CN111275812B - Data display method and device and electronic equipment - Google Patents

Abstract

The invention provides a data display method, a data display device and electronic equipment, when a disease position of a bridge is displayed, a disease mark is arranged at the disease position of a three-dimensional model of the bridge, and when a display instruction corresponding to the disease mark is received, data information of the disease position can be displayed. And then both can directly observe the actual position of disease position in the three-dimensional model from the three-dimensional model, can also know the data information of disease position specifically to make the show of disease position more comprehensive, improved the bandwagon effect.

Description

Data display method and device and electronic equipment

Technical Field

The present invention relates to the field of bridge data display, and in particular, to a data display method, device and electronic equipment.

Background

Bridge is a structure which is generally erected on rivers, lakes and seas and can smoothly pass vehicles, pedestrians and the like. After the bridge is built, along with the growth of bridge service time, the bridge can appear the disease position, and the disease position can be the region like appearing the crack, warp scheduling problem, when carrying out the display of disease position, generally the two-dimensional picture of disease position is shown, and the data volume that this kind of display mode shows is less to can not comprehensive data of showing the disease position, make the bandwagon effect relatively poor.

Disclosure of Invention

In view of the above, the invention provides a data display method, a device and an electronic device, so as to solve the problems that when a disease position of a bridge is displayed, a two-dimensional picture of the disease position is generally displayed, and the display mode displays a small amount of data, so that the data of the disease position cannot be comprehensively displayed, and the display effect is poor.

In order to solve the technical problems, the invention adopts the following technical scheme:

the data display method is applied to a data display model, wherein the data display model is used for displaying a three-dimensional model of a bridge, disease marks are arranged at disease positions of the three-dimensional model, and the disease marks are used for indicating disease data information at the disease positions; the data display method comprises the following steps:

under the condition of receiving a display instruction corresponding to the disease mark, determining disease data information of a disease position corresponding to the disease mark;

acquiring a loading path of disease data information of the disease position;

and acquiring and displaying disease data information of the disease position based on the loading path.

Optionally, the generating process of the data presentation model includes:

acquiring data information of the disease position of the bridge and acquiring a three-dimensional model of the bridge; the data information comprises the disease data information;

acquiring a disease marking position of the disease position in the three-dimensional model, which is determined according to the data information of the disease position, and displaying the disease mark at the disease marking position; the disease identifier is used for indicating disease data information at the disease position.

Optionally, acquiring data information of the disease location of the bridge includes:

acquiring disease detection data of the disease position and a disease picture of the disease position;

acquiring disease data extracted from disease detection data of the disease position, and establishing an association relationship between the disease data and the disease picture;

converting the data format of the disease data into a first preset data format, and converting the data format of the disease detection data of the disease position into a second preset data format;

the data information comprises a disease picture of the disease position, disease detection data of the disease position converted into a second preset data format and disease data converted into a first preset data format and related to the disease picture of the disease position; the disease data information includes the disease picture.

Optionally, acquiring the disease marker position of the disease position in the three-dimensional model, which is determined according to the data information of the disease position, includes:

and acquiring disease data which are converted into a first preset data format by a user and have association relation with the disease picture of the disease position, and selecting the disease mark position in the three-dimensional model.

Optionally, after displaying the disease mark at the disease mark position, the method further includes:

acquiring a disease marking position of the disease position redetermined according to the data information of the disease position in the three-dimensional model, and displaying the disease mark at the redetermined disease marking position;

or receiving a deleting instruction which is input by a user and used for deleting the disease mark, and deleting the disease mark.

Optionally, after the obtaining the three-dimensional model of the bridge, the method further includes:

acquiring a layer selection instruction input by a user; the layer selection instruction is used for selecting a target layer to be displayed in the three-dimensional model;

and responding to the layer selection instruction, and displaying the target layer in the three-dimensional model and hiding layers except the target layer in the three-dimensional model.

The data display device is applied to a data display model, the data display model is used for displaying a three-dimensional model of a bridge, a disease mark is arranged at a disease position of the three-dimensional model, and the disease mark is used for indicating disease data information at the disease position; the data display method comprises the following steps:

the data determining module is used for determining disease data information of a disease position corresponding to the disease mark under the condition that a display instruction corresponding to the disease mark is received;

the path acquisition module is used for acquiring a loading path of the disease data information of the disease position;

and the data display module is used for acquiring and displaying the disease data information of the disease position based on the loading path.

Optionally, the method further comprises: a model generation module, the model generation module comprising:

the information acquisition module is used for acquiring data information of the disease position of the bridge and acquiring a three-dimensional model of the bridge; the data information comprises the disease data information;

the identification display module is used for acquiring the disease mark position of the disease position in the three-dimensional model, which is determined according to the data information of the disease position, and displaying the disease identification at the disease mark position; the disease identifier is used for indicating disease data information at the disease position.

Optionally, the information acquisition module includes:

the first acquisition submodule is used for acquiring disease detection data of the disease position and a disease picture of the disease position;

the second acquisition submodule is used for acquiring disease data extracted from the disease detection data of the disease position and establishing an association relationship between the disease data and the disease picture;

the format conversion sub-module is used for converting the data format of the disease data into a first preset data format and converting the data format of the disease detection data of the disease position into a second preset data format;

the data information comprises a disease picture of the disease position, disease detection data of the disease position converted into a second preset data format and disease data converted into a first preset data format and related to the disease picture of the disease position; the disease data information includes the disease picture.

An electronic device is provided with a data display model, wherein the data display model is used for displaying a three-dimensional model of a bridge, a disease mark is arranged at a disease position of the three-dimensional model, and the disease mark is used for indicating disease data information at the disease position; the electronic device includes: a memory and a processor;

wherein the memory is used for storing programs;

the processor invokes the program and is configured to:

under the condition of receiving a display instruction corresponding to the disease mark, determining disease data information of a disease position corresponding to the disease mark;

acquiring a loading path of disease data information of the disease position;

and acquiring and displaying disease data information of the disease position based on the loading path.

Compared with the prior art, the invention has the following beneficial effects:

the invention provides a data display method, a data display device and electronic equipment, when a disease position of a bridge is displayed, a disease mark is arranged at the disease position of a three-dimensional model of the bridge, and when a display instruction corresponding to the disease mark is received, data information of the disease position can be displayed. And then both can directly observe the actual position of disease position in the three-dimensional model from the three-dimensional model, can also know the data information of disease position specifically to make the show of disease position more comprehensive, improved the bandwagon effect.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings that are required to be used in the embodiments or the description of the prior art will be briefly described below, and it is obvious that the drawings in the following description are only embodiments of the present invention, and that other drawings can be obtained according to the provided drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic structural diagram of a three-dimensional model according to an embodiment of the present invention;

fig. 2 is a schematic view of a scenario of a data display model according to an embodiment of the present invention;

FIG. 3 is a flowchart of a method for displaying data according to an embodiment of the present invention;

FIG. 4 is a flowchart of another method for displaying data according to an embodiment of the present invention;

fig. 5 is a schematic view of a scene of disease detection data according to an embodiment of the present invention;

fig. 6 is a schematic view of a scenario of disease data provided by an embodiment of the present invention;

FIG. 7 is a schematic view of a scenario of another data presentation model according to an embodiment of the present invention;

FIG. 8 is a flowchart of a method for displaying data according to another embodiment of the present invention;

fig. 9 is a schematic structural diagram of a data display device according to an embodiment of the present invention.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Bridge is a structure which is generally erected on rivers, lakes and seas and can smoothly pass vehicles, pedestrians and the like. After the bridge is built, along with the growth of bridge service time, the bridge can appear the disease position, and the disease position can be the region like appearing the crack, warp scheduling problem, when carrying out the display of disease position, generally the two-dimensional picture of disease position is shown, and the data volume that this kind of display mode shows is less to can not comprehensive data of showing the disease position, make the bandwagon effect relatively poor.

Through research and development, if the disease mark of the disease position of the bridge can be displayed from the three-dimensional model of the bridge, the actual position of the disease position in the three-dimensional model can be directly observed. In addition, the three-dimensional model can display the data information of the disease position, namely, the data information of the disease position can be known specifically, so that the disease position can be displayed more comprehensively, and the display effect is improved.

In order to achieve the above technical effects, a data presentation model needs to be generated in advance, and the data presentation model can be constructed by using the Unity3D engine technology.

The data display model is used for displaying a three-dimensional model of the bridge. The specific structure of the three-dimensional model of the bridge may be referred to in fig. 1. An identifier indicating the trend of the bridge by the user can be added in the three-dimensional model, so that the user can know the trend of the bridge.

The three-dimensional model of the bridge is composed of a plurality of layers, the technician has preset the layers of the bridge, referring to fig. 2, for example, the layers of the ground layer, the lower structure layer, the bridge deck layer and the upper structure layer may be included, and each layer of the three-dimensional model is normally displayed, but after displaying, if the user wants to display only one layer or several layers, the user may select the text box in front of each layer in fig. 2, or not select the text box, if selecting the text box, the opposite hook occurs in the text box, if not selecting the text box, the text box is blank, and at this time the server receives a layer selection instruction input by the user, where the layer selection instruction is used for selecting the target layer to be displayed in the three-dimensional model. The server then responds to the layer selection instruction and displays the target layer in the three-dimensional model and hides layers in the three-dimensional model other than the target layer.

It should be noted that, when the hook on the front side of a layer is removed, the layer is hidden, and when the hook on the front side of a layer is selected, the layer is displayed.

In the data display model in this embodiment, a disease identifier is provided at a disease position of the three-dimensional model, and the disease identifier is used to indicate disease data information at the disease position. Specifically, referring to fig. 2, each of the marking points in fig. 2 is a disease mark in the present embodiment, and each mark indicates disease data information at the disease position, that is, indicates a cause of the disease at the disease position, such as pits, cracks, breakage, and the like.

In one implementation of the present invention, a process for generating a data presentation model is provided, and in particular, referring to fig. 3, the process for generating a data presentation model may include:

s11, acquiring data information of the disease position of the bridge and acquiring a three-dimensional model of the bridge; the data information includes the disease data information.

In practical application, the data display model needs to call the three-dimensional model of the bridge, and then the format of the three-dimensional model of the bridge needs to be converted into a format which can be identified by the data display model and placed into a folder which can be called by the data display model. In an alternative implementation, the three-dimensional model of the bridge is exported in an obj format, and the exported model is placed into a "model" folder of the data catalog in the system to which the data presentation model corresponds. It should be noted that the derivation is in the obj format, which can support the display of the surface texture of the model, so that the concrete details of the bridge can be better shown.

In an implementation process of the invention, the acquisition of the data information of the disease position of the bridge can be specifically realized by the following steps:

s21, acquiring disease detection data of the disease position and a disease picture of the disease position.

Referring to fig. 5, fig. 5 is a disease detection report of the white floating east bridge, in which specific information of each disease position of the Bai Fudong bridge, such as positions appearing on the bridge, disease types (e.g., shear deformation, breakage, etc.), lengths of the disease positions, detailed descriptions, photographs, etc., are described in detail.

The disease photo of the disease position is photo information of the specific disease position collected by a technician, such as photo information of a crack of a bridge, photo information of a breakage, and the like.

S22, acquiring disease data extracted from the disease detection data of the disease position, and establishing an association relationship between the disease data and the disease picture.

Since the disease detection data is displayed in word form and the disease information of the bridge cannot be intuitively seen, at this time, the information about a disease position in the disease detection report can be manually extracted and displayed in Excel form, and the extracted information can be the position, the disease type (such as shear deformation and breakage, etc.), the length, detailed description and photo of the disease position, etc. of the bridge. The specific Excel display results can be seen in fig. 6. It should be noted that, the photo part in Excel gives the name of the photo, and a hyperlink is set for the photo, so that the photo conforming to the photo name at the preset position of the corresponding system of the data display model can be called. In practical application, the disease photos can be stored in a 'picture' folder of a data directory in the system, and the names of the pictures are consistent with and correspond to the names of the disease photos in the appearance l one by one, so that the photos with the same names can be displayed when clicking the photo names in the Excel.

It should be noted that, the process of setting a hyperlink for the photo in the appearance l is a process of establishing the association relationship between the disease data and the disease picture.

S23, converting the data format of the disease data into a first preset data format, and converting the data format of the disease detection data of the disease position into a second preset data format.

In practical application, the first preset data format may be a data table format, and after the data format of the disease data is converted into the data table format, the disease data is stored in the data directory root directory.

The second preset data format may be htm format, and disease detection data in Word document format is stored in htm format and stored in the detection report folder of the data directory. The database storing the content may be an SQLite database.

The disease photo, the disease detection data and the disease data are stored to a designated position, the designated position can be set manually in advance, and after the designated position is set manually, a data loading path of the data display model is set, wherein the data loading path is a path for acquiring the disease photo, the disease detection data and the disease data.

The data information includes the disease picture of the disease position, the disease detection data of the disease position converted into the second preset data format, and the disease data converted into the first preset data format and associated with the disease picture of the disease position. The disease data information includes the disease picture.

S12, acquiring a disease marking position of the disease position in the three-dimensional model, which is determined according to the data information of the disease position, and displaying the disease mark at the disease marking position.

The disease marks are used for indicating disease data information at the disease positions, and the disease marks are described in the above embodiments and are not described herein.

The position of the disease mark for determining the disease mark is determined manually, specifically, referring to fig. 7, the display interface in fig. 7 shares five functions of associating disease points, layer management, four views, screening, manual measurement and marking, and the layer management function is to control the local display of the bridge according to the structural characteristics of the bridge, so that the marking of the disease points is convenient, such as the control of the upper structure, the lower structure and the bridge deck system for display management respectively. If the layer management function is clicked, the user can select which layer to display and which layer to not display by entering the layer management interface of 2.

The function of associating disease points refers to associating disease positions with a three-dimensional model of a bridge without disease marks, and the final displayed effect is to display the disease marks of the disease positions in the three-dimensional model.

The four-view function is that the display window can be switched into single perspective display or perspective, overlook, front view, side view and other four window display, so that a plurality of view angles can be conveniently checked when disease point management is carried out.

The screening function can be used for independently displaying and controlling disease points according to disease types, such as crack, defect, corrosion and other disease data, and can also be used for independently controlling and displaying disease points of parts such as an upper structure, a lower structure, a bridge deck system and the like according to the bridge structure.

The manual measurement function is that the actual dimension of the bridge, such as the distance between the disease information and the bridge expansion joint, can be manually measured.

The labeling function is to label and add at any position in the three-dimensional bridge, and text description and pictures can be added at labeling points, so that the special position can be conveniently explained.

In practical application, obtaining the disease marking position of the disease position in the three-dimensional model, which is determined according to the data information of the disease position, may include:

and acquiring disease data which are converted into a first preset data format by a user and have association relation with the disease picture of the disease position, and selecting the disease mark position in the three-dimensional model.

Specifically, the left side in fig. 7 shows a related disease list, the content in the related disease list is the disease data converted into the data table format, if the user clicks the operation button, the disease data can be dragged to a position in the three-dimensional model, which is considered to be matched with the position description in the disease data by the user, namely, a disease mark position, and then a disease mark is automatically generated and displayed at the disease mark position. When each disease data is added, a plurality of disease marks can be displayed in the three-dimensional model, and a plurality of positioning points are arranged in the three-dimensional model in fig. 7.

In another implementation manner of the present invention, if the user considers that the set disease mark is not appropriate after the user sets the disease mark at the disease position, the position of the disease mark may be adjusted, or the disease mark may be directly deleted.

Specifically, after the disease mark position displays the disease mark, the method further includes:

acquiring a disease marking position of the disease position redetermined according to the data information of the disease position in the three-dimensional model, and displaying the disease mark at the redetermined disease marking position;

or receiving a deleting instruction which is input by a user and used for deleting the disease mark, and deleting the disease mark.

Specifically, if the user's mouse moves to the disease mark, or clicks the disease mark, a disease picture corresponding to the disease mark is displayed. Two function buttons are arranged below the disease picture, namely a disease resetting point position and a disease clearing point position, if the disease resetting point position is clicked, a user can determine the position of the disease mark again according to the disease data, and the disease mark is displayed at a new position. If the position of the disease point is clear, a deleting instruction which is input by a user and used for deleting the disease mark is received, and the operation of deleting the disease mark is directly executed.

Through the data display model, the corresponding relationship between the data information of the disease position and the three-dimensional model of the bridge can be established, and the combination of the disease data and the three-dimensional model is realized.

The system for realizing the data display model supports the development of the mobile terminal and has the function of automatically importing the model. The system can run on mobile storage equipment or a computer, and can quickly share and perfect data for the whole system or a single project. The whole system is not required to be installed, and the loading and running efficiency is high. The bridge inspection report can be displayed more intuitively and the disease data association operation can be completed through the three-dimensional display platform system. The system is free from installation, convenient and flexible to use, and can independently copy single engineering data for display at different clients. And the bridge inspection report is combined with the 3D platform display, so that the combination of disease data and a three-dimensional model is realized, and owners and engineering personnel can conveniently check, analyze and position the bridge inspection report.

Based on the above embodiment of the data display model, another embodiment of the present invention provides a data display method, referring to fig. 3, which may include:

and S31, under the condition that a display instruction corresponding to the disease mark is received, determining disease data information of a disease position corresponding to the disease mark.

Specifically, referring to fig. 2, each disease mark in fig. 2 is displayed in a three-dimensional model, if a user moves to a position of the disease mark or clicks the disease mark during the movement of the mouse, it is considered that a display instruction corresponding to the disease mark is received, at this time, it is determined that the user wants to know specific data of a disease position corresponding to the disease mark, and disease data information of the disease position corresponding to the disease mark is determined. The disease data information in this embodiment mainly refers to the disease picture described above, and may also include the disease data described above.

If the user wants to view the three-dimensional model of the bridge in fig. 2, the user needs to select the bridge from the map including the road, the tunnel, the bridge and other parts, at this time, an option of displaying the disease detection data and the three-dimensional model of the bridge will appear, if the three-dimensional model is selected, the user enters the three-dimensional model display interface of the bridge, that is, fig. 2, and if the disease detection data is selected. And entering a disease detection data display interface for displaying the disease detection data converted into the htm format. Whether the three-dimensional model or the disease detection data is selected, another button and a button for returning to the map are displayed on the corresponding display interface, for example, if the three-dimensional model is selected, the disease detection data and the button for returning to the map are also arranged on the display interface of the three-dimensional model, so that flexible jump of different interfaces can be realized.

S32, acquiring a loading path of the disease data information of the disease position.

The above-mentioned disease picture, disease data and disease detection data are all stored in fixed positions according to the above-mentioned prescribed format, and then the loading path in this embodiment is a path for accessing the corresponding position, and when the above-mentioned disease picture, disease data and disease detection data are all stored in fixed positions according to the above-mentioned prescribed format, their corresponding loading paths are also set, and then the set loading paths can be directly obtained.

S33, acquiring and displaying disease data information of the disease position based on the loading path.

After the loading path is acquired, the disease data information of the disease position is acquired according to the loading path, and then the disease data information is displayed.

In this embodiment, when the disease position of the bridge is displayed, not only the disease mark is set at the disease position of the three-dimensional model of the bridge, but also the data information of the disease position can be displayed when the display instruction corresponding to the disease mark is received. And then both can directly observe the actual position of disease position in the three-dimensional model from the three-dimensional model, can also know the data information of disease position specifically to make the show of disease position more comprehensive, improved the bandwagon effect.

It should be noted that, the data presentation model in this embodiment is constructed according to the content in the corresponding embodiment.

Optionally, on the basis of the embodiment of the data display method, another embodiment of the present invention provides a data display device, referring to fig. 9, applied to a data display model, where the data display model is used for displaying a three-dimensional model of a bridge, and a disease identifier is set at a disease position of the three-dimensional model, where the disease identifier is used for indicating disease data information at the disease position; the data display method comprises the following steps:

the data determining module 11 is configured to determine disease data information of a disease position corresponding to the disease identifier when receiving a display instruction corresponding to the disease identifier;

a path acquisition module 12, configured to acquire a loading path of disease data information of the disease position;

and the data display module 13 is used for acquiring and displaying the disease data information of the disease position based on the loading path.

In this embodiment, when the disease position of the bridge is displayed, not only the disease mark is set at the disease position of the three-dimensional model of the bridge, but also the data information of the disease position can be displayed when the display instruction corresponding to the disease mark is received. And then both can directly observe the actual position of disease position in the three-dimensional model from the three-dimensional model, can also know the data information of disease position specifically to make the show of disease position more comprehensive, improved the bandwagon effect.

It should be noted that, in the working process of each module in this embodiment, please refer to the corresponding description in the above embodiment, and no further description is given here.

Optionally, on the basis of the embodiment of the data display device, the method further includes: a model generation module, the model generation module comprising:

the information acquisition module is used for acquiring data information of the disease position of the bridge and acquiring a three-dimensional model of the bridge; the data information comprises the disease data information;

the identification display module is used for acquiring the disease mark position of the disease position in the three-dimensional model, which is determined according to the data information of the disease position, and displaying the disease identification at the disease mark position; the disease identifier is used for indicating disease data information at the disease position.

Further, the information acquisition module includes:

the first acquisition submodule is used for acquiring disease detection data of the disease position and a disease picture of the disease position;

the second acquisition submodule is used for acquiring disease data extracted from the disease detection data of the disease position and establishing an association relationship between the disease data and the disease picture;

the format conversion sub-module is used for converting the data format of the disease data into a first preset data format and converting the data format of the disease detection data of the disease position into a second preset data format;

the data information comprises a disease picture of the disease position, disease detection data of the disease position converted into a second preset data format and disease data converted into a first preset data format and related to the disease picture of the disease position; the disease data information includes the disease picture.

Further, the identification display module is used for acquiring the disease mark position of the disease position in the three-dimensional model, which is determined according to the data information of the disease position, and is specifically used for:

and acquiring disease data which are converted into a first preset data format by a user and have association relation with the disease picture of the disease position, and selecting the disease mark position in the three-dimensional model.

Further, the model generation module further includes:

the adjusting sub-module is used for acquiring the disease marking position of the disease position redetermined according to the data information of the disease position in the three-dimensional model, and displaying the disease mark at the redetermined disease marking position;

or receiving a deleting instruction which is input by a user and used for deleting the disease mark, and deleting the disease mark.

Further, the model generation module further includes:

the layer processing sub-module is used for acquiring a layer selection instruction input by a user, responding to the layer selection instruction, displaying the target layer in the three-dimensional model and hiding layers except the target layer in the three-dimensional model; and the layer selection instruction is used for selecting a target layer to be displayed in the three-dimensional model.

Through the data display model, the corresponding relationship between the data information of the disease position and the three-dimensional model of the bridge can be established, and the combination of the disease data and the three-dimensional model is realized.

It should be noted that, in the working process of each module and sub-module in this embodiment, please refer to the corresponding description in the above embodiment, and the description is omitted here.

Optionally, on the basis of the embodiment of the data display method, another embodiment of the present invention provides an electronic device, where the electronic device is provided with a data display model, the data display model is used for displaying a three-dimensional model of a bridge, and a disease identifier is provided at a disease position of the three-dimensional model, and the disease identifier is used for indicating disease data information at the disease position; the electronic device includes: a memory and a processor;

wherein the memory is used for storing programs;

the processor invokes the program and is configured to:

under the condition of receiving a display instruction corresponding to the disease mark, determining disease data information of a disease position corresponding to the disease mark;

acquiring a loading path of disease data information of the disease position;

and acquiring and displaying disease data information of the disease position based on the loading path.

In this embodiment, when the disease position of the bridge is displayed, not only the disease mark is set at the disease position of the three-dimensional model of the bridge, but also the data information of the disease position can be displayed when the display instruction corresponding to the disease mark is received. And then both can directly observe the actual position of disease position in the three-dimensional model from the three-dimensional model, can also know the data information of disease position specifically to make the show of disease position more comprehensive, improved the bandwagon effect.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. The data display method is characterized by being applied to a data display model, wherein the data display model is used for displaying a three-dimensional model of a bridge, disease marks are arranged at disease positions of the three-dimensional model, and the disease marks are used for indicating disease data information at the disease positions; the data display method comprises the following steps:

under the condition of receiving a display instruction corresponding to the disease mark, determining disease data information of a disease position corresponding to the disease mark;

wherein the determining disease data information of the disease position corresponding to the disease mark includes: acquiring data information of a disease position of the bridge, wherein the data information comprises a disease picture of the disease position, disease detection data of the disease position converted into a second preset data format, and disease data converted into a first preset data format and associated with the disease picture of the disease position; determining disease data related to the disease picture of the disease position according to the disease detection data of the disease position; determining disease data information according to the disease data, wherein the disease data information comprises a disease picture, and the disease picture is collected photo information of a specific disease position;

acquiring a loading path of disease data information of the disease position;

and acquiring and displaying disease data information of the disease position based on the loading path.

2. The data presentation method of claim 1, wherein the process of generating the data presentation model comprises:

acquiring data information of the disease position of the bridge and acquiring a three-dimensional model of the bridge; the data information comprises the disease data information;

acquiring a disease marking position of the disease position in the three-dimensional model, which is determined according to the data information of the disease position, and displaying the disease mark at the disease marking position; the disease identifier is used for indicating disease data information at the disease position.

3. The data display method according to claim 2, wherein obtaining data information of the disease position of the bridge comprises:

acquiring disease detection data of the disease position and a disease picture of the disease position;

acquiring disease data extracted from disease detection data of the disease position, and establishing an association relationship between the disease data and the disease picture;

converting the data format of the disease data into a first preset data format, and converting the data format of the disease detection data of the disease position into a second preset data format;

the data information comprises a disease picture of the disease position, disease detection data of the disease position converted into a second preset data format and disease data converted into a first preset data format and related to the disease picture of the disease position; the disease data information includes the disease picture.

4. A data presentation method as claimed in claim 3, wherein obtaining a disease marking position of the disease position in the three-dimensional model determined from data information of the disease position comprises:

and acquiring disease data which are converted into a first preset data format by a user and have association relation with the disease picture of the disease position, and selecting the disease mark position in the three-dimensional model.

5. The data display method according to claim 2, further comprising, after the disease marker position displays the disease marker:

acquiring a disease marking position of the disease position redetermined according to the data information of the disease position in the three-dimensional model, and displaying the disease mark at the redetermined disease marking position;

or receiving a deleting instruction which is input by a user and used for deleting the disease mark, and deleting the disease mark.

6. The data presentation method according to claim 2, further comprising, after the obtaining the three-dimensional model of the bridge:

acquiring a layer selection instruction input by a user; the layer selection instruction is used for selecting a target layer to be displayed in the three-dimensional model;

and responding to the layer selection instruction, and displaying the target layer in the three-dimensional model and hiding layers except the target layer in the three-dimensional model.

7. The data display device is characterized by being applied to a data display model, wherein the data display model is used for displaying a three-dimensional model of a bridge, a disease mark is arranged at a disease position of the three-dimensional model, and the disease mark is used for indicating disease data information at the disease position; the data display device includes:

the data determining module is used for determining disease data information of a disease position corresponding to the disease mark under the condition that a display instruction corresponding to the disease mark is received;

the data determining module is specifically configured to: acquiring data information of a disease position of the bridge, wherein the data information comprises a disease picture of the disease position, disease detection data of the disease position converted into a second preset data format, and disease data converted into a first preset data format and associated with the disease picture of the disease position; determining disease data related to the disease picture of the disease position according to the disease detection data of the disease position; determining disease data information according to the disease data, wherein the disease data information comprises a disease picture, and the disease picture is collected photo information of a specific disease position;

the path acquisition module is used for acquiring a loading path of the disease data information of the disease position;

and the data display module is used for acquiring and displaying the disease data information of the disease position based on the loading path.

8. The data presentation device of claim 7, further comprising: a model generation module, the model generation module comprising:

the information acquisition module is used for acquiring data information of the disease position of the bridge and acquiring a three-dimensional model of the bridge; the data information comprises the disease data information;

the identification display module is used for acquiring the disease mark position of the disease position in the three-dimensional model, which is determined according to the data information of the disease position, and displaying the disease identification at the disease mark position; the disease identifier is used for indicating disease data information at the disease position.

9. The data presentation device of claim 8, wherein the information acquisition module comprises:

the first acquisition submodule is used for acquiring disease detection data of the disease position and a disease picture of the disease position;

the second acquisition submodule is used for acquiring disease data extracted from the disease detection data of the disease position and establishing an association relationship between the disease data and the disease picture;

the format conversion sub-module is used for converting the data format of the disease data into a first preset data format and converting the data format of the disease detection data of the disease position into a second preset data format;

the data information comprises a disease picture of the disease position, disease detection data of the disease position converted into a second preset data format and disease data converted into a first preset data format and related to the disease picture of the disease position; the disease data information includes the disease picture.

10. The electronic equipment is characterized by being provided with a data display model, wherein the data display model is used for displaying a three-dimensional model of a bridge, a disease mark is arranged at a disease position of the three-dimensional model, and the disease mark is used for indicating disease data information at the disease position; the electronic device includes: a memory and a processor;

wherein the memory is used for storing programs;

the processor invokes the program and is configured to:

under the condition of receiving a display instruction corresponding to the disease mark, determining disease data information of a disease position corresponding to the disease mark;

wherein the determining disease data information of the disease position corresponding to the disease mark includes: acquiring data information of a disease position of the bridge, wherein the data information comprises a disease picture of the disease position, disease detection data of the disease position converted into a second preset data format, and disease data converted into a first preset data format and associated with the disease picture of the disease position; determining disease data related to the disease picture of the disease position according to the disease detection data of the disease position; determining disease data information according to the disease data, wherein the disease data information comprises a disease picture, and the disease picture is collected photo information of a specific disease position;

acquiring a loading path of disease data information of the disease position;

and acquiring and displaying disease data information of the disease position based on the loading path.