmation display can be reliably distinguished.
[0088]
  According to the invention described in claim 2, it is natural that the same effect as that of the invention described in claim 1 can be obtained. In particular, when the revising portion is input by the input means by the indication item display control means, The pointed items that can be pointed out at the repaired part are acquired from the pointed item storage means and displayed on the display unit, so that it is possible to improve the input efficiency of pointed items by the inspector and prevent erroneous input. can do.
[0089]
  According to the invention described in claim 3, it is of course possible to obtain the same effect as that of the invention described in claim 3. In particular, the pointed out matter of the building is input by the contractor display control means. Based on the above, the contractor who corrects the pointed out matter of the building concerned is acquired from the contractor storage means and displayed on the display unit, so even if the inspector does not know the contractor, it is automatically displayed. As a result, it becomes possible to more efficiently perform management after pointing out the reworked part in the building inspection.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a main configuration of a building inspection support apparatus according to an embodiment of the present invention.
FIG. 2 is a diagram illustrating an example of data contents of a part master DB and an item master DB.
FIG. 3 is a flowchart for explaining field work processing;
FIG. 4 is a diagram illustrating an example of a room number selection screen.
FIG. 5 is a diagram showing an example of a room name selection screen.
FIG. 6 is a diagram showing an example of a part selection screen.
FIG. 7 is a diagram illustrating an example of a finishing / background selection screen.
FIG. 8 is a diagram illustrating an example of an indication item selection screen.
FIG. 9 is a diagram showing an example of a revising site indication completion screen.
FIG. 10 is a flowchart for explaining office work processing;
FIG. 11 is a diagram showing an example of a room number selection screen.
FIG. 12 is a diagram showing an example of a contractor selection screen.
FIG. 13 is a diagram illustrating an example of a list of all contractors list display screen.
FIG. 14 is a diagram illustrating an example of a retouching method selection screen.
FIG. 15 is a diagram illustrating an example of a confirmation date input screen.
FIG. 16 is a flowchart for explaining progress display change processing;
FIG. 17 is a flowchart for explaining document creation processing;
FIG. 18 is a diagram illustrating an example of a print selection screen.
[Explanation of symbols]
1 Building inspection support device
2 CPU (display control means, display change means, first display change means, second display change means, indication item display control means, contractor display control means, resident part display control means, resident display mode change control means)
5 Input section (input means)
6 Voice input part (input means)
7 Display section
41 drawing master DB (drawing information storage means)
42 part master DB (pointed item storage means)
43 Item master DB (pointed item storage means)
44 Contractor Master DB (Contractor storage means)
45a Display change program

Claims (3)

On a drawing information storage means for storing drawing information related to the drawing of the building, a display section for displaying a drawing based on the drawing information of the building stored in the drawing information storage means, and on the drawing of the building displayed on the display section A portable building inspection support device comprising: an input means for inputting a repair site requiring repair;
The building is composed of a plurality of living units,
Display control means for performing indication display of a predetermined mode at a position on the drawing corresponding to the reworked portion input by the input means;
Display changing means for changing the indication display to a different display mode for each reworking step based on input of progress information of a predetermined reworking step relating to the reworking part;
A resident part display control means for displaying the plurality of resident parts on the display part in a predetermined resident display mode for each resident part;
Based on the input of progress information in the living part, a living display form change control means for changing the living display form at the position corresponding to the living part displayed on the display part according to the progress information;
With
The display changing means includes
First display changing means for changing to a request display of a different form from the indication display based on an input of the rework request step of the rework portion;
A second display changing means for changing to a confirmation display of an aspect different from the indication display and the request display based on an input of the rework confirmation step of the rework portion;
A building inspection support device comprising: The building inspection support device according to claim 1,
Pointed matter storage means for storing the part information on the part of the building in association with the pointed item that can be pointed out at each part;
When a revising part is input by the input means, an indication matter that can be pointed out at the retouching part is acquired from the indication matter storage means, and indicated item display control means for displaying on the display unit;
A building inspection support device comprising: In the building inspection support device according to claim 2,
The contractor storage means for storing the instructed matter of the part of the building in association with the contractor performing rework on the indicated item,
A contractor display control for acquiring a contractor for revising the pointed item of the building part from the contractor storage means based on the pointed item of the building part being input and displaying the contractor on the display unit. Means,
A building inspection support device comprising:

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