JP6689001B2 - Inspection support device and inspection system - Google Patents

Description

  The technique disclosed in the present specification relates to an inspection support device.

  2. Description of the Related Art Inspection support devices used for construction inspection of structures such as buildings and civil engineering structures are known. Such an inspection support device displays the inspection content at each inspection position on the display unit based on the data acquired from the data generation device that creates data related to the inspection. The inspector refers to the inspection content displayed on the display unit of the inspection support device and performs a construction inspection at each inspection position. In such an inspection support device, an inspection support device is known in which the inspection content at each inspection position is drawn out from the inspection position by a leader line and displayed (see, for example, Patent Document 1).

JP, 2009-217694, A

  A conventional inspection support apparatus simultaneously displays a plurality of types of attributes at an inspection position such as an inspection content (for example, specification data) and an inspection result (for example, a photograph) on a two-dimensional drawing of a structure. Therefore, for example, when a plurality of types of attributes are associated with the inspection position, a plurality of attributes are extracted from each inspection position, the display of the attributes becomes messy, and the correspondence between the attributes and the inspection position becomes unclear. The problem occurs.

  The present specification discloses a technique capable of solving at least a part of the problems described above.

  The technology disclosed in the present specification can be implemented, for example, in the following modes.

(1) An inspection support device disclosed in the present specification is an inspection support device that supports inspection of a structure, and includes a drawing data acquisition unit that acquires drawing data representing a two-dimensional drawing of the structure, Coordinate information indicating coordinates on the two-dimensional drawing corresponding to an inspection position of a structure, and attribute information indicating attributes at the inspection position, the attributes including a plurality of types of attributes including inspection contents and an icon. , Is a map information data acquisition unit that acquires the map information data associated with each other, an operation reception unit that receives an operation, while displaying the two-dimensional drawing based on the drawing data, based on the map information data, The icon is displayed at the inspection position on the two-dimensional drawing, and the icon selected in response to the operation accepting unit accepting the operation of selecting the icon. But and a display unit that displays the plurality of types of attributes associated with the coordinates corresponding to the displayed said inspection position. According to this inspection support device, the display unit displays the two-dimensional drawing of the structure based on the drawing data, and also displays the attribute at the inspection position based on the map information data. The display unit displays an icon at the inspection position on the two-dimensional drawing when displaying the attribute, and displays a plurality of types of attributes including the inspection content in response to the selection operation for the icon being accepted. Since the icon is displayed at the inspection position on the two-dimensional drawing, the inspection position can be easily grasped by the icon. In addition, since the plurality of types of attributes other than the icon are not displayed at the inspection position on the two-dimensional drawing, it is possible to prevent the display of the presence of the attribute from being cluttered. Furthermore, since a plurality of types of attributes other than icons are displayed by an icon selection operation, a plurality of types of attributes at a desired inspection position can be displayed by an icon selection operation. The correspondence between the type attribute and the inspection position can be made clear.

(2) In the above inspection support device, the inspection position is set on a constituent member that constitutes the structure, and at least one of the constituent members has a plurality of inspection positions. Good. According to the present inspection support device, for example, an inspection position can be set for each part with respect to a component having different specifications for each part.

(3) In the inspection support device, the inspection content associated with the coordinates corresponding to the first inspection position among the plurality of inspection positions set in at least one of the component members, and the second inspection position. The inspection content associated with the coordinates corresponding to the inspection position may be different from each other. According to this inspection support device, it is possible to associate different inspection contents for each part with a component having different specifications for each part.

(4) In the inspection support device, the attribute includes an inspection result and a plurality of types of the icons, and the map information data is specific to the coordinates corresponding to the inspection position on the two-dimensional drawing. It is data capable of associating types of the icons, and the display unit displays on the two-dimensional drawing in response to the operation receiving unit receiving the operation specifying the inspection result as the attribute. The type of the icon displayed at the inspection position associated with the inspection result may be switched. According to this inspection support device, the user can confirm the inspection result at the inspection position without performing an operation of selecting an icon, depending on the type of the icon displayed on the display unit, thereby improving convenience. You can

(5) In the inspection support device, the plurality of types of icons include a plurality of icons having display colors different from each other, and in the display unit, the operation reception unit specifies the inspection result as the attribute. The display color of the icon displayed at the inspection position associated with the inspection result on the two-dimensional drawing may be switched in response to receipt of an operation. According to this inspection support device, the user can confirm the inspection result at the inspection position without performing the operation of selecting the icon by the display color of the icon displayed on the display unit, which improves the convenience. be able to.

(6) In the inspection support apparatus, the attribute includes an inspection result, and the inspection support apparatus further creates an inspection form data representing an inspection form data of the inspection position including the inspection result as the attribute. The form creation unit may be provided. According to this inspection support device, the inspection form creating unit creates the inspection form information indicating the inspection form at the inspection position, so that the user does not need to create the inspection form information by himself and the convenience can be improved. it can.

(7) The inspection support apparatus further includes an image capturing unit that generates image data representing an image by capturing an image of the subject, and in the inspection form, the image capturing unit captures the object located at the inspection position. The image may be included as the attribute generated by performing the above. According to this inspection support device, the user can confirm the inspection result and the image of the subject located at the inspection position by confirming the inspection form.

(8) The inspection support device further includes a display image acquisition unit that acquires a display image of the two-dimensional drawing, and a first additional image addition unit that adds a first additional image to the display image, The inspection form includes the display image including the inspection position of the two-dimensional drawing acquired by the display image acquisition unit, and the first additional image adding unit adds the first image to the area corresponding to the inspection position. The display image to which one additional image is added may be included. According to the inspection support device, the user can confirm the inspection result and the inspection position on the two-dimensional drawing by confirming the inspection form. In particular, since the first additional image is added to the display image included in the inspection form by the first additional image adding unit, the first additional image is added on the two-dimensional drawing as compared with the case where the first additional image is not added. The inspection position of can be easily confirmed.

(9) In the inspection support device, the attribute includes an image, and the map information data associates the plurality of images as the attribute with the coordinates corresponding to the inspection position on the two-dimensional drawing. It is also possible to adopt a configuration in which the data is possible. According to the present inspection support device, it is possible to store, for example, images before and after corrective construction, a plurality of images obtained by photographing the same subject from different angles at the inspection position, in association with the inspection position.

(10) In the inspection support device, the attribute information is information indicating a plurality of types of attributes including an image and a thumbnail image corresponding to the image, and the display unit includes the two-dimensional drawing and the inspection position. The thumbnail image as the attribute may be displayed together with at least one of the other type of the attribute in. According to this inspection support device, the user can confirm the image associated with the coordinates corresponding to the inspection position by the thumbnail image displayed on the display unit. Further, since the thumbnail image is displayed on the display unit together with the attribute of the other type in the two-dimensional drawing or the inspection position, it is associated with the attribute of the other type in the two-dimensional drawing or the inspection position and the coordinates corresponding to the inspection position. It is possible to confirm whether or not the images correspond to each other.

(11) In the inspection support apparatus, the display unit may display the image corresponding to the thumbnail image in response to the operation receiving unit receiving the operation of selecting the thumbnail image displayed on the display unit. May be displayed. According to the present inspection support device, the user can confirm the image corresponding to the thumbnail image in detail by performing the operation of selecting the thumbnail image displayed on the display unit.

(12) The inspection support apparatus further includes a second additional image adding unit that adds a second additional image to the image displayed on the display unit, and the display unit includes the second additional image added to the image. According to the addition of the additional image, the image after the addition of the second additional image may be displayed. According to this inspection support device, the user adds the second additional image by using the second additional image adding unit, so that the user can specify a specific image included in the image as compared with the case where the second additional image is not added. The contents can be easily transmitted to others.

(13) An inspection system disclosed in the present specification is an inspection system that supports inspection of a structure, and includes a data generation device and an inspection support device, and the data generation device is configured to detect the structure. A drawing data acquisition unit for acquiring drawing data representing a two-dimensional drawing, coordinate information indicating coordinates on the two-dimensional drawing corresponding to the inspection position of the structure, and attributes at the inspection position, which are inspection contents. A map information data generation unit that generates map information data in which a plurality of types of attributes that include and attribute information that indicates the attributes that include an icon are associated with each other, and the drawing support data and the map information data. And a terminal communication unit for receiving the drawing data and the map information data transmitted from the data generation device, And an operation receiving unit that displays the two-dimensional drawing based on the drawing data, displays the icon at the inspection position on the two-dimensional drawing based on the map information data, and receives the operation reception. And a display unit that displays the plurality of types of attributes associated with the coordinates corresponding to the inspection position where the selected icon is displayed, in response to the operation that the unit selects the icon, Have. According to the present inspection system, the display unit displays the two-dimensional drawing of the structure based on the drawing data and the attribute at the inspection position based on the map information data. The display unit displays an icon at the inspection position on the two-dimensional drawing when displaying the attribute, and displays a plurality of types of attributes including the inspection content in response to the selection operation for the icon being accepted. Since the icon is displayed at the inspection position on the two-dimensional drawing, the inspection position can be easily grasped by the icon. In addition, since the plurality of types of attributes other than the icon are not displayed at the inspection position on the two-dimensional drawing, it is possible to prevent the display of the presence of the attribute from being cluttered. Furthermore, since a plurality of types of attributes other than icons are displayed by an icon selection operation, a plurality of types of attributes at a desired inspection position can be displayed by an icon selection operation. The correspondence between the type attribute and the inspection position can be made clear.

(14) In the inspection system described above, the attribute includes an inspection result, and the main body communication unit specifies the inspection result specified in response to the operation accepting unit accepting the operation specifying the inspection result. May be received from the inspection support device, and the map information data generation unit may update the attribute information in response to the main body communication unit receiving the inspection result from the inspection support device. According to this inspection system, the map information data generation unit updates the attribute information in response to the main body communication unit receiving the inspection result from the inspection support device. Therefore, the map information data with the updated attribute information can be transmitted to the inspection support device.

(15) In the inspection system, the attribute includes a plurality of types of the icons, and the map information data associates a specific type of the icon with the coordinates corresponding to the inspection position on the two-dimensional drawing. The data generation device is further capable of displaying the two-dimensional drawing on the basis of the drawing data, and displaying the icon on the two-dimensional drawing on the basis of the map information data. Of the icon displayed at the inspection position and displayed at the inspection position associated with the inspection result on the two-dimensional drawing in response to the main body communication unit receiving the inspection result from the inspection support device. It may be configured to have a main body display unit that switches types. According to this inspection system, the data generation device has a main body display unit that displays a two-dimensional drawing and an icon, and the main body display unit determines the type of the displayed icon from the inspection result received from the inspection support device. Switch according to. Therefore, the user can confirm the inspection result received from the inspection support device by the type of the icon displayed on the main body display unit.

(16) The inspection system may include a plurality of the inspection support devices, and the main body communication unit may receive the inspection result from each of the inspection support devices. According to the present inspection system, the user can collectively confirm the inspection results received from the plurality of inspection support devices by the type of icon displayed on the main body display unit.

(17) In the above inspection system, the attribute includes an inspection result, and the data generation device further creates an inspection form data representing an inspection form data of the inspection position including the inspection result as the attribute. A configuration having a creating unit may be used. According to this inspection system, since the inspection form information indicating the inspection form at the inspection position is created by the inspection form creation unit, the user does not need to create the inspection form information by himself, and the convenience can be improved. .

  It should be noted that the technology disclosed in this specification can be implemented in various forms. For example, an inspection support method, a computer program for implementing the functions of those methods or apparatuses, and a computer program recording the computer program are recorded. It can be realized in the form of a non-temporary recording medium or the like.

It is a block diagram showing a configuration of an inspection system 10. It is explanatory drawing which shows the file structure of the data D100 for inspection systems. FIG. 8 is an explanatory diagram showing an example of a drawing display screen HF that displays the drawing 30 on the display unit 240. It is explanatory drawing which shows an example of the drawing display screen HF which displays the drawing 30 before an inspection is implemented. It is explanatory drawing which shows an example of the inspection screen HS in the selection inspection position KL1 before an inspection is implemented. It is an explanatory view showing an example of sectional view DA of beam SG2 in selective inspection position KL1. It is an explanatory view showing an example of sectional view DA of beam SG2 in inspection position KL2. It is explanatory drawing which shows an example of the inspection screen HS in the selection inspection position KL1 after the inspection of the 1st time is implemented. It is explanatory drawing which shows the display screen of the inspection result image PH1. It is explanatory drawing which shows an example of the inspection screen HS in the selected inspection position KL1 after the 2nd inspection is implemented. It is explanatory drawing which shows an example of the drawing display screen HF which displays the drawing 30 after an inspection was implemented. FIG. 8 is an explanatory diagram showing an example of a drawing display screen HF that displays the drawing 30 on the display unit 150. It is explanatory drawing which shows an example of the inspection form CH.

A. Embodiment:
A-1. Configuration of inspection system 10:
FIG. 1 is a block diagram showing the configuration of an inspection system 10 according to this embodiment. The inspection system 10 is for supporting the inspection of structures such as buildings and civil engineering structures, and is for a data generation device 100, a plurality of inspection support devices 200, a drawing data storage server 300, and an inspection system. The data storage server 400. The respective devices and servers are connected to each other via the network NW. The data generation device 100 is, for example, a personal computer or the like. The inspection support device 200 is, for example, a tablet terminal, a smartphone, or the like. Although three inspection support devices 200 are shown in FIG. 1, the number of inspection support devices 200 included in the inspection system 10 may be two or four or more.

  The data generation device 100 is a device that manages the inspection of a structure, and includes a control unit 110, a storage unit 120, a communication unit 130, an operation unit 140, and a display unit 150. The storage unit 120 is composed of, for example, a hard disk drive (hereinafter referred to as “HDD”), a ROM, a RAM, and the like, and various programs for controlling the data generating apparatus 100, for example, inspection system data D100 (see FIG. 2) is stored. The communication unit 130 is an interface that communicates with an external device by a wireless communication method or a wire communication method. The operation unit 140 includes, for example, a keyboard, a mouse, and the like, and receives a user operation. The display unit 150 is composed of, for example, a liquid crystal display or the like, and displays drawings and the like. The control unit 110 is configured by, for example, a central control unit (hereinafter, referred to as “CPU”) and the like, and controls each unit of the data generation device 100 according to the program read from the storage unit 120. The control unit 110 is an example of a map information data generation unit and an inspection form creation unit, the communication unit 130 is an example of a drawing data acquisition unit and a main body communication unit, and the display unit 150 is an example of a main body display unit. .

  The inspection support device 200 is a device that supports the inspection of the structure, and is specifically a work terminal operated by an inspector who performs the inspection. The inspection support device 200 includes a control unit 210, a storage unit 220, a communication unit 230, a display unit 240, a photographing unit 250, a geomagnetic sensor 260, and a GPS receiving unit 270. The storage unit 220 includes, for example, an HDD, a ROM, a RAM, and the like, and stores various programs for controlling the inspection support device 200. The communication unit 230 is an interface that communicates with an external device by a wireless communication method or a wire communication method. The display unit 240 is composed of, for example, a liquid crystal display or the like, and displays drawings and the like. In the present embodiment, the display unit 240 has a touch panel and also functions as an operation receiving unit that receives an operation by the user. The image capturing unit 250 is a camera that captures a subject to generate image data representing an image. The geomagnetic sensor 260 is a sensor that acquires information that identifies the orientation of the imaging unit 250. The GPS receiving unit 270 is a device that acquires information (latitude, longitude, and altitude) that identifies its own current position by receiving a signal transmitted by the satellite 20 in the sky. The control unit 210 includes, for example, a CPU, and controls each unit of the inspection support apparatus 200 according to the program read from the storage unit 220. The control unit 210 is an example of the display image acquisition unit, the first additional image addition unit, and the second additional image addition unit, and is another example of the inspection form creation unit, and the communication unit 230 is an example of the terminal communication unit. It is another example of the drawing data acquisition unit and the map information data acquisition unit, and the combination of the display unit 240 or the control unit 210 and the display unit 240 is an example of the display unit, and the display unit 240 is an example of the operation reception unit. Is.

  The drawing data storage server 300 is a device that stores drawing data D301 (see FIG. 2) representing a two-dimensional drawing of a structure (hereinafter, simply referred to as “drawing”). The drawing data D301 is, for example, data representing a plan view or floor plan of each floor of the structure, and is, for example, DXF format data. Drawing data D301 is previously stored in the drawing data storage server 300.

  The inspection system data storage server 400 is a device that stores the inspection system data D100. The inspection system data storage server 400 stores the inspection system data D100 generated by the data generating apparatus 100.

  FIG. 2 is an explanatory diagram showing the file structure of the inspection system data D100. The inspection system data D100 includes system data D101 and individual site data D102. The system data D101 is data for managing the individual site data D102 and is commonly used for all structures to be inspected. The system data D101 includes icon image data D201 for displaying a plurality of types of icons including, for example, the beam icon AG, the pillar icon AC (see FIG. 4), or these different color icons (see FIG. 10).

  The individual site data D102 is data set for each construction site of the structure. The individual site data D102 includes a plurality of inspection type-specific data D202 set for each type of inspection performed on a structure, such as a bar arrangement inspection and a steel frame bolt inspection. Each inspection type data D202 includes drawing data D301 and map information data D302. The map information data D302 is data in which the position data D401 of the structure and the attribute data D402 are associated with each other, and is, for example, data in the Shape format. Specifically, the map information data D302 includes position data D401, attribute data D402, and correspondence data D403.

  The position data D401 is data indicating coordinates on the drawing for each position of the structure, and specifically, the coordinate data included in the drawing data D301 is used. The position data D401 is an example of coordinate information. The attribute data D402 is data indicating the attribute of each position of the structure, and specifically, the ID data D501, the icon data D502, the grid data D503, the grid identification data D504, and the inspection data D506. , Image data D507 and cross-sectional view data D508. The attribute data D402 is an example of attribute information.

  The ID data D501 is data indicating the identification number of the attribute data D402. The icon data D502 is data for displaying an icon on the display unit 240 of the inspection support apparatus 200. For example, a specific type of icon can be selected from a plurality of types of icons that can be displayed by the icon image data D201 included in the system data D101. Includes data for selecting. The grid line data D503 is data for displaying the grid line of the structure on the display unit 240 of the inspection support apparatus 200. The grid identification data D504 is data for displaying a grid identifier for identifying the grid. The inspection data D506 is data indicating the inspection content and the inspection result at the predetermined inspection position set in the structure. The image data D507 is data indicating an image and a thumbnail image obtained by reducing the image, and is generated by, for example, the image capturing unit 250 of the inspection support apparatus 200. The cross-sectional view data D508 is data indicating a cross-sectional view (see FIGS. 6 and 7) of each component member that constitutes the structure. The cross-sectional view includes, for example, cross-sectional views of beams and columns when the structure is a reinforced concrete building. The identification number, icon, grid, grid identifier, inspection content, inspection result, image, thumbnail image, and sectional view are examples of attributes, and inspection content and sectional view are examples of inspection content. The examination result, the image, the thumbnail image, the cross-sectional view, and the examination result are examples of a plurality of types of attributes.

  The correspondence data D403 is data that associates the attribute data D402 with the position data D401. That is, an attribute such as a specific type of icon (hereinafter, simply referred to as “icon”) or a grid indicated by the attribute data D402 is associated with the coordinates on the drawing indicated by the position data D401 by the correspondence data D403.

  The control unit 210 (FIG. 1) of the inspection support apparatus 200 has a GIS (Geographic Information System) display function, and the position information is used as a key to superimpose the information on the space and the information on the position in the display unit 240. It has a function to display. Specifically, the inspection support apparatus 200 displays the drawing based on the image data D507 and the attribute based on the map information data D302. Similarly, the control unit 110 of the data generation device 100 has a GIS display function, and the data generation device 100 displays a drawing based on the image data D507 and an attribute based on the map information data D302. To do. As described above, the attributes such as the icon and the grid are associated with the coordinates on the drawing. Therefore, when an attribute such as an icon or a grid is displayed on the display units 150 and 240, the attribute is displayed in an overlapping manner on the drawing corresponding to the coordinates associated with the attribute.

A-2. Inspection support processing:
Next, an operation example of the inspection support process in the inspection system 10 of the present embodiment will be described. The inspection support process includes a support preparation process for generating the inspection system data D100, and displays drawings and attributes of the structure on the display unit 240 of the plurality of inspection support devices 200 based on the generated inspection system data D100. A support execution process that supports the inspection of each inspector who uses each inspection support device 200, and an aggregate display that aggregates and displays the inspection results inspected using each inspection support device 200 on the display unit 150 of the data generation device 100. It includes a process and a form creation process for creating an inspection form after the inspection.

(1) Support Preparation Process The support preparation process is executed by the data generation device 100 (FIG. 1). When the control unit 110 of the data generation device 100 receives a generation instruction of the inspection system data D100 from the user in response to an operation via the operation unit 140, the control unit 110 becomes an inspection target from the drawing data storage server 300 via the communication unit 130. The inspection type-specific data D202 is generated by acquiring the drawing data D301 of the structure and generating the map information data D302 using the drawing data D301.

  Specifically, the control unit 110 of the data generation device 100 generates the map information data D302 according to the content input by the user in response to the operation via the operation unit 140. In a structure, inspection positions that require inspection are preset on the constituent members that make up the structure, and the inspection contents at each inspection position are preset. The user reads the coordinates of the inspection position on the drawing displayed on the display unit 150 based on the drawing data D301, specifically, the coordinates of the component included in the drawing, and sends the data indicating the coordinates of the inspection position to the data generation device 100. input. The control unit 110 generates the position data D401 of the inspection position from the data input by the user. In addition, the user inputs data indicating the inspection content of each set inspection position to the data generation device 100. The control unit 110 generates the attribute data D402 of the set inspection position from the data input by the user. Specifically, the control unit 110 generates icon data D502 from data that specifies a specific type of icon to be displayed at the inspection position, generates inspection data D506 from data that specifies the inspection content, and becomes the inspection target. Cross-sectional view data D508 is generated from data indicating a cross-sectional view of the target constituent member that is a constituent member. When a plurality of types of data designating the inspection content are stored in the storage unit 120 in advance, the inspection data D506 is selected by selecting one data from the plurality of types of data stored in the storage unit 120. It may be generated.

  Regarding the grid, the user reads the coordinates of the grid on the drawing and inputs data indicating the coordinates of the grid to the data generation device 100. The control unit 110 of the data generation device 100 generates grid position data D401 from the data input by the user. The user sets the width and the display color of the grid and inputs data indicating the width and the display color of the grid to the data generation device 100. The control unit 110 generates the grid data D503 from the data input by the user.

  Regarding the grid identifier, the control unit 110 of the data generation device 100 generates the position data D401 of the grid identifier in association with the coordinates of the grid. Specifically, the control unit 110 generates one position data D401 selected from the position data D401 of the core as the position data D401 of the core identifier. The user sets the shape and display color of the grid identifier and inputs data indicating the shape and display color of the grid identifier to the data generation device 100. The control unit 110 generates the grid identification data D504 from the data input by the user.

  The control unit 210 of the inspection support apparatus 200 generates correspondence data D403 that associates the generated position data D401 with the attribute data D402, and includes map information data including the position data D401, the attribute data D402, and the correspondence data D403. Generate D302. After generating the map information data D302, the control unit 110 of the data generating apparatus 100 generates inspection type-specific data including the drawing data D301 acquired from the drawing data storage server 300 and the generated map information data D302. The control unit 110 generates inspection type-specific data D202 for each site (that is, a structure), each floor of the structure, and for each inspection type performed at each site, and generates individual site data D102. The control unit 110 transmits the individual site data D102 generated via the communication unit 130 to the inspection system data storage server 400 for storage.

(2) Support Implementation Process The support implementation process is performed by the inspection support apparatus 200 (FIG. 1). Hereinafter, as an example of the support implementation processing, an operation example in the case of performing a reinforcement inspection of beams and columns of a reinforced concrete building will be described. When the control unit 210 of the inspection support device 200 receives an instruction to start the inspection from the inspector according to the operation via the display unit 240, the control unit 210 starts the support execution process. The control unit 210 accepts the site information for identifying the site and the inspector information for identifying the inspector along with the instruction to start the inspection. The control unit 210 reads the individual site data D102 of the structure to be inspected from the inspection system data storage server 400 via the communication unit 230 based on the received site information, and stores it in the storage unit 220. That is, the control unit 210 acquires the individual site data D102 including the drawing data D301 and the map information data D302 from the inspection system data storage server 400 via the communication unit 230. The storage unit 220 stores system data D101 in advance. The control unit 210 acquires the inspection system data D100 from the system data D101 stored in advance and the acquired individual site data D102.

  When starting the support execution process, the control unit 210 of the inspection support apparatus 200, based on the inspection type information for specifying the type of inspection and the floor information for specifying the floor of the structure, is input from the individual site data. One inspection type data D202 is selected from the plurality of inspection type data D202 included in D102. The control unit 210 causes the display unit 240 to display the drawing 30 (see FIG. 3) of the structure based on the drawing data D301 included in the selected inspection type-specific data D202.

  FIG. 3 is an explanatory diagram showing an example of the drawing display screen HF displaying the drawing 30. FIG. 3 shows a state in which the entire drawing 30 is displayed on the display unit 240 of the inspection support apparatus 200. The drawing display screen HF includes a header area HU and a drawing display area HZ. The header area HU includes an inspector code (for example, 123456) based on inspector information, an inspection identifier (for example, bar arrangement inspection beam, pillar) based on inspection type information, and a floor identifier (for example, 07F) based on floor information. And are areas for displaying. The drawing display area HZ is an area for displaying the drawing 30.

  The control unit 210 of the inspection support apparatus 200 can change the display magnification and the display position of the drawing 30 displayed in the drawing display area HZ. Specifically, the control unit 210 can display the drawing 30 by enlarging / reducing the drawing 30 at an arbitrary magnification according to an operation via the display unit 240, or by scrolling the drawing 30. . For example, when the control unit 210 receives an enlargement instruction of the drawing 30 from the inspector, the control unit 210 enlarges and displays a part of the drawing 30 on the display unit 240.

  FIG. 4 is an explanatory diagram showing an example of the drawing display screen HF displaying the enlarged drawing 30. In the present embodiment, in the inspection support apparatus 200, in a state other than the state in which the entire drawing 30 is displayed on the drawing display screen HF, as shown in FIG. The drawing 30 is displayed on the screen and the attribute is displayed based on the map information data D302 by the GIS display function. Specifically, the control unit 210 displays the grid AS (AS1 to AS3) based on the grid data D503, displays the grid identifier AM (AM1 to AM3) based on the grid identification data D504, The beam icons AG (AG1 to AG5) and the pillar icons AC (AC1 and AC2) are displayed based on the icon data D502.

  The control unit 210 of the inspection support apparatus 200 displays the grid AS on the position corresponding to the coordinates on the drawing 30 associated with the grid AS based on the grid data D503. Therefore, the control unit 210 updates the display state of the grid AS in accordance with the change of the display magnification of the drawing 30. Specifically, when the drawing 30 is enlarged or reduced, the control unit 210 follows the enlargement or reduction and updates the position where the grid AS is displayed. The grid identifier AM is associated with the position corresponding to the coordinates of the corresponding grid AS. Therefore, the control unit 210 updates the display state of the grid identifier AM according to the change of the display magnification of the drawing 30. In the present embodiment, the grid identifier AM is displayed around one of the positions where the corresponding grid AS intersects the outer peripheral portion of the display unit 240.

  The beam icon AG and the pillar icon AC are displayed at the inspection position corresponding to the coordinates on the drawing 30 associated with each icon. Specifically, the drawing 30 includes drawings of constituent members such as the beam SG2 and the pillar C1 that form the structure, and the beam icon AG and the pillar icon AC are arranged on the constituent members corresponding to the respective icons. Is displayed. In the present embodiment, the specifications of both ends of the beam SG2 are different, and the beam SG2 is set with two inspection positions KL1 and KL2 corresponding to each end. Therefore, on the beam SG2, the beam icon AG2 is displayed at the inspection position KL1 and the beam icon AG3 is displayed at the inspection position KL2. Although two inspection positions KL1 and KL2 are set on the beam SG2 in FIG. 4, three or more inspection positions may be set on one component member.

  The beam icon AG and the column icon AC include displays such as “column” and “beam” indicating the type of the target structural member, and the display color changes depending on the inspection result of the corresponding inspection position. For example, when the inspection result of the corresponding inspection position is “unconfirmed”, the display color is yellow, and when the inspection result of the corresponding inspection position is “pass”, the display color is blue and the corresponding inspection position is If the inspection result of “No” is “fail”, the display color is red, and if the inspection result of the corresponding inspection position is “confirm”, the display color is green. In addition, in FIG. 4, the inspection results of all the inspection positions are “unconfirmed”, and all the beam icons AG and the pillar icons AC are displayed in yellow.

  In addition, the display unit 240 displays the current position mark AZ on the drawing 30. The control unit 210 of the inspection support apparatus 200 acquires information specifying the orientation of the imaging unit 250 and information specifying the current position of the inspection support apparatus 200 from the geomagnetic sensor 260 and the GPS reception unit 270, and these pieces of information are acquired. Is converted into information indicating the orientation and position on the drawing 30. The display unit 240 displays the current position mark AZ based on the information indicating the converted orientation and position. The inspector can use the current position mark AZ as a reference when determining a desired inspection position from a plurality of inspection positions on the drawing 30.

  The control unit 210 of the inspection support apparatus 200 has accepted the tap (selection operation) to the beam icon AG2 displayed at the inspection position KL1 (hereinafter, referred to as “selected inspection position KL1”) via the display unit 240. Accordingly, the display 240 displays the inspection screen HS at the selected inspection position KL1. FIG. 5 is an explanatory diagram showing an example of the inspection screen HS at the selected inspection position KL1. FIG. 5 shows an inspection screen HS before the inspection is performed. The inspection screen HS is displayed based on the inspection data D506 corresponding to the selected inspection position KL1. The inspection screen HS includes a member display area HB, an inspection result display area HK, an inspection item display area HC, an image acquisition area HP, and a function display area HD in addition to the header area HU described above. The member display region HB includes an identifier (for example, a beam) that indicates the type of the target structural member, a code (for example, SG2) that indicates the type of the target structural member, and an identifier that indicates the inspection position based on the grid AS (for example, SG2). , X through: 1-1 Y through: A-B A street side).

  The inspection result display area HK is an area for displaying the inspection result, and specifically, the icon display column HK1 for displaying the same icon as the beam icon AG2 displayed at the selected inspection position KL1 in the drawing 30, and the inspection result. And an inspection result input field HK2 for inputting. The inspection result is an example of another type of attribute. The inspection result input field HK2 is associated with a screen showing a multi-window (not shown) in which "unconfirmed", "passed", "failed", and "confirmed" are described. When inputting the inspection result in the inspection result input field HK2, the inspector can input the inspection result by tapping the inspection result input field HK2 and selecting the inspection result from the displayed multi-window.

  The inspection item display area HC is an area for displaying inspection items as an example of inspection contents, and specifically, an item display column HC1 for displaying inspection items according to the inspection type and whether each inspection item has been inspected. An area for displaying an inspection confirmation field HC2 indicating whether or not, an inspection content description field HC3 capable of describing the inspection content, and a scroll bar HC4 for displaying an inspection item not displayed on the display unit 240. . That is, the inspection screen HS is an area for displaying a plurality of types of attributes such as the inspection result and the inspection content. The inspection confirmation column HC2 includes an “unknown” display area indicating that the corresponding inspection item has not been inspected and a “probability” display area indicating that the corresponding inspection item has been inspected (see FIG. 7). Including, for each inspection item, either one of the “unknown” display area and the “confirmed” display area is displayed. The inspector can switch the display area of the display state by swiping the inspection confirmation field HC2 on the display unit 240.

  The image acquisition area HP is an area for acquiring an image as an inspection result, and specifically, is an area for displaying the image display field HP1 and the camera icon HP2. The image display field HP1 is a field for displaying a thumbnail image of the image data D507 corresponding to the selected inspection position KL1, and a plurality of thumbnail images can be displayed simultaneously. The camera icon HP2 is an icon for instructing acquisition of the image data D507. Specifically, the camera icon HP2 is associated with a screen showing a multi-window (not shown) in which the contents of “shoot with the shooting unit 250” and the contents of “select from the storage unit 220” are described. . The control unit 210 of the inspection support apparatus 200 activates the image capturing unit 250 when the inspector selects “capture with the image capturing unit 250”, and image data of the subject captured by the inspector using the image capturing unit 250. Is added to the map information data D302 in association with the coordinates corresponding to the subject. Specifically, the control unit 210 stores the image data of the subject in the storage unit 220 as the image data D507 of the map information data D302 corresponding to the subject. Further, when the inspector selects the content of “select from storage unit 220”, the control unit 210 sets the image data stored in the storage unit 220 separately from the inspection system data D100 to the selected inspection position KL1. It is added to the corresponding map information data D302.

  The function display area HD is an area for displaying a save icon HD1, a position diagram display icon HD2, a construction material display icon HD3, and a return icon HD4. The save icon HD1 is an icon for instructing to save the contents input in the inspection result display area HK and the inspection item display area HC. The position map display icon HD2 is an icon for instructing to switch the display of the display unit 240 from the inspection screen HS to the drawing display screen HF. The construction material display icon HD3 is an icon for instructing the display unit 240 to display construction material such as a sectional view DA which is an example of the inspection content. The return icon HD4 is an icon for instructing to return the content input in the inspection result display area HK or the inspection item display area HC to the content before input.

  FIG. 6 is an explanatory diagram showing an example of a sectional view DA at the selective inspection position KL1 of the beam SG2. FIG. 7 shows an example of a cross-sectional view DA at the inspection position KL2 of the beam SG2 for comparison. In this embodiment, since the specifications of both ends of the beam SG2 are different, the sectional view DA at the selected inspection position KL1 and the sectional view DA at the inspection position KL2 are different from each other. That is, in the two inspection positions KL1 and KL2 set in one beam SG2, the sectional view data D508 of the attribute data D402 associated with the selected inspection position KL1 and the sectional view of the attribute data D402 associated with the inspection position KL2. The data D508 is different from each other.

  FIG. 8 shows the inspection screen HS after the first inspection is performed. In the first inspection, the inspection is performed on all the inspection items displayed in the inspection item display area HC. As a result, in the inspection confirmation column HC2, the "confirmed" display area is displayed for all the inspection items, and the inspection content is described in the inspection content description column HC3 as necessary. In the present embodiment, it is assumed that in the first inspection, deficiency is detected in the “joint” inspection item. Therefore, “failure” is input to the inspection result input field HK2 of the inspection result display area HK in response to the operation via the display unit 240, and accordingly, the display color of the icon in the icon display field HK1 is red. Changes to. Specifically, the control unit 210 of the inspection support apparatus 200 updates the icon data D502 of the attribute data D402 associated with the selected inspection position KL1 and switches the display color of the icon displayed at the selected inspection position KL1.

  In addition, in the first inspection, the inspection result image PH1 (see FIG. 9), which is an image of the defective “joint”, is captured using the image capturing unit 250. The control unit 210 of the inspection support apparatus 200 stores the image data of the inspection result image PH1 in the storage unit 220 as the image data D507 of the map information data D302 corresponding to the selected inspection position KL1. The control unit 210 causes the display unit 240 to display the thumbnail image HP3 of the inspection result image PH1 based on the image data D507 of the inspection result image PH1. As a result, the thumbnail image HP3 of the inspection result image PH1 is displayed in the image display field HP1 of the image acquisition area HP. That is, the thumbnail image HP3 is displayed on the display unit 240 together with the inspection content and the inspection result at the selected inspection position KL1. The control unit 210 displays the inspection result image PH1 corresponding to the thumbnail image HP3 on the display unit 240 in response to accepting a tap on the thumbnail image HP3 displayed in the image display field HP1 via the display unit 240. .

  FIG. 9 shows a display screen of the inspection result image PH1. In addition to the inspection result image PH1, the display screen includes an addition icon AT1 for instructing addition of an instruction image such as characters and symbols to the inspection result image PH1, and a delete icon AT2 for instructing deletion of the inspection result image PH1. Be done. The instruction image is an example of the second additional image. When the control unit 210 of the examination support apparatus 200 receives a tap on the additional icon AT1 via the display unit 240, the control unit 210 adds the instruction image based on the operation performed by the inspector on the display unit 240. Specifically, when the inspector writes the arrow image TK1 on the inspection result image PH1, the control unit 210 adds the instruction image indicating the arrow image TK1. When the inspector inputs the character image TK2 on the inspection result image PH1, the control unit 210 adds an instruction image indicating the character image TK2. After finishing adding the instruction image, the control unit 210 overwrites and saves the inspection result image PH1 to which the instruction image is added (see FIG. 10). Therefore, when the inspection result image PH1 is displayed on the display unit 240 after the next time, the inspection result image PH1 after the instruction image is added is displayed.

  After the completion of the first inspection, the corrective work is performed by the corrector who performs the corrective work on the structure based on the result of the first inspection. From the content displayed in the inspection item display area HC of the inspection screen HS at the selected inspection position KL1, the correction company can understand that the correction target is the “joint”. Further, the rectification company can understand the detailed contents of the rectification from the arrow image TK1 and the character image TK2 (FIG. 9) added to the thumbnail image HP3 of the image acquisition area HP. After the corrective work by the corrector, the inspector again inspects the selected inspection position KL1 of the structure.

  FIG. 10 shows the inspection screen HS after the second inspection is performed. In the second inspection, the inspection is performed on the “joint” inspection item in which the deficiency is detected in the first inspection result. In the inspection content description column HC3 for the inspection item “joint” in the inspection item display area HC, the content indicating that reconfirmation has been performed is described. In the second inspection, the image capturing unit 250 is used to capture a correction image PH2 (see FIG. 13) that is an image of the “joint” after the correction work. The inspector can photograph the correction image PH2 in a manner similar to the inspection result image PH1 by referring to the thumbnail image HP3 of the inspection result image PH1. The control unit 210 of the inspection support apparatus 200 stores the image data of the corrected image PH2 in the storage unit 220 as the image data D507 of the map information data D302. That is, the control unit 210 associates one coordinate on the drawing 30 corresponding to one selected inspection position KL1 with both images of the inspection result image PH1 and the correction image PH2 as attributes and stores them in the storage unit 220. .

  The control unit 210 of the inspection support apparatus 200 causes the display unit 240 to display the thumbnail image HP3 of the inspection result image PH1 based on the image data of the inspection result image PH1 and the display unit based on the image data of the correction image PH2. A thumbnail image HP4 of the corrected image PH2 is displayed on 240. The display unit 240 simultaneously displays the thumbnail image HP3 of the inspection result image PH1 and the thumbnail image HP4 of the correction image PH2 in the image display field HP1 of the image acquisition area HP. In the present embodiment, it is assumed that in the second inspection, the deficiency in the inspection item “joint” has been resolved. Therefore, the input of the inspection result input field HK2 in the inspection result display area HK is updated from “fail” to “pass” according to the operation via the display unit 240, and accordingly, the icon in the icon display field HK1 is updated. The display color of is updated to blue. Therefore, as shown in FIG. 11, when the display of the display section 240 is switched from the inspection screen HS to the drawing display screen HF, the display color of the beam icon AG2 at the selected inspection position KL1 changes to blue. Note that, as shown in the thumbnail image HP4 in FIG. 10, an instruction image indicating that the deficiency is resolved may be added to the correction image PH2.

(3) Total Display Process The total display process is executed by the data generation device 100 (FIG. 1). Hereinafter, as an example of the aggregate display processing, an operation example in the case where the inspection result at the selected inspection position KL1 is updated from “fail” to “pass” will be described. The control unit 110 of the data generating apparatus 100 responds to an operation via the display unit 240 of the inspection support apparatus 200 by selecting the inspection result input field HK2 of the inspection screen HS of the selected inspection position KL1 displayed on the display unit 240. When the input is updated from “fail” to “pass”, that is, when the display unit 240 receives an operation for designating the inspection result of “pass”, the inspection support apparatus 200 transmits “pass” via the communication unit 130. Receive the inspection result of. Specifically, the control unit 210 of the inspection support apparatus 200 receives the inspection result of “pass” according to the operation via the display unit 240, and then receives the inspection system data according to the operation via the display unit 240. Upon receiving the synchronization instruction with the storage server 400, the attribute data D402 associated with the selected inspection position KL1 that received the inspection result is transmitted to the inspection system data storage server 400 in synchronization with the inspection system data storage server 400. Have it stored. The control unit 110 reads out the attribute data D402 from the inspection system data storage server 400 at regular intervals, and receives the inspection result of “pass” at the selected inspection position KL1.

  When the control unit 110 of the data generation device 100 receives the inspection result of “pass” of the selected inspection position KL1 from the inspection support device 200, that is, when the attribute data D402 is read from the inspection system data storage server 400, the attribute data D402. To update. As a result, the inspection result included in the inspection data D506 of the attribute data D402 corresponding to the selected inspection position KL1 is updated from “fail” to “pass”. Further, the icon data D502 of the attribute data D402 corresponding to the selected inspection position KL1 is updated to the data indicating the icon of the display color corresponding to the examination result of “pass”. As a result, the display color of the icon on the drawing 30 displayed on the display unit 150 is switched from red to blue.

  FIG. 12 is an explanatory diagram showing an example of the drawing display screen HF displaying the drawing 30 displayed on the display unit 150. As described above, the control unit 110 of the data generation device 100 has the GIS display function, and the control unit 110 causes the display unit 150 to display the drawing 30 and, for example, the beam based on the map information data D302. Attributes such as icon AG and pillar icon AC are displayed. In FIG. 12, the data generation device 100 displays the beam icon AG and the pillar icon AC in the state where the entire drawing 30 is displayed on the drawing display screen HF. In the drawing 30 displayed on the display unit 150, the display color of the icon displayed at the selected inspection position KL1 is switched from red to blue by updating the icon data D502 corresponding to the selected inspection position KL1.

  The control unit 110 of the data generation apparatus 100 collectively receives the inspection results received by each inspection support apparatus 200 via the inspection system data storage server 400 at regular intervals, and executes the above processing. Therefore, the display unit 150 displays the inspection results aggregated from the plurality of inspection support devices 200 as the display color of the icon. Further, the control unit 110 updates the individual site data D102 so as to reflect the update of the attribute data D402 associated with each inspection position, and stores the updated individual site data D102 in the inspection system data storage server 400. . The updated individual site data D102 is read by the inspection support apparatus 200 in synchronization with the inspection support apparatus 200 and the inspection system data storage server 400, and the inspection system data D100 in the inspection support apparatus 200 is updated.

(4) Form Creation Process The form creation process is performed by the data generation device 100 (FIG. 1). When the control unit 110 of the data generating apparatus 100 receives an instruction to create inspection form data representing the inspection form CH (see FIG. 13) from the inspector or the administrator according to the operation via the operation unit 140, the control unit 110 executes the form creation process. carry out. The control unit 110 creates inspection form data based on the attribute data D402 received from the inspection support apparatus 200 via the inspection system data storage server 400. FIG. 13 is an explanatory diagram showing an example of the inspection form CH. The inspection form CH includes a result display column CY, a drawing display column CG, and a selected inspection position display column CI.

  The result display column CY is a column for displaying each item related to the inspection, and has various attributes indicated by the attribute data D402, for example, an inspection identifier (for example, bar arrangement inspection) based on inspection type information and an inspection result (for example, pass). It is a column for displaying the like. The drawing display column CG is a column for displaying an image based on the image data D507, and specifically, a column for displaying the inspection result image PH1 and the correction image PH2.

  The selected inspection position display field CI is a field for displaying the display image PH3 of the drawing 30. The control unit 210 of the inspection support apparatus 200 can acquire the display image PH3 of the drawing 30 displayed on the display unit 240 according to the operation via the display unit 240. When the control unit 210 obtains the display image PH3 in the range including the selected inspection position KL1 by the operation of the inspector, the region TR corresponding to the selected inspection position KL1 on the display image PH3, that is, the region TR in which the beam icon AG2 is displayed. An identification image TK3 for identifying the selected inspection position KL1 is added to. The identification image is an example of the first additional image. When ending the addition of the identification image TK3, the control unit 210 overwrites the display image PH3 to which the identification image TK3 is added and saves the image data. The control unit 110 of the data generation device 100 uses the image data of the display image PH3 included in the attribute data D402 received from the inspection support device 200 to paste the display image PH3 into the selected inspection position display field CI of the inspection form CH. .

  As described above, in the inspection support apparatus 200 according to the present embodiment, the display unit 240 displays the drawing 30 of the structure based on the drawing data D301 and the attributes based on the map information data D302. When displaying the attributes, the display unit 240 displays an icon at the inspection position on the drawing 30, and displays a plurality of types of attributes including inspection content and inspection content in response to a tap on the icon being accepted. . Since the icon is displayed at the inspection position on the drawing 30, the inspection position can be easily grasped by the icon.

  In addition, since a plurality of types of attributes other than icons are not displayed at the inspection position on the drawing 30, it is possible to prevent the display of the presence of attributes from being cluttered. For example, in the drawing 30 shown in FIGS. 4 and 12, when a plurality of types of attributes other than the icon are displayed at the inspection position on the drawing 30, the icon is covered by the display of the plurality of types of attributes other than the icon. It may not be possible to know the inspection position. Further, when a plurality of types of attributes other than the icon are drawn out from each inspection position by a leader line and displayed, a plurality of leader lines drawn out from each inspection position are displayed so as to intersect each other, or the leader line In order to avoid crossing, a plurality of types of attributes other than icons are displayed at positions apart from the inspection position, and the correspondence between the inspection position and the attributes becomes unclear. As described above, when a plurality of types of attributes other than the icons are displayed at the inspection position on the drawing 30, the display of the existence of the attributes becomes messy. In the inspection support apparatus 200 of the present embodiment, since a plurality of types of attributes other than icons are not displayed at the inspection position on the drawing 30, it is possible to prevent the display of the presence of attributes from being cluttered.

  Furthermore, since multiple types of attributes other than icons are displayed by tapping the icon, multiple types of attributes at the desired inspection position can be displayed by tapping the icon, and multiple types of attributes can be displayed via the icon. The correspondence between the attribute and the inspection position can be made clear.

  The inspection position is set on a component member that constitutes the structure. For a component member such as the beam SG2 having different specifications for each part, a plurality of inspection positions KL1, KL2 are set for each part. . Then, in the plurality of inspection positions KL1 and KL2 set in one component, the inspection contents at the inspection position KL1 and the inspection position KL2 such that the sectional view at the inspection position KL1 is different from the sectional view at the inspection position KL2. The inspection content cross-sectional view in FIG. Therefore, it is possible to associate different inspection contents for each part with a component having different specifications for each part based on the difference in the specifications.

  Further, in the inspection support apparatus 200 of the present embodiment, the type of the beam icon AG2 displayed at the selected inspection position KL1, and more specifically, the beam icon AG2 is displayed according to the inspection result input by the inspector at the selected inspection position KL1. Switch colors. Therefore, the inspector does not display the inspection result at the selected inspection position KL1 where the beam icon AG2 is displayed by tapping the beam icon AG2 with the display color of the icon displayed on the display unit 240, and the selected inspection position KL1 is displayed. It is possible to confirm the inspection result in step 1, and it is possible to improve convenience.

  Further, in the data generating apparatus 100 of the present embodiment, the control unit 110 of the data generating apparatus 100 creates the inspection form data representing the inspection form CH in accordance with the operation via the operation unit 140, so that the user himself / herself can inspect the inspection form. It is not necessary to create information, and convenience can be improved.

  Since the inspection form CH includes the inspection result of the selected inspection position KL1, the inspection result of the selected inspection position KL1 can be confirmed by the inspection form CH. Further, since the inspection form CH includes the image of the subject located at the selected inspection position KL1, the state of the subject at the selected inspection position KL1 can be visually confirmed by the inspection form CH.

  Further, the inspection form CH is a display image PH3 acquired by the display unit 240 of the inspection support apparatus 200 and received by the control unit 110 of the data generation apparatus 100, in which the selected inspection position KL1 is displayed. Since the display image PH3 of 30 is included, the selected inspection position KL1 on the drawing 30 can be confirmed by the inspection form CH. Particularly, in the display image PH3, the identification image TK3 for identifying the selected inspection position KL1 is added to the region TR corresponding to the selected inspection position KL1 on the display image PH3, that is, the region TR in which the beam icon AG2 is displayed. Therefore, compared to the case where the identification image TK3 is not added, the selected inspection position KL1 on the drawing 30 can be easily confirmed.

  Further, in the inspection support apparatus 200 of the present embodiment, the image captured by the image capturing unit 250 or the like is associated with the coordinates on the drawing 30, so that the image can be held in association with each inspection position on the drawing 30. it can. Particularly, in the inspection support device 200 of the present embodiment, a plurality of images can be associated with one coordinate on the drawing 30, so that, for example, the inspection result before correction work can be associated with each inspection position on the drawing 30. The image PH1 and the corrected image PH2 after the correction work can be held, or the same subject can be photographed a plurality of times from different angles, which improves convenience.

  Further, in the inspection support device 200 of the present embodiment, the thumbnail image is included in the attribute, and is displayed on the inspection screen HS together with the inspection content and the inspection result which are other attributes. Therefore, the inspector can confirm what kind of image is captured by the thumbnail image displayed on the display unit 240, and the relationship between the inspection content and the inspection result and the captured image, for example, It is possible to confirm whether the inspection result and the captured image correspond to each other. In addition, the inspector can check the image corresponding to the selected thumbnail image in detail by tapping the thumbnail image displayed on the display unit 240.

  Further, in the inspection support apparatus 200 of the present embodiment, the instruction image can be added to the image displayed on the display unit 240, and therefore, for example, by adding the instruction image around the defective portion included in the inspection result image PH1. By setting it, it is possible to easily convey the content of the deficiency to another person such as a corrector by using the drawing, as compared with the case where the instruction image is not added.

  Further, in the present embodiment, the control unit 110 of the data generation device 100 updates the attribute data D402 in response to the communication unit 130 receiving the inspection result from the inspection support device 200. In updating the attribute data D402, the control unit 110 of the data generating device 100 updates, for example, the icon data D502, and the type of the beam icon AG2 displayed at the inspection position associated with the inspection result of the display unit 150, specifically, The display color of the beam icon AG2 is switched. Thereby, the administrator who uses the data generating apparatus 100 can grasp the progress of the examination and the examination result by the display color of the icon displayed on the display unit 150, and the convenience can be improved.

  Further, in the present embodiment, the control unit 110 of the data generation device 100 receives the inspection result from each of the plurality of inspection support devices 200 and updates the attribute data D402. Therefore, the administrator who uses the data generating apparatus 100 can collectively grasp the progress status and the inspection result of the inspections performed by a plurality of inspectors at the same time using the plurality of inspection support devices 200, which is convenient. Can be improved.

B. Modification:
The technique disclosed in this specification is not limited to the above-described embodiment, and can be modified into various forms without departing from the gist thereof, for example, the following modifications are also possible.

  In the above embodiment, the example in which only the two-dimensional drawing is used as the drawing of the structure is shown, but the two-dimensional drawing and the three-dimensional drawing may be used. That is, the three-dimensional drawing and the two-dimensional drawing of the structure are switchably displayed on the display unit 240 of the inspection support apparatus 200, and the user can display the structure on the display unit 240 of the inspection support apparatus 200 as needed. You may display a two-dimensional drawing and may perform the said inspection support process.

  In the above-described embodiment, the inspection system 10 includes the data generation device 100, the inspection support device 200, the drawing data storage server 300, and the inspection system data storage server 400. The storage server 300 and the inspection system data storage server 400 may be configured by one server. Further, when the image data D507 is acquired by the data generation device 100 and stored in the storage unit 120, for example, the image data D507 is generated by the data generation device 100, the drawing data storage server 300 is not always necessary. When the inspection system data D100 is directly transmitted from the data generation apparatus 100 to the inspection support apparatus 200 and the attribute data D402 is directly transmitted from the inspection support apparatus 200 to the data generation apparatus 100, the inspection system data The storage server 400 is not always necessary.

  In the above-mentioned embodiment, the attribute of each position of the structure has been described by using icons, inspection contents, etc., but the attribute is not limited to the above example. Specifically, the attributes include icons, inspection contents, and at least one other type of attribute, but the number and types of at least one other type of attribute are not limited to the above example. Here, the inspection content includes the content described in the inspection content description column HC3 of the inspection item display area HC of the inspection screen HS, and the sectional view DA displayed by the construction material display icon HD3 of the function display area HD. Including construction materials. In addition, the drawings do not necessarily have to be associated with a plurality of drawings at each inspection position of the structure, and one drawing may be associated with the drawings or the drawings may not be associated with each other. Note that the grid and grid identifier are included in the attributes, but are not included in a plurality of types of attributes because they are associated with coordinates different from the coordinates corresponding to the inspection position.

  In the above embodiment, the example in which the display unit 240 of the inspection support device 200 also serves as the operation reception unit is shown, but the inspection support device 200 may include an operation reception unit in addition to the display unit 240.

  In the above embodiment, the beam icon AG2 displayed at the selected inspection position KL1 is switched between icons having the same shape and different display colors according to the inspection result at the selected inspection position KL1 input by the inspector. , But not limited to this. For example, the icons having the same display color and different shapes may be switched, or the icons having different shapes and display colors may be switched.

  In the above embodiment, the example in which the inspection form CH of the selected inspection position KL1 is created by the data generation device 100 has been shown, but the present invention is not limited to this and may be performed by the inspection support device 200. Further, as the contents described in the inspection form CH of the selected inspection position KL1, the inspection result and the image of the subject located in the selected inspection position KL1 have been described, but the contents described in the inspection form CH are the above examples. Not limited. Although the contents described in the inspection form CH include the inspection result, the contents other than the inspection result in the above example may not be included. For example, the image of the subject located at the selected inspection position KL1 is not necessarily described in the inspection form CH, and the display image PH3 of the drawing 30 in the state where the selected inspection position KL1 is displayed on the display unit 240 is also It does not necessarily have to be described in the inspection form CH.

  In the above embodiment, an example in which the thumbnail image is displayed together with the inspection content and the inspection result when the thumbnail image is displayed on the display unit 240 has been shown, but the present invention is not limited to this, and the thumbnail image may be displayed together with the drawing 30. You may Further, the thumbnail image may be displayed together with the inspection content and the inspection result, and may be displayed together with the drawing 30.

  In the above embodiment, the example in which the inspection result image PH1 to which the instruction image is added is overwritten and saved is shown. That is, an example is shown in which the added instruction image is stored integrally with the inspection result image PH1. However, the present invention is not limited to this, and the added instruction image may be stored separately from the inspection result image PH1. Similarly, in the above embodiment, the example in which the display image PH3 to which the identification image TK3 is added is overwritten and saved is shown. That is, the example in which the added identification image TK3 is stored together with the display image PH3 is shown. However, the present invention is not limited to this, and the added identification image TK3 may be stored separately from the display image PH3.

  In the above embodiment, an example in which the current position mark AZ is displayed on the display unit 240 of the inspection support apparatus 200 has been shown, but the current position mark AZ does not necessarily have to be displayed. Further, in the above embodiment, an example in which the geomagnetic sensor 260 and the GPS receiving unit 270 are used to display the current position mark AZ has been shown, but the present invention is not limited to this, and the current position mark AZ is displayed by another method. May be.

  In the above-described embodiment, the example in which the control unit 110 of the data generation device 100 receives the examination result via the examination system data storage server 400 when the examination result is received from the examination support device 200 has been described. Not limited to For example, the control unit 110 may directly receive the examination result from the inspection support device 200.

  In the above embodiment, the example in which the attributes such as the drawing 30 and the icon are displayed on the display unit 150 of the data generating apparatus 100 has been shown, but the attributes such as the drawing 30 and the icon need not necessarily be displayed on the display unit 150. Absent.

10: inspection system 30: two-dimensional drawing 100: data generation device 110: control unit 120: storage unit 130: communication unit 140: operation unit 150: display unit 200: inspection support device 210: control unit 220: storage unit 230: communication Part 240: Display part 250: Imaging part 300: Drawing data storage server 400: Inspection system data storage server AC: Pillar icon AG: Beam icon CH: Inspection form D100: Inspection system data D301: Drawing data D302: Map information data D401: Position data D402: Attribute data D403: Correspondence data D506: Inspection data HF: Drawing display screens HP3, HP4: Thumbnail image HS: Inspection screen KL1: Selected inspection position KL2: Inspection position PH1: Inspection result image PH2: Corrected image P 3: Display image

Claims (17)

An inspection support device for supporting inspection of a structure,
A drawing data acquisition unit for acquiring drawing data representing a two-dimensional drawing of the structure,
The coordinate information indicating the coordinates on the two-dimensional drawing corresponding to the inspection position of the structure, and the attributes at the inspection position, the attributes including a plurality of types of attributes including inspection content and icons and grids And a map information data acquisition unit that acquires map information data used for display by the GIS display function, the map information data being associated with each other.
An operation reception unit that receives operations,
It has a GIS display function, displays the two-dimensional drawing based on the drawing data, and displays the icon and the grid at the inspection position on the two-dimensional drawing based on the map information data. Then, in response to the operation accepting unit accepting the operation of selecting the icon, the plurality of types of attributes associated with the coordinates corresponding to the inspection position where the selected icon is displayed are displayed. An inspection support device comprising: a display unit. The inspection support apparatus according to claim 1, wherein
The inspection position is set on a component member that constitutes the structure,
An inspection support apparatus in which a plurality of inspection positions are set in at least one of the component members. The inspection support apparatus according to claim 2, wherein
Of the plurality of inspection positions set in at least one of the component members, the inspection content associated with the coordinates corresponding to the first inspection position and the coordinates corresponding to the second inspection position are displayed. An inspection support device that is different from the associated inspection content. The inspection support device according to any one of claims 1 to 3,
The attribute includes an inspection result and a plurality of types of the icon,
The map information data is data capable of associating a specific type of the icon with the coordinates corresponding to the inspection position on the two-dimensional drawing,
The display unit is displayed at the inspection position associated with the inspection result on the two-dimensional drawing in response to the operation accepting unit accepting the operation specifying the inspection result as the attribute. An inspection support device that switches the type of the icon. The inspection support apparatus according to claim 4,
The plurality of types of icons include a plurality of the icons having different display colors,
The display unit is displayed at the inspection position associated with the inspection result on the two-dimensional drawing in response to the operation accepting unit accepting the operation specifying the inspection result as the attribute. An inspection support device that switches the display color of the icon. The inspection support apparatus according to any one of claims 1 to 5,
The attributes include inspection results,
The inspection support device further includes
An inspection support apparatus, comprising: an inspection form creation unit that creates inspection form data representing an inspection form at the inspection position, including the inspection result as the attribute. The inspection support apparatus according to claim 6, further comprising:
An imaging unit that generates image data representing an image by shooting a subject is provided.
The inspection support device, wherein the inspection form includes the image as the attribute generated by the imaging unit capturing an image of the subject located at the inspection position. The inspection support apparatus according to claim 6 or 7, further comprising:
A display image acquisition unit for acquiring a display image of the two-dimensional drawing,
A first additional image adding unit for adding a first additional image to the display image,
The inspection form includes the display image including the inspection position of the two-dimensional drawing acquired by the display image acquisition unit, and the first additional image adding unit adds the first image to the area corresponding to the inspection position. An inspection support apparatus including the display image to which the additional image 1 is added. The inspection support apparatus according to any one of claims 1 to 8,
The attributes include an image,
The inspection support device, wherein the map information data is data capable of associating the plurality of images as the attributes with the coordinates corresponding to the inspection position on the two-dimensional drawing. The inspection support apparatus according to any one of claims 1 to 9,
The attribute information is information indicating a plurality of types of attributes including an image and a thumbnail image corresponding to the image,
The inspection support apparatus, wherein the display unit displays the thumbnail image as the attribute together with at least one of the two-dimensional drawing and the attribute of another type at the inspection position. The inspection support apparatus according to claim 10,
The inspection support apparatus, wherein the display unit displays the image corresponding to the thumbnail image in response to the operation accepting unit accepting the operation of selecting the thumbnail image displayed on the display unit. The inspection support device according to claim 10 or 11, further comprising:
A second additional image adding unit for adding a second additional image to the image displayed on the display unit;
The inspection support apparatus, wherein the display unit displays the image after the second additional image is added in response to the addition of the second additional image to the image. An inspection system that supports the inspection of structures,
A data generator,
An inspection support device,
The data generation device,
A drawing data acquisition unit for acquiring drawing data representing a two-dimensional drawing of the structure,
The coordinate information indicating the coordinates on the two-dimensional drawing corresponding to the inspection position of the structure, and the attributes at the inspection position, the attributes including a plurality of types of attributes including inspection content and icons and grids And a map information data generation unit that generates map information data used for display by the GIS display function, the map information data being associated with each other.
A main body communication unit that transmits the drawing data and the map information data to the inspection support device,
The inspection support device,
A terminal communication unit that receives the drawing data and the map information data transmitted from the data generating device,
An operation reception unit that receives operations,
It has a GIS display function, displays the two-dimensional drawing based on the drawing data, and displays the icon and the grid at the inspection position on the two-dimensional drawing based on the map information data. Then, in response to the operation accepting unit accepting the operation of selecting the icon, the plurality of types of attributes associated with the coordinates corresponding to the inspection position where the selected icon is displayed are displayed. An inspection system having a display unit. The inspection system according to claim 13, wherein
The attributes include inspection results,
The main body communication unit receives the specified inspection result from the inspection support device in response to the operation receiving unit having received the operation for specifying the inspection result,
The inspection system, wherein the map information data generation unit updates the attribute information in response to the main body communication unit receiving the inspection result from the inspection support device. The inspection system according to claim 14, wherein
The attribute includes a plurality of types of the icon,
The map information data is data capable of associating a specific type of the icon with the coordinates corresponding to the inspection position on the two-dimensional drawing,
The data generation device further includes
While displaying the two-dimensional drawing based on the drawing data, based on the map information data, the icon is displayed at the inspection position on the two-dimensional drawing, and the main body communication unit is operated from the inspection support device. An inspection system having a main body display unit that switches a type of the icon displayed at the inspection position associated with the inspection result on the two-dimensional drawing in response to receiving the inspection result. The inspection system according to claim 15, wherein
A plurality of inspection support devices,
The inspection system, wherein the main body communication unit receives the inspection result from each of the inspection support devices. The inspection system according to any one of claims 13 to 16,
The attributes include inspection results,
The data generation device further includes
An inspection system having an inspection form creation unit that creates inspection form data representing an inspection form at the inspection position that includes the inspection result as the attribute.

Images