CN111461363A - Mobile application system for periodic bridge inspection - Google Patents

Abstract

The invention relates to a mobile application system for regularly inspecting a bridge, which comprises: the basic data acquisition module is used for acquiring component information from the bridge data center; the disease data acquisition module is used for receiving the member selected by the user and acquiring inspection disease data from the bridge data center; the disease inspection display module is used for displaying inspection disease data; the disease data uploading module is used for receiving the disease data of the selected component newly built or updated by the user and correspondingly uploading the disease data to the bridge data center; the basic data modification module is used for receiving the updated member information of the user and correspondingly uploading the updated member information to the bridge data center; the technical condition evaluation module is used for evaluating the technical condition of the bridge; the bridge regular inspection report generation module is used for generating a bridge regular inspection report. The invention is convenient for users to acquire uniform and standardized component information and inspection fault data of the bridge from the bridge data center, efficiently creates or updates the fault data, and systematically inspects and evaluates the bridge.

Description

Mobile application system for periodic bridge inspection

Technical Field

The invention relates to the technical field of bridge inspection, in particular to a mobile application system for periodically inspecting a bridge.

Background

The bridge needs to be regularly subjected to professional daily inspection so as to carry out reasonable safety assessment on the highway bridge and make a proper maintenance scheme. At present, 3 to 4 inspectors are generally needed for bridge inspection, the bridge diseases are photographed, measured and recorded, then the photographed photos and the recorded measurement data are needed to be sorted, and the workload is complex and time-consuming. Moreover, for the outer wall and the bottom wall of the bridge, the inspectors need to take pictures, measure and record by means of the detection vehicle when arriving at the outer wall and the bottom wall of the bridge, and the working environment is dangerous, so that the working efficiency of the regular inspection of the bridge needs to be improved, and the working time of the inspectors is shortened.

In addition, because the bridge diseases are photographed, measured and recorded artificially, the inspection results have high subjectivity, and the repair and development conditions of the diseases are difficult to obtain from the inspection results obtained by different inspectors.

Disclosure of Invention

The present invention is directed to overcome at least one of the above-mentioned drawbacks (shortcomings) of the prior art, and to provide a mobile application system for bridge periodic inspection, which is convenient for a user to obtain uniform and standardized component information and inspection failure data of a bridge from a bridge data center, and efficiently establish or update failure data.

The technical scheme adopted by the invention is as follows:

a bridge periodic inspection mobile application system, comprising:

the basic data acquisition module is used for acquiring component information of the bridge from the bridge data center;

the disease data acquisition module is used for receiving a component selected by a user according to the component information acquired by the basic data acquisition module and acquiring inspection disease data corresponding to the component selected by the user from the bridge data center;

the disease inspection display module is used for displaying the inspection disease data when the disease data acquisition module acquires the inspection disease data so that a user can determine to newly build the disease data corresponding to the selected component or update the inspection disease data corresponding to the selected component;

and the disease data uploading module is used for receiving the disease data of the selected component newly built or updated by the user and correspondingly uploading the received disease data to the bridge data center.

The basic data acquisition module acquires uniform component information from the bridge data center, so that when different users newly build or update disease data on the same component, the newly built or updated disease data can be recorded under the same corresponding component information, the inspection results obtained by different users can be conveniently compared front and back, and the repair and development conditions of bridge diseases can be evaluated more objectively. When a user operates and inspects on a bridge, the disease data acquisition module acquires historical inspection disease data from the bridge data center, the disease inspection display module displays the historical inspection disease data, the user can compare the disease data on site to determine whether to create or update the disease data, and the disease data uploading module can upload the disease data created or updated by the user to a component corresponding to the bridge data center so as to acquire and display the disease data during the next inspection.

Compared with the existing bridge inspection mode of manual photographing, measuring and recording, the method can more standardize the recording of the disease data by the user, also can store the disease data in a standardized way, and the user only needs to carry out data entry on site, thereby reducing the workload of the user.

Further, the bridge periodic inspection mobile application system further comprises:

and the basic data modification module is used for receiving the updated component information of the user and correspondingly uploading the received updated component information to the bridge data center.

In field detection, the component data of the bridge acquired from the bridge data center is found to be different from the actual bridge, the updated component information can be modified and correspondingly uploaded to the bridge data center, and the component information stored in the bridge data center is adjusted to adapt to the actual bridge.

Further, the bridge periodic inspection mobile application system further comprises:

the technical condition evaluation module is used for evaluating the technical condition of the bridge according to the component information acquired by the basic data acquisition module and the inspection disease data acquired by the disease data acquisition module and a preset technical condition evaluation rule;

and/or the presence of a gas in the gas,

and the bridge regular inspection report generating module is used for generating a bridge regular inspection report according to the component information acquired by the basic data acquiring module and the inspection disease data acquired by the disease data acquiring module.

When the bridge is detected, the component information and the defect data are newly built or updated, the technical condition can be evaluated through the technical condition evaluation module according to the component information and the defect data, and a regular bridge inspection report can be generated through the bridge inspection report generation module according to the component information and the defect data, so that a user can conveniently and systematically evaluate the bridge.

Further, the disease data comprises disease basic data and disease detail data, the disease basic data comprises qualitative description information and quantitative description information, and the disease detail data comprises a disease picture;

the disease data uploading module comprises:

the qualitative description uploading module is used for receiving qualitative description information of the selected component newly built or updated by the user and correspondingly uploading the received qualitative description information to the bridge data center;

the quantitative description uploading module is used for receiving quantitative description information corresponding to the selected component newly built or updated by the user and correspondingly uploading the received quantitative description information to the bridge data center;

and the disease picture uploading module is used for receiving a disease picture corresponding to the selected component newly built or updated by the user and correspondingly uploading the received disease picture to the bridge data center.

The disease condition can be comprehensively and objectively recorded through the qualitative description information, the quantitative description information and the disease picture.

Further, the qualitative description uploading module is specifically configured to acquire qualitative description pre-options corresponding to the selected component from the bridge data center, and receive a qualitative description option selected by a user in the qualitative description pre-options.

In order to facilitate the user to record the disease qualitative description information, the qualitative description preselection corresponding to the component information is obtained from the bridge data center, and the user can select from the qualitative description preselection, so that the working efficiency of the user is greatly improved.

Further, the quantitative description uploading module is specifically configured to receive a unit system selected by a user, display a unit of quantitative description information according to the unit system selected by the user, receive quantitative description information corresponding to a selected component newly built or updated by the user, and correspondingly upload the received quantitative description information to the bridge data center.

In order to avoid errors of a unit for recording the disease quantitative description information by a user and to better specify the disease quantitative description information unit recorded by the user, the quantitative description uploading module displays units of various quantitative description information according to the unit selected by the user, so that the user can create or update the disease quantitative description information according to the displayed units.

Further, the disease picture is a disease picture shot by a user and/or a disease drawing drawn by the user;

the disease picture uploading module comprises:

the picture uploading unit is used for receiving the disease pictures corresponding to the selected component and shot by the user and correspondingly uploading the received disease pictures to the bridge data center;

and the drawing uploading unit is used for providing a drawing area, receiving a defect drawing corresponding to the selected component drawn on the drawing area by the user, and uploading the received defect drawing to the bridge center correspondingly.

Generally, the disease picture can be taken through the picture uploading unit, and the site intuition situation of the disease can be recorded. But shoot the disease photo and can have the drawback that can't take the whole, shoot angle and proportion are not unified, the distance is too far and shoot unclear, upload the unit through the drawing and provide the drawing area, the user can be drawn the disease condition in the drawing area, upload to bridge data center with the good disease drawing of user drawing again.

Further, the drawing uploading unit is specifically configured to acquire a component size and a component shape corresponding to the selected component from the bridge data center, form a drawing area according to the acquired component size and component shape, receive a defect drawing corresponding to the selected component drawn on the drawing area by a user, and upload the received defect drawing to the bridge data center.

The drawing uploading unit can acquire uniform and standardized construction sizes and commissioning shapes from the bridge data center to form a uniform and standardized drawing area, so that different users can uniformly draw diseases in the drawing area.

Further, the drawing area includes a component base drawing, a component size, and a drawing scale.

Further, the mobile application system for bridge periodic inspection also comprises a bridge information display module;

the basic data acquisition module is further used for acquiring bridge basic information of the bridge from a bridge data center, wherein the bridge basic information comprises one or more of framing condition, structural form, aperture combination and bridge deck pavement form;

and the bridge information display module is used for displaying the bridge basic information acquired by the basic data acquisition module.

The basic data acquisition module can also acquire detailed bridge basic information from the bridge data center, and the bridge information display module displays the bridge basic information, so that a user can know the bridge which is being subjected to operation inspection more comprehensively, and diseases can be recorded and evaluated more accurately.

Further, the bridge periodic inspection mobile application system further comprises:

and the condition information uploading module is used for receiving the unexpected condition information which is newly built or updated by the user and is except for the diseases, and uploading the received unexpected condition information to the bridge data center.

When a user checks the bridge diseases, the user can also find some special conditions on the bridge, such as animal carcasses, hornets and the like, and the condition information uploading module can allow the user to report the special conditions so that the special conditions can be processed in time.

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

(1) the bridge data center can carry out unified and standardized management and calling on various disease data of the bridge, the bridge regular inspection mobile application system can acquire unified component information and disease data from the bridge data center, and then the newly-built or updated disease data are uploaded to the bridge data center in a unified manner, so that great convenience is provided for management and maintenance of the bridge;

(2) the component information of the bridge data center can be updated and adjusted in real time according to the actual situation of the bridge site;

(3) the invention can more standardize the recording of the disease data by the user, also can store the disease data in a standardized way, and the user only needs to carry out the data entry work on the spot, thereby reducing the workload of the user;

(4) the bridge disease condition can be comprehensively recorded through quantitative description information, qualitative description information, disease pictures, disease drawings, state information, condition information and the like, and accurate and objective big data are provided for management and maintenance of the bridge;

(5) the invention can also automatically evaluate the technical condition of the bridge according to the preset technical condition evaluation rule and automatically generate a regular bridge inspection report according to the component information, the fault information and the like acquired from the bridge data center.

Drawings

Fig. 1 is a block diagram of a mobile application system for bridge periodic inspection according to an embodiment of the present invention.

Fig. 2 is a schematic diagram of data transmission between a bridge data center and a bridge periodic inspection mobile application system according to an embodiment of the present invention.

Fig. 3 is a block diagram of another bridge periodic inspection mobile application system according to an embodiment of the present invention.

Fig. 4 is a block diagram of another bridge periodic inspection mobile application system according to an embodiment of the present invention.

Detailed Description

The drawings are only for purposes of illustration and are not to be construed as limiting the invention. For a better understanding of the following embodiments, certain features of the drawings may be omitted, enlarged or reduced, and do not represent the size of an actual product; it will be understood by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted.

In one embodiment, the mobile application system 100 for bridge periodic inspection is provided, and a user of the mobile application system 100 for bridge periodic inspection may be an inspector who inspects a bridge, an inspector who checks a bridge for disease treatment, or the like, and may be a constructor, an administrator, an owner, or the like.

As shown in fig. 1, the bridge periodic inspection mobile application system 100 includes:

a basic data acquisition module 110, configured to acquire component information of a bridge from the bridge data center 200;

a disease data obtaining module 120, configured to receive a component selected by a user according to the component information obtained by the basic data obtaining module 110, and obtain inspection disease data corresponding to the component selected by the user from the bridge data center 200;

a defect inspection display module 130, configured to display inspection defect data when the defect data acquisition module 120 acquires the inspection defect data, so that a user determines to newly create defect data corresponding to the selected component or update the inspection defect data corresponding to the selected component;

the disease data uploading module 140 is configured to receive disease data corresponding to the component information acquired by the basic data acquiring module 110 newly built or updated by the user, and correspondingly upload the received disease data to the bridge data center 200.

The basic data acquisition module 110 acquires uniform and standardized component information from the bridge data center 200, so that when different users newly build or update disease data on the same component, the newly built or updated disease data can be recorded under the same corresponding component information, thereby facilitating the front-back comparison of inspection results obtained by different users and more objectively evaluating the repair and development conditions of bridge diseases. When a user performs operation inspection on a bridge, the disease data acquisition module 120 acquires historical inspection disease data from the bridge data center 200, the disease inspection display module 130 displays the historical inspection disease data, the user can compare the disease data on site to determine whether the currently inspected disease is a new disease or an old disease, if the currently inspected disease is the new disease, the disease data is newly created, if the currently inspected disease is the old disease, the disease is not obviously developed, and the repair condition is not changed, the disease data can be kept unchanged, if the currently inspected disease is the old disease, the disease is obviously developed, or the old disease is changed, the disease data can be updated, and the newly created or updated disease data is uploaded to the corresponding component information of the bridge data center 200 so as to be acquired and displayed in the next inspection. Compared with the existing bridge inspection mode of manual photographing, measuring and recording, the method can more standardize the recording of the disease data by the user, also can store the disease data in a standardized way, and the user only needs to carry out data entry on site, thereby reducing the workload of the user.

The bridge periodic inspection mobile application system 100 may further include:

the basic data modification module 150 is configured to receive component information updated by a user, and correspondingly upload the received updated component information to the bridge data center 200.

In the field test, the component data of the bridge acquired from the bridge data center 200 is found to be different from the actual bridge, the updated component information can be modified and correspondingly uploaded to the bridge data center 200, and the component information stored in the bridge data center 200 is adjusted to adapt to the actual bridge.

Fig. 2 is a schematic diagram illustrating data transmission between the bridge periodic inspection mobile application system 100 and the bridge data center 200. The component information may include a component number, a part to which the component belongs, and the like. The disease data can include disease basic data and disease detail data, the disease basic data includes qualitative description information and quantitative description information, and the disease detail data includes disease pictures. The disease profile may also include status information, which may include one or more of disease importance, disease nature, and maintenance status.

As shown in fig. 3, in an embodiment, the disease data uploading module 140 may include:

the qualitative description uploading module 141 is configured to receive qualitative description information corresponding to the selected component newly created or updated by the user, and correspondingly upload the received qualitative description information to the bridge data center 200;

the quantitative description uploading module 142 is configured to receive quantitative description information corresponding to the selected component newly created or updated by the user, and correspondingly upload the received quantitative description information to the bridge data center 200;

the disease picture uploading module 143 is configured to receive a disease picture corresponding to the selected component newly created or updated by the user, and correspondingly upload the received disease picture to the bridge data center 200;

the status information uploading module 144 is configured to receive status information of a selected component newly created or updated by a user, and correspondingly upload the received status information to the bridge data center 200.

The qualitative description information can comprise disease positions (such as a large pile number side, a small pile number side, a diaphragm plate and the like), disease types (such as a reticular crack, a single crack and the like) and the like; the quantitative description information can comprise the size of the disease, the grade of the disease obtained according to the disease judgment rule and the like; the importance of the diseases can be comprehensively obtained according to the risk and the severity of the diseases, and can be divided into two grades of common diseases and important diseases; the disease property can be defined as new disease, old disease or bad disease repair according to the condition of the disease; the maintenance state can record which state the disease is in to be repaired, in repair or in repaired state according to the current condition of the disease. The disease condition can be comprehensively and objectively recorded through the qualitative description information, the quantitative description information, the disease picture and the state information.

In an embodiment, the qualitative description uploading module 141 is specifically configured to obtain qualitative description pre-selection items corresponding to the selected component from the bridge data center 200, and receive the qualitative description selection item selected by the user in the qualitative description pre-selection items.

In order to facilitate the user to record the qualitative description information of the disease, the qualitative description pre-selection item corresponding to the component information is acquired from the bridge data center 200, and the user can select the qualitative description pre-selection item, so that the working efficiency of the user is greatly improved.

If a preselected item of a disease position is provided according to the component information corresponding to the disease: a large pile size side, a small pile size side and a diaphragm plate; providing possible pre-options of the disease type according to the component information corresponding to the disease: reticular cracks, transverse cracks, vertical cracks and oblique cracks.

In an embodiment, the quantitative description uploading module 142 is specifically configured to receive a unit system selected by a user, display a unit of quantitative description information according to the unit system selected by the user, receive quantitative description information corresponding to a selected component newly created or updated by the user, and correspondingly upload the received quantitative description information to the bridge data center 200.

In order to avoid errors in the unit for recording the quantitative disease description information by the user and to better specify the unit for recording the quantitative disease description information by the user, the quantitative description uploading module 142 displays the units of the quantitative disease description information according to the unit selected by the user, so that the user creates or updates the quantitative disease description information according to the displayed units.

The unit system may be a unified international unit system or may be a predefined pattern. If the unit selected by the user is a mode one, the unit of the length and the width of the crack is mm, and the filling positions of the length and the width of the crack are both displayed as mm; if the unit system selected by the user is the mode two, the length unit of the crack is m, the width unit is mm, the length filling part of the crack displays the m, and the width filling part of the crack displays the mm.

In one embodiment, the bridge periodic inspection mobile application system 100 further comprises:

and the text description uploading module is used for receiving text description information corresponding to the selected component newly built or updated by the user and correspondingly uploading the received text description information to the bridge data center 200.

Through the text description uploading module, when the disease condition cannot be described by quantitative description information, qualitative description information and disease pictures, a user can conveniently increase text description information and improve the flexibility of disease data recording.

In one embodiment, the disease picture is a disease photo taken by the user and/or a disease drawing drawn by the user;

the disease picture uploading module 143 includes:

the photo uploading unit 1431 is configured to receive a defect photo corresponding to the selected component, which is taken by the user, and correspondingly upload the received defect photo to the bridge data center 200;

the drawing uploading unit 1432 is configured to provide a drawing area, receive a defect drawing corresponding to the selected component drawn on the drawing area by the user, and upload the received defect drawing to the bridge data center 200.

Generally, a picture of the disease can be taken through the picture uploading unit 1431, and the site intuition situation of the disease can be recorded. But take the disease photo and can have the drawback that can't take the whole, shoot angle and proportion are not unified, the distance is too far and shoot unclear, upload the unit 1432 through the drawing and provide the drawing area, the user can draw out the disease condition in the drawing area, upload the disease drawing that the user painted to bridge data center 200 again.

In one embodiment, the drawing uploading unit 1432 is specifically configured to acquire the component size and the component shape corresponding to the selected component from the bridge data center 200, form a drawing area according to the acquired component size and the acquired component shape, receive a defect drawing corresponding to the selected component drawn on the drawing area by the user, and upload the received defect drawing to the bridge data center 200.

The drawing area may include a component floor plan, component dimensions, and drawing scale.

The drawing upload unit 1432 may obtain a uniform and standardized build size and a build shape from the bridge data center 200 to form a uniform and standardized drawing area, so that different users may draw diseases in the drawing area uniformly.

Specifically, the drawing uploading unit 1432 obtains the component size and the component shape corresponding to the selected component from the bridge data center 200, outlines a component base map of a middle blank according to the component shape, and marks the component size and the drawing scale correspondingly beside the component base map, so that the user can draw a defect in the middle blank of the component base map.

As shown in fig. 4, in one embodiment, the bridge periodic inspection mobile application system 100 further includes a bridge information display module 160;

the basic data acquisition module 110 is further configured to acquire bridge basic information of the bridge from the bridge data center 200, where the bridge basic information includes one or more of framing condition, structural form, aperture combination, and bridge deck pavement form;

the bridge information display module 160 is configured to display the bridge basic information acquired by the basic data acquisition module 110.

The basic data acquiring module 110 may further acquire detailed bridge basic information from the bridge data center 200, and the bridge information displaying module 160 displays the bridge basic information, so that a user can more comprehensively know the bridge undergoing operation inspection, and thus, more accurate recording and evaluation can be performed on the fault.

In one embodiment, the bridge periodic inspection mobile application system 100 further comprises:

the condition information uploading module 170 is configured to receive unexpected condition information, which is newly created or updated by the user, except for the disease, and upload the received unexpected condition information to the bridge data center 200.

When the user checks the bridge for diseases, the user may also find some special conditions on the bridge, such as finding animal carcasses, hornets, etc., and the condition information uploading module 170 may allow the user to report the special conditions, so that the special conditions may be processed in time. The incident information may be an incident photograph taken by the user.

In one embodiment, the bridge periodic inspection mobile application system 100 further comprises:

the technical condition evaluation module 180 is configured to evaluate the technical condition of the bridge according to a preset technical condition evaluation rule, based on the component information acquired by the basic data acquisition module 110, the bridge basic information, and the inspection defect data acquired by the defect data acquisition module 120.

In one embodiment, the bridge periodic inspection mobile application system 100 further comprises:

the bridge scheduled inspection report generating module 190 is configured to generate a bridge scheduled inspection report according to the component information acquired by the basic data acquiring module 110, the bridge basic information, and the inspection defect data acquired by the defect data acquiring module 120.

The bridge periodic inspection report generation module 190 may be further configured to add the result of the technical condition evaluation performed by the technical condition evaluation module 180 to the bridge periodic inspection report.

One preferred implementation may be: the basic data acquisition module 110 acquires component information of the bridge, including a component number, a component to which each component belongs, and the like, from the bridge data center 200, and a user selects one component from the component information. The disease data obtaining module 120 may receive a component selected by a user, and obtain inspection disease data corresponding to the selected component from the bridge data center 200, where the inspection disease data includes disease basic data and disease detail data, where the disease basic data includes qualitative description information, quantitative description information, disease importance, disease property, and maintenance state, and the disease detail data includes a disease picture. The disease inspection display module 130 displays the inspection disease data, and a user can compare the disease data on site, determine whether the currently inspected disease is a new disease or an old disease, and determine whether to create new disease data or update the disease data. The disease data uploading module 140 may receive the disease data newly created or updated by the user, and correspondingly upload the newly created or updated disease data to a component selected by the user of the bridge data center 200.

When a user creates or updates disease data, the qualitative description uploading module 141, the quantitative description uploading module 142 and the disease picture uploading module 143 receive qualitative description information, quantitative description information and disease pictures created or updated by the user respectively.

When a user newly builds or updates qualitative description information, the qualitative description uploading module 141 can acquire a plurality of qualitative description pre-options from the bridge data center 200, when a disease position in the qualitative description information is newly built or updated, the user can select one of the pre-options such as "big pile size side", "small pile size side", "diaphragm plate", and when a disease type in the qualitative description information is newly built or updated, the user can select one of the pre-options such as "net crack", "transverse crack", "vertical crack", "oblique crack". The qualitative description uploading module 141 may also obtain a corresponding qualitative description pre-selection item from the bridge data center 200 for the type of the component selected by the user, such as a beam or a column or the like, even specific to a specific component, and provide different qualitative description pre-selection items.

When a user creates or updates the quantitative description information, the user selects a unit system first, and the quantitative description uploading module 142 can display the unit of the quantitative description information in advance according to the unit system selected by the user, so that the user can create or update the quantitative description information according to the displayed unit.

The disease picture in the disease detail data can be a disease picture or a disease drawing. After the user takes the disease photo, the disease photo is uploaded to the bridge data center 200 through the photo uploading unit 1431. The user can also draw the situation before the disease into a disease drawing in the drawing area provided by the drawing uploading unit 1432, and upload the disease drawing to the bridge data center 200 through the drawing uploading unit 1432.

The drawing uploading unit 1432 may obtain the component size and the component shape from the bridge data center 200 when providing the drawing area, draw a component base map of a middle blank according to the component shape, mark the component size and the drawing scale beside the component base map correspondingly, and the user may draw a disease in the middle blank of the component base map.

When a user newly builds or updates disease data, the user can record the importance of diseases, the nature of diseases and the maintenance state of diseases through the state information uploading module 144.

When the user finds that the actual bridge does not match the component information and/or the bridge foundation information acquired from the bridge data center 200, the component information and/or the bridge foundation information in the bridge data center 200 may be updated by the foundation data modification module 150.

The user can also see the detailed bridge foundation information of the currently checked bridge through the bridge information display module 160, including the basic information such as framing condition, structural form, aperture combination, bridge deck pavement form, and the like.

The user may also upload the special situations found on the bridge to the bridge data center 200 through the status information upload module 170, for example, the user may take a picture of the found special situations and upload the same, if finding animal carcasses or hornets.

After the bridge is detected, the technical condition evaluation module 180 can evaluate the technical condition according to the updated member information, the updated bridge basic information and the inspection fault data.

The bridge periodic inspection report generating module 190 may generate a bridge periodic inspection report according to the component information and the bridge basic information acquired by the basic data acquiring module 110, the inspection defect data acquired by the defect data acquiring module 120, and the result of the technical condition evaluation performed by the technical condition evaluating module 180.

It should be understood that the above-mentioned embodiments of the present invention are only examples for clearly illustrating the technical solutions of the present invention, and are not intended to limit the specific embodiments of the present invention. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention claims should be included in the protection scope of the present invention claims.

Claims (10)

1. A bridge periodic inspection mobile application system, comprising:

the basic data acquisition module is used for acquiring component information of the bridge from the bridge data center;

the disease data acquisition module is used for receiving a component selected by a user according to the component information acquired by the basic data acquisition module and acquiring inspection disease data corresponding to the component selected by the user from the bridge data center;

the disease inspection display module is used for displaying the inspection disease data when the disease data acquisition module acquires the inspection disease data so that a user can determine to newly build the disease data corresponding to the selected component or update the inspection disease data corresponding to the selected component;

and the disease data uploading module is used for receiving the disease data of the selected component newly built or updated by the user and correspondingly uploading the received disease data to the bridge data center.

2. The system of claim 1, further comprising:

and the basic data modification module is used for receiving the updated component information of the user and correspondingly uploading the received updated component information to the bridge data center.

3. The bridge periodic inspection mobile application system according to claim 1 or 2, further comprising:

the technical condition evaluation module is used for evaluating the technical condition of the bridge according to the component information acquired by the basic data acquisition module and the inspection disease data acquired by the disease data acquisition module and a preset technical condition evaluation rule;

and/or the presence of a gas in the gas,

and the bridge regular inspection report generating module is used for generating a bridge regular inspection report according to the component information acquired by the basic data acquiring module and the inspection disease data acquired by the disease data acquiring module.

4. The mobile application system for periodic bridge inspection according to claim 1, wherein the disease data includes disease basic data and disease detail data, the disease basic data includes qualitative description information and quantitative description information, and the disease detail data includes disease pictures;

the disease data uploading module comprises:

the qualitative description uploading module is used for receiving qualitative description information of the selected component newly built or updated by the user and correspondingly uploading the received qualitative description information to the bridge data center;

the quantitative description uploading module is used for receiving quantitative description information corresponding to the selected component newly built or updated by the user and correspondingly uploading the received quantitative description information to the bridge data center;

and the disease picture uploading module is used for receiving a disease picture corresponding to the selected component newly built or updated by the user and correspondingly uploading the received disease picture to the bridge data center.

5. The system according to claim 4, wherein the qualitative description uploading module is specifically configured to obtain qualitative description pre-selection items corresponding to the selected component from the bridge data center, and receive the qualitative description selection item selected by the user from the qualitative description pre-selection items.

6. The system according to claim 4, wherein the quantitative description uploading module is specifically configured to receive a unit system selected by a user, display a unit of quantitative description information according to the unit system selected by the user, receive quantitative description information corresponding to a selected component newly created or updated by the user, and correspondingly upload the received quantitative description information to the bridge data center.

7. The bridge periodic inspection mobile application system of claim 4, wherein the disease picture is a disease photo taken by a user and/or a disease drawing drawn by the user;

the disease picture uploading module comprises:

the picture uploading unit is used for receiving the disease pictures corresponding to the selected component and shot by the user and correspondingly uploading the received disease pictures to the bridge data center;

and the drawing uploading unit is used for providing a drawing area, receiving a defect drawing corresponding to the selected component drawn on the drawing area by the user, and uploading the received defect drawing to the bridge center correspondingly.

8. The system according to claim 7, wherein the map uploading unit is specifically configured to acquire a component size and a component shape corresponding to the selected component from the bridge data center, form a drawing area according to the acquired component size and component shape, receive a defect map corresponding to the selected component drawn on the drawing area by a user, and upload the received defect map to the bridge data center.

9. The mobile application system for periodic inspection of a bridge of claim 8, wherein the drawing area comprises a component base drawing, component dimensions and drawing scale.

10. The mobile application system for periodic inspection of bridges of claim 1, further comprising a bridge information display module;

the basic data acquisition module is further used for acquiring bridge basic information of the bridge from a bridge data center, wherein the bridge basic information comprises one or more of framing condition, structural form, aperture combination and bridge deck pavement form;

and the bridge information display module is used for displaying the bridge basic information acquired by the basic data acquisition module.

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