JP6853618B2 - Drawing display device and drawing display system - Google Patents

Description

The techniques disclosed herein relate to drawing display devices.

Terminal devices used for construction inspection of structures such as buildings and civil engineering structures are known. Such a terminal device displays the inspection contents on the display unit based on the data acquired from the inspection server that creates the data related to the inspection. The inspector inspects the construction of each inspection position while referring to the inspection contents displayed on the display unit of the terminal device. In such a terminal device, there is known a terminal device capable of displaying a two-dimensional drawing of a structure (hereinafter, simply referred to as “drawing”) together with an inspection content on a display unit (see, for example, Patent Document 1).

Japanese Unexamined Patent Publication No. 2009-217694

In the conventional terminal device, the inspection content and the drawing of the structure are displayed on the display unit based on the data created by the inspection server. Specifically, the inspection server generates one data for displaying the inspection content and the drawing of the structure from the inspection data representing the inspection content and the drawing data representing the drawing of the structure, and the terminal device. Send to. The terminal device displays the inspection content and the drawing of the structure based on this one data. Therefore, for example, the contents displayed on the display unit in the terminal device, such as displaying only the inspection contents, displaying only the drawings of the structure, and displaying both the inspection contents and the drawings of the structure, are displayed. It cannot be switched, and there is room for improvement in terms of convenience. It should be noted that such a problem is not limited to the case where the inspection content and the drawing of the structure are displayed in the terminal device used for the construction inspection of the structure, but also in the drawing display device for displaying the drawing of the structure. This is also a common problem when displaying the attributes of each position of an object and the drawing of a structure.

This specification discloses a technique capable of solving at least a part of the above-mentioned problems.

The techniques disclosed herein can be realized, for example, in the following forms.

(1) The drawing display device disclosed in the present specification is a drawing display device for displaying a two-dimensional drawing of a structure, and includes a drawing data acquisition unit for acquiring drawing data representing the two-dimensional drawing and the structure. A map information data acquisition unit that acquires map information data in which coordinate information indicating coordinates on the two-dimensional drawing corresponding to each position of an object and attribute information indicating attributes of the respective positions are associated with each other, and the above. The two-dimensional drawing is displayed based on the drawing data, and at least one of the attributes is displayed at a position on the two-dimensional drawing corresponding to the coordinates associated with the attribute based on the map information data. It is provided with a display unit to be used. According to the drawing display device, the display unit displays a two-dimensional drawing of the structure based on the drawing data and displays attributes based on the map information data. Therefore, when it is desired to display only the attributes, only the attributes can be displayed based on the map information data. Further, when it is desired to display both the attribute and the two-dimensional drawing of the structure, both the attribute and the two-dimensional drawing of the structure can be displayed based on the map information data and the drawing data. This makes it possible to improve the convenience when displaying a two-dimensional drawing of an attribute or a structure on the display unit. Further, the attribute is associated with the coordinates on the two-dimensional drawing of the structure, and the attribute displayed on the display unit is displayed at the position corresponding to the coordinates associated with the attribute on the two-dimensional drawing. Therefore, it is possible to easily grasp which position on the two-dimensional drawing the attribute is associated with.

(2) The drawing display device further includes an operation reception unit that accepts operations, and the attribute information is information indicating a plurality of types of the attributes including an icon, and the display unit is on the two-dimensional drawing. Displaying the icon as the attribute and selecting the icon displayed by the operation receiving unit Others associated with the coordinates associated with the selected icon in response to receiving the operation. It may be configured to display the above-mentioned attributes of the type. According to the drawing display device, the user can confirm other types of attributes associated with the coordinates associated with the selected icon by performing an operation of selecting the icon displayed on the display unit. it can.

(3) In the drawing display device, each position of the structure includes an inspection position of the structure, and the attributes are the inspection content referred to at the time of inspection at the inspection position and the inspection result at the inspection position. It may be configured to include at least one of. According to the drawing display device, the user can confirm the inspection content and the inspection result at the selected inspection position by performing the operation of selecting the icon displayed at the inspection position.

(4) In the drawing display device, the attribute includes a grid of the structure and a grid identifier that is associated with the coordinates of the grid and identifies the grid, and the display unit is the display unit. The display magnification of the two-dimensional drawing can be changed, and the display state of the grid and the grid identifier may be updated in response to the change of the display magnification of the two-dimensional drawing. According to this drawing display device, even when the display magnification of the two-dimensional drawing of the structure is changed, the grid can be displayed according to the change of the display magnification of the two-dimensional drawing, and the display state is set. A grid can be identified using a grid identifier.

(5) In the drawing display device, the attribute includes an image, and the map information data is data capable of associating a plurality of the images as the attribute with one coordinate on the two-dimensional drawing. It may be configured to be. According to this drawing display device, for example, images before and after the correction work of the structure, a plurality of images of the same subject taken from different angles, and the like can be held at one coordinate on the two-dimensional drawing of the structure. , Convenience can be improved.

(6) In the drawing display device, the attribute includes an image, and the drawing display device further includes a photographing unit that generates image information representing an image by photographing a subject, and the image as the attribute information. The configuration may include a data update unit that associates the information with the coordinate information corresponding to the subject and adds the information to the map information data. According to the drawing display device, the user can confirm the image of the subject corresponding to the coordinate information associated with the image information by the image information added to the map information data.

(7) In the drawing display 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 is the two-dimensional drawing and the thumbnail image. The thumbnail image may be displayed together with at least one of the other types of attributes associated with the coordinates associated with. According to the drawing display device, the user can confirm the image associated with each coordinate on the two-dimensional drawing of the structure by the thumbnail image displayed on the display unit. In addition, since the thumbnail image is displayed on the display unit together with the two-dimensional drawing and other types of attributes associated with the coordinates associated with the thumbnail image, the thumbnail image can be displayed with the two-dimensional drawing and other types of attributes. It is possible to confirm whether or not the corresponding image corresponds to the corresponding image.

(8) The drawing display device further includes an operation receiving unit that accepts an operation, and the display unit accepts the operation that the operation receiving unit selects the thumbnail image displayed on the display unit. Depending on the situation, the image corresponding to the thumbnail image may be displayed. According to the drawing display device, the user can confirm the image corresponding to the thumbnail image in detail by performing an operation of selecting the thumbnail image displayed on the display unit.

(9) In the drawing display device, the attribute includes an image, and the drawing display device further includes an additional image addition unit for adding an additional image to the image displayed on the display unit. May be configured to display the image after the additional image is added in response to the addition of the additional image to the image. According to the drawing display device, by adding an additional image using the additional image addition unit, it is possible to easily convey a specific content included in the image to another person.

The technique disclosed in the present specification can be realized in various forms, for example, a drawing display system including a data generation device and a drawing display device, a drawing display method, those methods, an apparatus, or the like. It can be realized in the form of a computer program for realizing the function of the system, a non-temporary recording medium on which the computer program is recorded, or the like.

It is a block diagram which shows the structure of inspection system 10. It is explanatory drawing which shows the file structure of the inspection system data D100. It is explanatory drawing which shows an example of the drawing display screen HF which displays drawing 30. It is explanatory drawing which shows an example of the drawing display screen HF which displays the drawing 30 before the inspection is performed. It is explanatory drawing which shows an example of the inspection screen HS at the selective inspection position before the inspection is performed. It is explanatory drawing which shows an example of the cross-sectional view of each member which constitutes a structure. It is explanatory drawing which shows an example of the inspection screen HS at the selective inspection position after the first inspection is performed. 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 selective inspection position after the second inspection is performed. It is explanatory drawing which shows an example of the inspection screen HS at the selective inspection position after the inspection is carried out. It is explanatory drawing which shows an example of the drawing display screen HF which displays the drawing 30 before a new inspection position is set. It is explanatory drawing which shows an example of the drawing display screen HF which displays the drawing 30 after a new inspection position is set.

A. Embodiment:
A-1. Configuration of inspection system 10:
FIG. 1 is a block diagram showing the configuration of the inspection system 10 according to the present embodiment. The inspection system 10 is for supporting the inspection work of structures such as buildings and civil engineering structures, and includes a data generation device 100, a drawing display device 200, a drawing data storage server 300, and data for an inspection system. It includes a storage server 400. Each device and server are connected to each other via a network NW. The data generation device 100 is, for example, a personal computer or the like. The drawing display device 200 is, for example, a tablet terminal, a smartphone, or the like. The inspection system 10 is an example of a drawing display system.

The data generation device 100 is a device that manages the inspection work of the 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, or the like, and various programs for controlling the data generation device 100, for example, data D100 for an inspection system described later (FIG. 2) Store the program for generating. The communication unit 130 is an interface that communicates with an external device by a wireless communication method or a wired communication method. The operation unit 140 is composed of, for example, a keyboard, a mouse, or the like, and accepts user operations. The display unit 150 is composed of, for example, a liquid crystal display or the like. The control unit 110 is composed of, for example, a central control unit (hereinafter referred to as “CPU”) or the like, and controls each unit of the data generation device 100 according to a program read from the storage unit 120. The control unit 110 is an example of a map information data generation unit, and the communication unit 130 is an example of a drawing data acquisition unit and a main body communication unit.

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

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 data representing, for example, a plan view or a floor plan of each floor of a structure, and is, for example, DXF format data. Drawing data D301 is stored in advance in the drawing data storage server 300.

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

FIG. 2 is an explanatory diagram showing a 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 the structures to be inspected. The system data D101 includes icon image data D201 for displaying, for example, a beam icon AG, a 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 D202s set for each type of inspection performed on the structure, such as bar arrangement inspection and steel 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 with respect to each position of the structure, and specifically, the coordinate data included in the drawing data D301 is diverted. The position data D401 is an example of coordinate information. The attribute data D402 is data indicating the attributes 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 are included. 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 drawing display device 200, and is, for example, a specific type of icon from a plurality of types of icons that can be displayed by the icon image data D201 included in the system data D101. Contains data to select. The grid grid data D503 is data for displaying the grid grid of the structure on the display unit 240 of the drawing display device 200. The grid identification data D504 is data for displaying a grid identifier that identifies the grid. The inspection data D506 is data showing the inspection contents and inspection results at a predetermined inspection position set on 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 photographing unit 250 of the drawing display device 200. The cross-sectional view data D508 is data showing a cross-sectional view (see FIG. 6) of each member constituting the structure. The cross-sectional view includes, for example, a cross-sectional view of a beam or a column 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.

The correspondence data D403 is data that associates the attribute data D402 with the position data D401. That is, attributes such as a specific type of icon (hereinafter, simply referred to as “icon”) and grids indicated by the attribute data D402 are 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 drawing display device 200 has a GIS (Geographic Information System) display function, and uses position information as a key to superimpose information on space and information on position on display unit 240. It has a function to display on. Specifically, the drawing display device 200 displays the drawing based on the image data D507 and displays the attributes based on the map information data D302. As described above, attributes such as icons and grids are associated with coordinates on the drawing. Therefore, when the attributes such as the icon and the grid are displayed on the display unit 240, they are displayed superimposed on the positions on the drawing corresponding to the coordinates associated with the attributes.

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 creating the inspection system data D100 and displaying the drawings and attributes of the structure on the display unit 240 of the drawing display device 200 based on the created inspection system data D100, and the inspector. Includes support implementation processing to support the inspection of.

(1) Support preparation process The support preparation process is carried out by the data generation device 100 (FIG. 1). When the control unit 110 of the data generation device 100 receives an instruction to create the inspection system data D100 from the user in response to the operation via the operation unit 140, the control unit 110 receives the 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 from the user in response to the operation via the operation unit 140. In the structure, the inspection position required for inspection and the inspection content of each inspection position are predetermined for each member. The user reads the coordinates of the inspection position on the drawing displayed on the display unit 150 based on the drawing data D301, and inputs the data indicating the coordinates of the inspection position to the data generation device 100. The control unit 110 generates the position data D401 from the data indicating the coordinates of the inspection position input by reading the coordinates by the user. In addition, the user inputs data that identifies the type of icon and the inspection content in association with each inspection position. The control unit 110 generates the attribute data D402 from the data input by the user. When a plurality of inspection contents are prepared in advance, the inspection contents may be specified by selecting one inspection content from the plurality of inspection contents.

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 the position data D401 from the data indicating the coordinates of the grid. Further, regarding the grid identifier, the user sets the position data D401 of the grid identifier in association with the coordinates of the grid. Specifically, the position data D401 of 1 selected from the grid position data D401 is set as the grid identifier position data D401.

The control unit 210 of the drawing display device 200 generates the correspondence data D403 that associates the generated position data D401 with the attribute data D402, and maps information data including the position data D401, the attribute data D402, and the correspondence data D403. Generate D302. When the control unit 110 of the data generation device 100 generates the map information data D302, the control unit 110 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 the inspection type-specific data D202 for each site, each floor, and each inspection type performed at each site, and generates individual site data D102. The control unit 110 stores the individual site data D102 generated via the communication unit 130 in the inspection system data storage server 400.

(2) Support implementation process The support implementation process is carried out by the drawing display device 200 (FIG. 1). In the following, as an example of the support implementation process, an operation example in a scene of performing a bar arrangement inspection of beams and columns of a reinforced concrete building will be described. When the control unit 210 of the drawing display device 200 receives an instruction to start the inspection from the inspector in response to the operation via the display unit 240, the support execution process is started. The control unit 210 receives the site information that identifies the site and the inspector information that identifies the inspector in addition to the instruction to start the inspection. Based on the received site information, 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 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 system data D101 is stored in the storage unit 220 in advance. The control unit 210 acquires the inspection system data D100 from the system data D101 stored in advance and the individual site data D102 that can be acquired.

When the control unit 210 starts the support implementation process, the control unit 210 includes a plurality of items included in the individual site data D102 based on the inspection type information input from the inspector to specify the inspection type and the floor information to specify the floor of the structure. The inspection type data D202 of 1 is selected from the inspection type data D202. The control unit 210 causes the display unit 240 to display the drawing 30 (see FIG. 4) of the structure based on the drawing data D301 included in the selected inspection type data D202.

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

The control unit 210 of the drawing display device 200 can change the display magnification and the display position of the drawing 30. Specifically, the control unit 210 can enlarge or reduce the drawing 30 to an arbitrary magnification or display the drawing 30 by scrolling according to the operation via the display unit 240. .. For example, when the control unit 210 receives an enlargement instruction for 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 a drawing display screen HF for displaying an enlarged drawing 30. In the present embodiment, 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. 4, the control unit 210 causes the display unit 240 to display the drawing 30 and also has a GIS display function. The attribute is displayed based on the map information data D302. Specifically, the control unit 210 displays the beam icon AG (AG1 to AG5) and the pillar icon AC (AC1, AC2) based on the icon data D502, and the grid AS (AS1) based on the grid data D503. ~ AS3) is displayed, and the grid identifier AM (AM1 to AM3) is displayed based on the grid identification data D504.

The control unit 210 of the drawing display device 200 displays the grid AS at a 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 response to the change in the display magnification of the drawing 30. Specifically, when the drawing 30 is enlarged or reduced, the control unit 210 updates the position where the grid AS is displayed in accordance with the enlargement or reduction. Further, the grid identifier AM is associated with a position corresponding to the coordinates of the corresponding grid AS. Therefore, the control unit 210 updates the display state of the grid identifier AM in response to the change in 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 column icon AC are displayed at the positions indicated by the coordinates on the drawing 30 associated with the beam icon AG and the column icon AC. As a result, the beam icon AG and the column icon AC are displayed at the inspection positions on the drawing 30 corresponding to the beam icon AG and the column icon AC. The beam icon AG and the column icon AC include indications such as "pillar" and "beam" indicating the type of the member to be inspected, and the display color is determined according to the inspection status of the corresponding inspection position. For example, if the inspection status of the corresponding inspection position is "unconfirmed", the display color will be yellow, and if the inspection status of the corresponding inspection position is "pass", the display color will be blue and the corresponding inspection position will be displayed. If the inspection status of is "Fail", the display color is red, and if the inspection status of the corresponding inspection position is "Confirm", the display color is green. In FIG. 4, the inspection status of all the inspection positions is “unconfirmed”, and all the beam icon AG and the pillar icon AC are displayed in yellow.

Further, the display unit 240 displays the current position mark AZ on the drawing 30. The control unit 210 of the drawing display device 200 acquires information for specifying the orientation of the photographing unit 250 and information for specifying the current position of the drawing display device 200 from the geomagnetic sensor 260 and the GPS receiving unit 270, and these information. Is converted into information indicating the coordinates and the orientation on the drawing 30. The display unit 240 displays the current position mark AZ based on the information indicating the converted position and orientation. 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 drawing display device 200 has received a tap on the beam icon AG1 displayed at a desired inspection position (hereinafter, referred to as “selective inspection position”) in response to an operation via the display unit 240. Accordingly, the display unit 240 displays the inspection screen HS at the selected inspection position. FIG. 5 is an explanatory diagram showing an example of the inspection screen HS at the selective inspection position. FIG. 5 shows the 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. In addition to the header area HU described above, 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. The member display area HB includes an identifier indicating the type of the member to be inspected (for example, a beam), a code indicating the type of the member to be inspected (for example, SG5), and an identifier indicating an inspection position based on the grid AS (for example). , X communication: 1-2 Y communication: AA 1 way side), and is displayed in this area.

The inspection result display area HK is an area for displaying the inspection result. Specifically, the icon display field HK1 for displaying the same icon as the beam icon AG1 displayed at the selected inspection position in the drawing 30 and the inspection result are displayed. This is an area for displaying the inspection result input field HK2 to be input. The test 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 the inspector inputs 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, which is an example of inspection contents. Specifically, the item display column HC1 for displaying inspection items according to the inspection type and whether each inspection item has been inspected. This is an area for displaying an inspection confirmation column HC2 indicating whether or not, an inspection content description column HC3 in which the inspected content can be described, and a scroll bar HC4 for displaying inspection items not displayed on the display unit 240. .. Inspection items are another example of other types of attributes. In the inspection confirmation column HC2, there are an "uninspected" display area indicating that the corresponding inspection item has not been inspected and a "probability" display area (see FIG. 7) indicating that the corresponding inspection item has been inspected. Including, the display area of either the "not yet" display area or the "certain" display area is displayed for each inspection item. The inspector can switch the display area of the display state by swiping the inspection confirmation column HC2 of 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 thumbnail images of image data D507 corresponding to the selected inspection position, and a plurality of thumbnail images can be displayed at the same time. The camera icon HP2 is an icon for instructing the 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 content of "shooting with the shooting unit 250" and the content of "selecting from the storage unit 220" are described. .. When the inspector selects the content of "shooting with the photographing unit 250", the control unit 210 of the drawing display device 200 activates the photographing unit 250, and the image data of the subject photographed by the inspector using the photographing 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 content of "selecting from the storage unit 220" is selected by the inspector, the control unit 210 corresponds to the image data stored in the storage unit 220 separately from the inspection system data D100 to correspond to the selected inspection position. It is added to the map information data D302.

The function display area HD is an area for displaying the save icon HD1, the position map display icon HD2, the construction material display icon HD3, and the return icon HD4. The save icon HD1 is an icon for instructing the save of 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 the display of the display unit 240 to be switched 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 the construction material such as the cross-sectional view DA shown in FIG. The back icon HD4 is an icon for instructing to return the contents input in the inspection result display area HK or the inspection item display area HC to the contents before the input.

FIG. 7 shows the inspection screen HS after the first inspection is performed. In the first inspection, all the inspection items displayed in the inspection item display area HC are inspected. As a result, in the inspection confirmation column HC2, the “certain” display area is displayed for all the inspection items, and the inspection contents are described in the inspection content entry column HC3 as needed. In the present embodiment, it is assumed that a defect is detected in the inspection item of the "joint" in the first inspection. Therefore, "failure" is input in the inspection result input field HK2 of the inspection result display area HK, and the icon display color is red in the icon display field HK1. Further, in the first inspection, the inspection result image PH1 (see FIG. 8), which is an image of the defective “joint”, is photographed by using the photographing unit 250. The control unit 210 of the drawing display device 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. 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. When the control unit 210 receives a tap on the thumbnail image HP3 displayed in the image display field HP1 in response to an operation via the display unit 240, the control unit 210 causes the display unit 240 to display the inspection result image PH1 corresponding to the thumbnail image HP3. ..

FIG. 8 shows a display screen of the inspection result image PH1. In addition to the inspection result image PH1, the display screen includes an additional icon AT1 instructing the inspection result image PH1 to add an instruction image such as characters and symbols, and a deletion icon AT2 instructing the inspection result image PH1 to be deleted. Is done. The instruction image is an example of an additional image. When the control unit 210 of the drawing display device 200 receives a tap on the additional icon AT1 in response to an operation via the display unit 240, the control unit 210 adds an instruction image based on the operation via the display unit 240 of the inspector. Specifically, when the inspector describes the arrow image TK1 on the inspection result image PH1, the control unit 210 adds an instruction image showing the arrow image TK1. Further, 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. When the control unit 210 finishes 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. 9). Therefore, when the inspection result image PH1 is displayed on the display unit 240 from the next time onward, the inspection result image PH1 after the instruction image is added is displayed.

After the completion of the first inspection, the corrective work is carried out by the corrective contractor who performs the corrective work on the structure based on the result of the first inspection. The corrector can understand that the object of correction is the "joint" from the contents displayed in the inspection item display area HC of the inspection screen HS at the selected inspection position. In addition, the corrector can understand the detailed contents of the correction by the arrow image TK1 and the character image TK2 added to the thumbnail image HP3 of the image acquisition area HP. After the corrective work by the corrector, the inspector will re-inspect the selective inspection position of the structure.

FIG. 9 shows the inspection screen HS after the second inspection is performed. In the second inspection, the inspection item of the "joint" in which a defect is detected in the first inspection result is inspected. In the inspection content description column HC3 for the inspection item of the "joint" in the inspection item display area HC, the content indicating that the reconfirmation has been performed is described. Further, in the second inspection, a correction image, which is an image of the "joint" after the correction work, is taken by using the photographing unit 250. The inspector can refer to the thumbnail image HP3 of the inspection result image PH1 and take a corrective image so as to resemble the inspection result image PH1. The control unit 210 of the drawing display device 200 stores the image data of the corrected image in the storage unit 220 as the image data D507 of the map information data D302. That is, the control unit 210 stores both the inspection result image PH1 and the correction image as attributes in the storage unit 220 in association with one coordinate on the drawing 30 corresponding to one selection inspection position.

The control unit 210 of the drawing display device 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 240 based on the image data of the correction image. Display the thumbnail image HP4 of the corrected image. The display unit 240 simultaneously displays the thumbnail image HP3 of the inspection result image PH1 and the thumbnail image HP4 of the corrected image in the image display field HP1 of the image acquisition area HP. In the present embodiment, it is assumed that the deficiency in the inspection item of the "joint" is resolved in the second inspection. Therefore, the input of the inspection result input field HK2 in the inspection result display area HK is updated from "failed" to "passed", and the display color of the icon of the icon display field HK1 on the inspection screen HS changes to blue. Therefore, as shown in FIG. 10, when the display of the display unit 240 is switched from the inspection screen HS to the drawing display screen HF, the display color of the beam icon AG1 at the selected inspection position is changed to blue. As shown in the thumbnail image HP4 of FIG. 9, an instruction image indicating that the deficiency has been resolved may be added to the corrected image.

As described above, in the drawing display device 200 of the present embodiment, the display unit 240 displays the drawing 30 of the structure based on the drawing data D301 and displays the attributes based on the map information data D302. Therefore, when it is desired to display only the drawing 30 on the display unit 240, only the drawing 30 is displayed based on the drawing data D301, and when it is desired to display only the attribute on the display unit 240, the attribute is based on the map information data D302. When it is desired to display only the drawing and display both the drawing 30 and the attribute on the display unit 240, both the drawing 30 and the attribute can be displayed based on the drawing data D301 and the map information data D302. This makes it possible to improve the convenience of displaying the drawings 30 and attributes on the display unit 240.

The attribute is associated with the coordinates on the drawing 30, and the attribute displayed on the display unit 240 together with the drawing 30 is displayed at a position on the drawing 30 corresponding to the coordinates associated with the attribute. Therefore, it is possible to easily grasp which position on the drawing 30 the attribute is associated with.

Further, in the drawing display device 200 of the present embodiment, since the icon as an attribute is displayed on the display unit 240 together with the drawing 30, the user taps the icon displayed on the display unit 240 to select the selected icon. You can check other attributes at the position where is displayed. Specifically, by tapping the beam icon AG or the pillar icon AC displayed at the inspection position, the inspection content and the inspection result as attributes at the inspection position can be confirmed.

Further, in the drawing display device 200 of the present embodiment, the grid AS and the grid identifier AM as attributes are displayed on the display unit 240 together with the drawing 30. The grid AS is displayed based on the coordinates on the drawing 30. Therefore, when the drawing 30 is enlarged or reduced, the grid AS is displayed following the enlargement or reduction of the drawing 30. Further, the grid identifier AM is displayed based on the coordinates of the grid AS on the drawing 30. Therefore, when the grid AS is displayed on the drawing 30, the grid identifier AM is displayed in association with the grid AS.

As shown in FIG. 3, the grid and the grid identifier are also described on the drawing 30. However, the grid shown in the drawing 30 has a problem that it is difficult to see because the line width is changed according to the enlargement or reduction of the drawing 30. Further, since the grid identifier described in the drawing 30 is generally displayed at the end of the drawing 30, when the drawing 30 is enlarged, it is not displayed in the drawing 30 and there is a problem that the grid cannot be identified. .. In the drawing display device 200 of the present embodiment, the grid AS is displayed based on the coordinates on the drawing 30, so that the line width of the grid AS is constant even when the drawing 30 is enlarged or reduced. Can be kept in. Further, since the grid identifier AM is displayed even when the drawing 30 is enlarged, the grid AS can be identified even when the drawing 30 is enlarged or reduced. This makes it possible to improve the convenience of displaying the drawing 30 on the display unit 240.

Further, in the drawing display device 200 of the present embodiment, since the image taken by the photographing unit 250 or the like is associated with the coordinates on the drawing 30, the image can be held corresponding to each position on the drawing 30. .. In particular, in the drawing display device 200 of the present embodiment, since a plurality of images can be associated with one coordinate on the drawing 30, for example, an inspection result image before the correction work can be associated with each position on the drawing 30. The PH1 and the corrected image after the correction work can be retained, or the same subject can be photographed a plurality of times from different angles, which can improve convenience.

Further, in the drawing display device 200 of the present embodiment, the control unit 210 of the drawing display device 200 adds the image data of the image captured by the photographing unit 250 to the map information data D302 in association with the coordinates corresponding to the subject. .. Therefore, the user can confirm the image of the subject corresponding to the coordinates associated with the image data by the image data added to the map information data D302.

Further, in the drawing display device 200 of the present embodiment, the thumbnail image is included in the attribute and is displayed together with the inspection content and the inspection result which are other attributes on the inspection screen HS. Therefore, the inspector can confirm what kind of image is taken by the thumbnail image displayed on the display unit 240, and the relationship between the inspection content and the inspection result and the taken image, for example, It is possible to confirm whether or not the inspection contents and inspection results correspond to the captured images. Further, the user can confirm the image corresponding to the selected thumbnail image in detail by tapping the thumbnail image displayed on the display unit 240.

Further, in the drawing display device 200 of the present embodiment, the indication image can be added to the image displayed on the display unit 240. Therefore, by adding the indication image around the defective portion included in the image, the indication image can be added. Compared to the case where the pointed image is not added, the contents of the deficiency can be easily communicated to others such as the corrector by using the drawing.

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

B-1. First modification example:
In the above embodiment, for example, the inspection position is set by the data generation device 100 and not set by the drawing display device 200 so that the inspection position is predetermined for each member. The inspection position may be set by the drawing display device 200, as in the case where a defect is detected at a position different from the predetermined inspection position. The support implementation process implemented in such a case will be described below.

FIG. 11 is a drawing display screen HF when the inspector detects a defect at a position different from the preset inspection position of the structure in the inspection by the inspector. In FIG. 11, the position of the current position mark AZ on FIG. 30 is different from that in FIG. 4, and the other displays are the same as those in FIG. 4, so that duplicate description will be omitted for the other displays.

When the inspector detects the deficiency, the inspector long-tap the deficient position corresponding to the deficiency of the display unit 240 based on the current position mark AZ. The control unit 210 of the drawing display device 200 reads the coordinates of the defective position on the drawing 30 and acquires the position data D401. Further, the control unit 210 displays an attribute data generation screen (not shown). The attribute data generation screen is provided with an input field for inputting the type of the member to be inspected and the content of the defect. In this modification, it is assumed that "floor" is input as the member to be inspected. The control unit 210 generates the attribute data D402 based on the input to the attribute data generation screen. The control unit 210 generates the correspondence data D403 that associates the position data D401 with the attribute data D402, and generates the map information data D302 at the defective position. By generating the map information data D302, a new inspection position is set at the defective position. Therefore, as shown in FIG. 12, the floor icon AF including the display of “floor” is displayed at the position on the drawing 30 corresponding to the newly set inspection position.

As described above, in the modified examples shown in FIGS. 11 and 12, the inspection position can be set by the drawing display device 200. Therefore, according to the modified examples shown in FIGS. 11 and 12, the detection position can be set based on the defect detected by the inspector during the inspection, and necessary processing such as inspection and correction work can be performed. , Convenience can be further improved.

B-2. Other modification examples:
In the above embodiment, an example in which the present invention for displaying the drawing 30 of the structure is applied to a system or device used for inspection work of the structure is shown, but the present invention is not limited to this, and the system or device for displaying the drawing 30 is not limited thereto. Can be widely applied to.

In the above embodiment, the inspection system 10 includes a drawing data storage server 300 and an inspection system data storage server 400 in addition to the data generation device 100 and the drawing display device 200. The storage server 300 and the data storage server 400 for the inspection system 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, it is generated by the data generation device 100, the drawing data storage server 300 is not always necessary. Further, when the inspection system data D100 is transmitted from the data generation device 100 to the drawing display device 200 and received by the drawing display device 200, the inspection system data storage server 400 is not always necessary.

In the above embodiment, icons, inspection contents, inspection results, and the like are given as attributes of each position of the structure, but the attributes are not limited to the above examples. Also, the attributes do not necessarily include all of the above examples. For example, the icon does not necessarily have to be displayed, and the inspection content and the inspection result may be displayed on the display unit 240 by tapping the inspection target member on the drawing 30. Further, it is not always necessary to display both the inspection content and the inspection result, and only one of them may be displayed on the display unit 240. Further, in the drawing, a plurality of drawings do not necessarily have to be associated with each position of the structure, and one drawing may or may not be associated with the drawings.

In the above embodiment, when the attribute is displayed on the display unit 240, the icon as the attribute is displayed at the position corresponding to the coordinates associated with the attribute on the drawing 30. Here, "displayed at a position corresponding to the coordinates" does not only indicate that the coordinates are displayed at the position indicated by the coordinates, that is, the position specified by the position data D401 indicating the coordinates, but also the position by a leader line or the like. It also includes being associated with the position specified by the data D401 and being displayed around the position specified by the position data D401.

In the above embodiment, when the grid identifier AM is displayed on the display unit 240, 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. However, the display position on the display unit 240 is not limited to this if it is displayed in association with the corresponding grid AS.

In the above embodiment, when the thumbnail image is displayed on the display unit 240, an example in which the thumbnail image is displayed together with the inspection content and the inspection result is shown, but the present invention is not limited to this, and the thumbnail image is displayed together with the drawing 30. You may do it. 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, an example is shown in which an image to which an additional image is added is overwritten and saved. That is, an example is shown in which the added additional image is saved together with the image. However, the present invention is not limited to this, and the added additional image may be saved separately from the image.

In the above embodiment, the display unit 240 of the drawing display device 200 also serves as an operation reception unit, but the drawing display device 200 may include an operation reception unit in addition to the display unit 240.

In the above embodiment, an example in which the map information data D302 of the inspection position is generated is shown, but the position on the drawing 30 where the map information data D302 is generated is not necessarily limited to the inspection position, and for example, the inspection is not performed. The location map information data D302 may be generated.

In the above embodiment, an example is shown in which the attributes are displayed together with the drawing 30 in a state other than the state in which the entire drawing 30 is displayed on the drawing display screen HF, but the present invention is not limited to this, and the entire drawing 30 is displayed. In this state, the attributes may be displayed together with the drawing 30.

In the above embodiment, an example in which only a two-dimensional drawing is used as the drawing of the structure is shown, but a two-dimensional drawing and a 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 drawing display device 200, and the user needs to display the structure on the display unit 240 of the drawing display device 200. The two-dimensional drawing may be displayed and the above inspection support process may be performed.

In the above embodiment, an example of displaying the current position mark AZ on the display unit 240 of the drawing display device 200 is 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. You may.

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: Drawing display device 210: Control unit 220: Storage unit 230: Communication Part 240: Display part 250: Photographing part 300: Drawing data storage server 400: Inspection system data storage server AC: Pillar icon AG: Beam icon AM: Grid identifier AS: Grid D100: Inspection system data D202: Inspection type Separate data D301: Drawing data D302: Map information data D401: Position data D402: Attribute data D506: Inspection data D507: Image data HP3, HP4: Thumbrel image

Claims (10)

A drawing display device that displays a two-dimensional drawing of a structure.
A drawing data acquisition unit that acquires drawing data representing the two-dimensional drawing,
The map information data in which the coordinate information indicating the coordinates on the two-dimensional drawing corresponding to each position of the structure and the attribute information indicating the attribute of each position are associated with each other and are displayed by the GIS display function. The map information data acquisition unit that acquires the map information data used for
It has a GIS display function, displays the two-dimensional drawing based on the drawing data, and associates at least one of the attributes with the attribute on the two-dimensional drawing based on the map information data. A display unit for displaying at a position corresponding to the coordinates is provided .
The attribute includes the grid of the structure.
The display unit
The display magnification of the two-dimensional drawing can be changed.
A drawing display device that updates the display state of the grid in response to a change in the display magnification of the two-dimensional drawing. The drawing display device according to claim 1, further
Equipped with an operation reception unit that accepts operations
The attribute information is information indicating a plurality of types of the attributes including an icon.
The display unit
The icon as the attribute is displayed on the two-dimensional drawing, and the icon is displayed.
The operation receiving unit selects the displayed icon. In response to the acceptance of the operation, the drawing display displays other types of the attributes associated with the coordinates associated with the selected icon. apparatus. The drawing display device according to claim 1 or 2.
Each position of the structure includes an inspection position of the structure.
The drawing display device includes at least one of an inspection content referred to at the time of inspection at the inspection position and an inspection result at the inspection position. The drawing display device according to any one of claims 1 to 3.
The attributes associated with the coordinates before SL through core includes identifying communication core identifier of the communication core,
The display unit, in response to the display magnification of the previous SL dimensional drawing was changed, to update the display state before SL through the core identifier, drawing display device. The drawing display device according to any one of claims 1 to 4.
The attributes include images
The map information data is a drawing display device which is data capable of associating a plurality of the images as the attributes with one coordinate on the two-dimensional drawing. The drawing display device according to any one of claims 1 to 5.
The attributes include images
The drawing display device further
A shooting unit that generates image information that represents an image by shooting a subject,
A drawing display device including a data update unit that associates the image information as the attribute information with the coordinate information corresponding to the subject and adds the image information to the map information data. The drawing display device according to claim 6.
The attribute information is information indicating a plurality of types of attributes including an image and a thumbnail image corresponding to the image.
The display unit is a drawing display device that displays the thumbnail image together with at least one of the two-dimensional drawing and the other type of the attribute associated with the coordinates associated with the thumbnail image. The drawing display device according to claim 7, further
Equipped with an operation reception unit that accepts operations
The display unit is a drawing display device that displays the image corresponding to the thumbnail image in response to the operation reception unit receiving the operation of selecting the thumbnail image displayed on the display unit. The drawing display device according to any one of claims 1 to 8.
The attributes include images
The drawing display device further
An additional image addition unit for adding an additional image to the image displayed on the display unit is provided.
The display unit is a drawing display device that displays the image after the additional image is added in response to the addition of the additional image to the image. A drawing display system that displays a two-dimensional drawing of a structure.
Data generator and
Equipped with a drawing display device,
The data generator is
A drawing data acquisition unit that acquires drawing data representing the two-dimensional drawing,
The map information data in which the coordinate information indicating the coordinates on the two-dimensional drawing corresponding to each position of the structure and the attribute information indicating the attribute of each position are associated with each other and are displayed by the GIS display function. The map information data generation unit that generates the map information data used for
It has a main body communication unit that transmits the drawing data and the map information data to the drawing display device.
The drawing display device is
A terminal communication unit that receives the drawing data and the map information data transmitted from the data generator, and
It has a GIS display function, displays the two-dimensional drawing based on the drawing data, and associates at least one of the attributes with the attribute on the two-dimensional drawing based on the map information data. possess a display unit for displaying a position corresponding to the coordinates,
The attribute includes the grid of the structure.
The display unit
The display magnification of the two-dimensional drawing can be changed.
A drawing display system that updates the display state of the grid in response to a change in the display magnification of the two-dimensional drawing.

Images