CN117910691A - Engineering quality detection system - Google Patents

Abstract

The invention relates to the technical field of quality detection, and discloses an engineering quality detection system, which comprises: the route determining module and the security inspection module; the route determining module is used for generating a target inspection route according to the terrain of the target engineering and sending the target inspection route to the security inspection module; and the security inspection module is used for displaying the target inspection route so that a security inspection user can carry out quality inspection on the target engineering according to the displayed target inspection route. Compared with the existing engineering quality detection technology, the method and the system can generate the target inspection route customized by the target engineering according to the target engineering to be detected, so that a security inspection user can perform field inspection of the target engineering quality according to the target inspection route, and the potential safety hazard of missed inspection is avoided.

Description

Engineering quality detection system

Technical Field

The invention relates to the technical field of quality detection, in particular to an engineering quality detection system.

Background

In the traditional engineering quality safety management, when the quality and safety conditions of a construction site are required to be checked, an inspector of an enterprise or a project department is required to inspect the construction site according to the content to be inspected, however, the inspector is more autonomous in inspecting the content, the inspected part and the inspected frequency of the site, inspection data are easy to cheat, and inspection points which are easy to leak exist are easy to inspect, so that the existing engineering quality detection process is easy to leak inspection, and the potential safety hazard is large.

The foregoing is provided merely for the purpose of facilitating understanding of the technical solutions of the present invention and is not intended to represent an admission that the foregoing is prior art.

Disclosure of Invention

The invention mainly aims to provide an engineering quality detection system, which aims to solve the technical problems that the existing engineering quality detection process is easy to generate missed detection and has large potential safety hazard.

To achieve the above object, the present invention provides an engineering quality inspection system including: the route determining module and the security inspection module;

the route determining module is used for generating a target inspection route according to the terrain of the target engineering and sending the target inspection route to the security inspection module;

the security inspection module is used for displaying the target inspection route so that a security inspection user can conduct quality inspection on the target engineering according to the displayed target inspection route.

Optionally, the route determining module is further configured to obtain a detection key point determined by the patrol user according to the topography of the target project;

The route determining module is further configured to generate the target routing inspection route according to the detection key point, and send the target routing inspection route and the detection key point to the security inspection module;

The security inspection module is further used for displaying the target inspection route and the detection key points, so that the security inspection user can conduct quality detection on the target engineering according to the displayed target inspection route and the detection key points.

Optionally, the route determining module is further configured to obtain inspection parameters input by the inspection user;

The route determining module is further configured to generate the target inspection route according to the detection key point and the inspection parameter, and send the detection key point, the inspection parameter and the target inspection route to the security inspection module;

The security inspection module is further used for displaying the target inspection route, target inspection parameters and target detection key points corresponding to the current security inspection user, so that the current security inspection user can carry out quality detection on the target engineering according to the displayed target inspection route, the displayed target inspection parameters and the displayed target detection key points.

Optionally, the route determining module is further configured to generate a routing inspection identifier according to the detection key point, the routing inspection parameter and the target routing inspection route;

the security inspection module is used for acquiring the inspection identification code, and acquiring the target inspection route, the target inspection parameters corresponding to the current security inspection user and the target detection key points according to the inspection identification code.

Optionally, the engineering quality detection system further comprises: a rectifying module;

The security inspection module is further used for determining a correction key point and a correction scheme according to the quality detection result of the target engineering, and sending the correction key point and the correction scheme to the correction module;

The modification module is used for displaying the modification scheme and the modification key points so that a modification user carries out quality modification on the target engineering according to the modification scheme and the modification key points;

The correction module is further configured to receive a correction result fed back by the correction user after quality correction, and send the correction result to the corresponding security inspection module.

Optionally, the security inspection module is further configured to display the modification result, so that the security inspection user determines a modification verification result according to the displayed modification result;

The security inspection module is further configured to send, when there is an abnormal correction key point that the correction verification result does not pass, the abnormal correction key point and a corresponding rechecking correction scheme to the correction module corresponding to the abnormal correction key point;

The correction module is further configured to display the rechecking correction scheme and the abnormal correction key point, so that a target correction user corresponding to the abnormal correction key point performs quality correction on the target engineering again according to the rechecking correction scheme;

the correction module is further configured to receive a correction result fed back by the target correction user after quality correction is performed on the target engineering according to the correction scheme, and send the correction result to the corresponding security module, so that the security user corresponding to the corresponding security module determines a correction verification result according to the correction result.

Optionally, the engineering quality detection system further comprises: a data interaction module;

the security inspection module is further configured to send the quality detection result, the correction verification result or the rechecking correction verification result to the data interaction module;

The data interaction module is used for determining whether the current inspection flow is a closed loop inspection flow according to the correction verification result or the rechecking correction verification result.

Optionally, the engineering quality detection system further comprises: a management module;

the route determining module is further configured to send the detection key point, the inspection parameter and the target inspection route to the data interaction module;

The security inspection module is further configured to send the modification key point, the modification scheme and the review modification scheme to the data interaction module;

the management module is used for traversing the data interaction module according to a preset period and judging whether a timeout non-closed loop inspection flow exceeding an inspection period exists in the data interaction module;

And the management module is also used for acquiring a target project to be completed and a routing inspection key point to be completed corresponding to the overtime non-closed loop routing inspection process from the data interaction module if the target project is the same as the routing inspection process, and sending the routing inspection key point to be completed to the corresponding security inspection module or the rectifying module.

Optionally, the management module is further configured to obtain, when the to-be-completed inspection key point is a timeout detection key point, a timeout inspection parameter and a timeout inspection route corresponding to the timeout detection key point from the data interaction module;

The management module is further configured to send the timeout detection key point, the timeout inspection parameter and the timeout inspection route to a security inspection module corresponding to the timeout detection key point, so that a timeout security inspection user corresponding to the timeout detection key point performs quality inspection on the target project to be completed according to the displayed timeout inspection route, the timeout inspection parameter and the timeout detection key point.

Optionally, the management module is further configured to obtain, when the to-be-completed inspection key point is a timeout correction key point, a timeout correction scheme or a timeout rechecking correction scheme corresponding to the timeout correction key point from the data interaction module;

The management module is further configured to send the timeout changing key point and the timeout changing scheme, or the timeout changing key point and the timeout checking changing scheme to a changing module corresponding to the timeout changing key point, so that a timeout changing user corresponding to the timeout changing key point performs quality changing on the target project to be completed according to the displayed timeout changing scheme or the timeout checking changing scheme.

The invention discloses an engineering quality detection system, which comprises: the route determining module and the security inspection module; the route determining module is used for generating a target inspection route according to the terrain of the target engineering and sending the target inspection route to the security inspection module; the security inspection module is used for displaying the target inspection route so that a security inspection user can conduct quality inspection on the target engineering according to the displayed target inspection route. The route determining module is also used for acquiring detection key points determined by the patrol user according to the terrain of the target engineering; the route determining module is further configured to generate the target routing inspection route according to the detection key point, and send the target routing inspection route and the detection key point to the security inspection module; the security inspection module is further used for displaying the target inspection route and the detection key points, so that the security inspection user can conduct quality detection on the target engineering according to the displayed target inspection route and the detection key points. The route determining module is also used for acquiring the inspection parameters input by the inspection user; the route determining module is further configured to generate the target inspection route according to the detection key point and the inspection parameter, and send the detection key point, the inspection parameter and the target inspection route to the security inspection module; the security inspection module is further used for displaying the target inspection route, target inspection parameters and target detection key points corresponding to the current security inspection user, so that the current security inspection user can carry out quality detection on the target engineering according to the displayed target inspection route, the displayed target inspection parameters and the displayed target detection key points. The route determining module is further used for generating a routing inspection identification code according to the detection key points, the routing inspection parameters and the target routing inspection route; the security inspection module is used for acquiring the inspection identification code, and acquiring the target inspection route, the target inspection parameters corresponding to the current security inspection user and the target detection key points according to the inspection identification code. Compared with the existing engineering quality detection technology, the method and the system can generate the target inspection route customized by the target engineering according to the target engineering to be detected, so that a security inspection user can perform field inspection of the target engineering quality according to the target inspection route, and the potential safety hazard of missed inspection is avoided. Meanwhile, the invention can ensure that security inspection users can carry out accurate inspection according to the target inspection parameters and the target detection key points, and the specific responsible person of the inspection process is clear, so that the detection efficiency of engineering quality detection is improved.

Drawings

FIG. 1 is a block diagram of a first embodiment of an engineering quality inspection system according to the present invention;

FIG. 2 is a block diagram of a second embodiment of an engineering quality inspection system according to the present invention;

FIG. 3 is a flow chart of a second embodiment of the project quality detection system of the present invention;

FIG. 4 is a block diagram of a third embodiment of an engineering quality inspection system according to the present invention.

The achievement of the objects, functional features and advantages of the present invention will be further described with reference to the accompanying drawings, in conjunction with the embodiments.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the invention. 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.

It should be noted that all directional indicators (such as up, down, left, right, front, and rear are used in the embodiments of the present invention) are merely for explaining the relative positional relationship, movement conditions, and the like between the components in a certain specific posture (as shown in the drawings), and if the specific posture is changed, the directional indicators are changed accordingly.

Furthermore, the description of "first," "second," etc. in this disclosure is for descriptive purposes only and is not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions of the embodiments may be combined with each other, but it is necessary to base that the technical solutions can be realized by those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should be considered to be absent and not within the scope of protection claimed in the present invention.

The embodiment of the invention provides an engineering quality detection system, and referring to fig. 1, fig. 1 is a structural block diagram of a first embodiment of the engineering quality detection system.

It should be understood that, when quality and safety conditions of a construction site are inspected, inspection personnel of an enterprise or a project department generally carry out inspection to the construction site according to inspection contents. However, the inspection process is rough in management, the inspection target is not fine enough, and especially for people with poor professional experience, the condition of missed inspection or false inspection often occurs due to unclear inspection flow, so that inspection work is difficult to develop, inspection precision is poor, engineering faults are easy to occur, and the situation that engineering faults cannot be found in time is easy to occur, and potential safety hazard is large.

Therefore, in order to avoid the above situation, as shown in fig. 1, in this embodiment, the engineering quality detection system includes: a route determination module 10 and a security check module 20;

The route determining module 10 is configured to generate a target inspection route according to a topography of a target project, and send the target inspection route to the security inspection module 20;

the security inspection module 20 is configured to display the target inspection route, so that a security inspection user performs quality inspection on the target engineering according to the displayed target inspection route.

It should be noted that, the target project may be a project to be inspected on a construction site, and the project quality detection system in this embodiment may be applied to on-site inspection of any project. It is easy to understand that the positions to be detected are different when different projects carry out on-site inspection, so that the embodiment can generate a corresponding matched target inspection route according to the topography of the target projects so as to carry out on-site inspection based on the customized target inspection route, avoid missing inspection and improve the detection precision. The security inspection module 20 may be a terminal device of a security inspection user, and may take real-time images of violations existing in the target inspection route during the inspection process of the security inspection user, and upload the found violations and violations photos, thereby completing the engineering quality inspection.

It should be understood that, considering different terrains of various projects, the positions of the key parts are different, and the present embodiment may customize the target inspection route according to the detection key points, so that the corresponding staff may perform accurate inspection according to the target inspection route and the detection key points, so further, in this embodiment, the route determining module 10 is further configured to obtain the detection key points determined by the inspection user according to the terrains of the target projects;

the route determining module 10 is further configured to generate the target routing route according to the detection key point, and send the target routing route and the detection key point to the security inspection module 20;

The security inspection module 20 is further configured to display the target inspection route and the detection key point, so that the security inspection user performs quality inspection on the target project according to the displayed target inspection route and the displayed detection key point.

It should be noted that, because the existing inspector is more autonomous to the inspection content, the inspection part and the inspection frequency of the site, the inspection data is easy to cheat, and the phenomenon of inspection is easy to occur. That is, the existing engineering detection technology does not have a perfect supervision system, so that the responsibility of the inspector to the engineering inspection is not high, and in order to define the specific responsible person of the inspection process, in this embodiment, the route determining module 10 is further configured to obtain the inspection parameters input by the inspection user;

the route determining module 10 is further configured to generate the target inspection route according to the detection key point and the inspection parameter, and send the detection key point, the inspection parameter, and the target inspection route to the security inspection module 20;

The security inspection module 20 is further configured to display the target inspection route and a target inspection parameter and a target inspection key point corresponding to a current security inspection user, so that the current security inspection user performs quality inspection on the target engineering according to the displayed target inspection route, the displayed target inspection parameter and the displayed target inspection key point.

It should be understood that the above inspection parameters may include: therefore, in this embodiment, each security inspection user can obtain a specific target inspection route through the security inspection module 20, and the target detection key points, the route names, the inspection frequency, the inspection personnel and the inspection time corresponding to each security inspection user one by one, by which the inspection process can be implemented to individuals, thereby preventing the cheating of inspection data, defining the responsible person of each detection key point, and further improving the responsibility of the security inspection personnel.

Further, in this embodiment, the route determining module 10 is further configured to generate a routing inspection identifier according to the detection key point, the routing inspection parameter, and the target routing inspection route;

The security inspection module 20 is configured to obtain the inspection identifier, and obtain the target inspection route, and a target inspection parameter and a target detection key point corresponding to the current security inspection user according to the inspection identifier.

It can be understood that, in addition to the above operation of directly sending the inspection route to the security inspection user, the present embodiment may also be based on generating an identification code, and setting the identification code into the project to be inspected to be matched. When the engineering inspection is formally required, the inspection module 20 of the security inspection user immediately acquires the inspection route in a mode of scanning the identification code or downloading the identification code.

The embodiment discloses an engineering quality detection system, the engineering quality detection system includes: the route determining module and the security inspection module; the route determining module is used for generating a target inspection route according to the terrain of the target engineering and sending the target inspection route to the security inspection module; the security inspection module is used for displaying the target inspection route so that a security inspection user can conduct quality inspection on the target engineering according to the displayed target inspection route. The route determining module is also used for acquiring detection key points determined by the patrol user according to the terrain of the target engineering; the route determining module is further configured to generate the target routing inspection route according to the detection key point, and send the target routing inspection route and the detection key point to the security inspection module; the security inspection module is further used for displaying the target inspection route and the detection key points, so that the security inspection user can conduct quality detection on the target engineering according to the displayed target inspection route and the detection key points. The route determining module is also used for acquiring the inspection parameters input by the inspection user; the route determining module is further configured to generate the target inspection route according to the detection key point and the inspection parameter, and send the detection key point, the inspection parameter and the target inspection route to the security inspection module; the security inspection module is further used for displaying the target inspection route, target inspection parameters and target detection key points corresponding to the current security inspection user, so that the current security inspection user can carry out quality detection on the target engineering according to the displayed target inspection route, the displayed target inspection parameters and the displayed target detection key points. The route determining module is further used for generating a routing inspection identification code according to the detection key points, the routing inspection parameters and the target routing inspection route; the security inspection module is used for acquiring the inspection identification code, and acquiring the target inspection route, the target inspection parameters corresponding to the current security inspection user and the target detection key points according to the inspection identification code. Compared with the existing engineering quality detection technology, the method and the device can generate the target inspection route customized by the target engineering according to the target engineering to be detected, so that a security inspection user can perform field inspection of the target engineering quality according to the target inspection route, and the potential safety hazard of missed inspection is avoided. Meanwhile, according to the method and the device, the security inspection user can conduct accurate inspection according to the target inspection parameters and the target detection key points, specific responsibility people of the inspection process are clear, and the detection efficiency of engineering quality detection is improved.

Referring to fig. 2, fig. 2 is a block diagram of a second embodiment of the engineering quality inspection system according to the present invention, and the second embodiment of the engineering quality inspection system according to the present invention is proposed based on the embodiment shown in fig. 1.

It can be understood that in the existing engineering quality safety detection process, after the safety inspection user performs quality safety detection on an engineering site, since no clear responsible person performs tracking verification of the rectification effect, the issued rectification cannot be effectively tracked, so that measures are not really implemented, the rectification implementation effect is poor, and the effectiveness of engineering quality detection is further reduced. Thus, as shown in fig. 2, in this embodiment, the engineering quality detection system further includes: a rectification module 30;

The security inspection module 20 is further configured to determine a modification key point and a modification scheme according to a quality detection result of the target engineering, and send the modification key point and the modification scheme to the modification module 30;

The modification module 30 is configured to display the modification scheme and the modification key point, so that a modification user performs quality modification on the target engineering according to the modification scheme and the modification key point;

The modifying module 30 is further configured to receive a modifying result fed back by the modifying user after quality modification, and send the modifying result to the corresponding security module 20.

It should be understood that the modification key point may be a detection key point of the security inspection user according to the illegal operation or the potential safety hazard determined in the on-site inspection process, the corresponding modification scheme may be modification measures, modification time limit and modification responsibility corresponding to the modification key point, and the modification module 30 may be a mobile terminal corresponding to the modification user. Based on the above, the embodiment can enable the security inspection user to determine the corresponding modification scheme based on the discovered modification key points, and issue the modification key points and the modification scheme to the specific modification user, and form the patrol record so as to advance the modification work with high quality and high efficiency.

It should be noted that, after the correction user performs correction aiming at the correction key points and the correction scheme issued by the security inspection user, the correction reply condition and the correction reply photo, that is, the correction result, can be uploaded to form a closed-loop mobile inspection.

Further, in this embodiment, the security inspection module 20 is further configured to display the modification result, so that the security inspection user determines a modification verification result according to the displayed modification result.

The security check module 20 is further configured to send, when there is an abnormal correction key point that the correction verification result is not passed, the abnormal correction key point and a corresponding rechecking correction scheme to the correction module 30 corresponding to the abnormal correction key point;

The modifying module 30 is further configured to display the rechecking modification scheme and the abnormal modification key point, so that a target modifying user corresponding to the abnormal modification key point performs quality modification on the target project again according to the rechecking modification scheme;

The modifying module 30 is further configured to receive a re-checking modifying result fed back by the target modifying user after quality modification of the target project according to the re-checking modifying scheme, and send the re-checking modifying result to the corresponding security module 20, so that the security user corresponding to the corresponding security module 20 determines a re-checking modifying verification result according to the re-checking modifying result.

It is to be understood that after the correction user corrects the correction key points based on the correction scheme, the correction effect is checked by the corresponding security check user, and the correction check result is determined. When the correction verification result is passed, the current target engineering quality detection can be judged to be completed, and a quality detection flow closed loop is formed. However, when the verification result of the modification is failed, the modification module 30 corresponding to the abnormal modification key point is required to send the abnormal modification key point and the corresponding rechecking modification scheme, which are failed in the verification result of the modification, to the target modification module, so that the target modification user corresponding to the abnormal modification key point again performs quality modification on the target project according to the rechecking modification scheme, until the security inspection user judges that the verification results of all the modification key points are all passed, a quality detection flow closed loop can be formed, and modification and verification records are generated.

In a specific implementation, in order to facilitate understanding, taking fig. 3 as an example for illustration, fig. 3 is a schematic flow diagram of a second embodiment of the engineering quality detection system of the present invention, as shown in fig. 3, in this embodiment, after a security inspection user registers and issues a modification key point and a modification scheme in time after a problem is found, the modification user may modify a target engineering based on the corresponding modification key point and modification scheme and feed back a modification result, and the security inspection user reviews the modification result again until a closed loop for completing a routing inspection process is formed after detecting that no abnormal modification key point exists.

The engineering quality detection system in this embodiment further includes: a rectifying module; the security inspection module is further used for determining a correction key point and a correction scheme according to the quality detection result of the target engineering, and sending the correction key point and the correction scheme to the correction module; the modification module is used for displaying the modification scheme and the modification key points so that a modification user carries out quality modification on the target engineering according to the modification scheme and the modification key points; the correction module is further configured to receive a correction result fed back by the correction user after quality correction, and send the correction result to the corresponding security inspection module. The security inspection module is further used for displaying the correction result so that the security inspection user can determine the correction verification result according to the displayed correction result. The security inspection module is further configured to send, when there is an abnormal correction key point that the correction verification result does not pass, the abnormal correction key point and a corresponding rechecking correction scheme to the correction module corresponding to the abnormal correction key point; the correction module is further configured to display the rechecking correction scheme and the abnormal correction key point, so that a target correction user corresponding to the abnormal correction key point performs quality correction on the target engineering again according to the rechecking correction scheme; the correction module is further configured to receive a correction result fed back by the target correction user after quality correction is performed on the target engineering according to the correction scheme, and send the correction result to the corresponding security module, so that the security user corresponding to the corresponding security module determines a correction verification result according to the correction result. After the security inspection user timely registers and issues the correction key points and the correction schemes based on the found problems, the correction user can correct the target engineering based on the corresponding correction key points and the correction schemes and feed back the correction results, and the security inspection user checks the correction results until the fact that no abnormal correction key points exist is detected, so that a closed loop for completing the inspection flow is formed, namely the embodiment can track and verify the correction effects, ensure the realization of the correction schemes and promote correction work with high quality and high efficiency. Therefore, the embodiment ensures the omnibearing coverage of engineering quality detection and improves the safety management level of engineering quality detection.

Referring to fig. 4, fig. 4 is a block diagram illustrating a construction of a third embodiment of the engineering quality inspection system according to the present invention.

It should be understood that, when performing engineering quality detection, it is also required to ensure that the engineering quality detection is completed on time, so, as shown in fig. 4, in this embodiment, the engineering quality detection system further includes: a data interaction module 40;

the security module 20 is further configured to send the quality detection result, the correction verification result, or the rechecking correction verification result to the data interaction module 40;

the data interaction module 40 is configured to determine whether the current inspection process is a closed loop inspection process according to the correction verification result or the rechecking correction verification result.

It should be noted that, in this embodiment, the data interaction module 40 may obtain real-time interaction data of the route determination module 10, the security inspection module 20 and the rectification module 30. The data interaction module 40 may be constructed based on cloud computing technology, information management platform technology, and database technology. The cloud computing technology can integrate a plurality of relatively low-cost computing entities into a perfect system with strong computing power through a network, and distribute the strong computing power to the hands of an end user; the information management platform technology can integrate the existing management information system so that all the participants of engineering construction can work cooperatively on a unified platform; the database technology can solve the problem of effectively organizing and storing a large amount of data in the computer information processing process, reduce the redundancy of data storage, realize data sharing, ensure the data safety and efficiently retrieve and process the data. Thus, the data interaction module 40 may obtain the rectification verification result from the security inspection module 20 in real time or recheck the rectification verification result to determine whether the current inspection process is a closed loop inspection process. Each inspection process can be configured with a corresponding inspection period.

Therefore, further, the engineering quality detection system in this embodiment further includes: a management module 50;

the route determining module 10 is further configured to send the detection key point, the inspection parameter, and the target inspection route to the data interaction module 40;

the security module 20 is further configured to send the modification key point, the modification scheme, and the review modification scheme to the data interaction module 40;

The management module 50 is configured to traverse the data interaction module 40 according to a preset period, and determine whether a timeout non-closed-loop inspection process exceeding an inspection period exists in the data interaction module 40;

the management module 50 is further configured to, if yes, obtain a target project to be completed and a critical point to be completed corresponding to the timeout non-closed loop inspection process from the data interaction module 40, and send the critical point to be completed to the corresponding security inspection module 20 or the rectification module 30.

It should be noted that, the management module 50 may be a terminal device corresponding to a management user. The preset period may be a preset inspection period, so as to prevent an inspection process exceeding an inspection period. The inspection period may be the total period corresponding to the inspection flow, or may be the segmented inspection period corresponding to the sub-flow of the inspection flow. In addition, the inspection period may be preconfigured in the data interaction module 40, or may be preconfigured in the data interaction module 40 by the management user through the management module 50.

It should be understood that, when it is determined that there is a timeout non-closed loop inspection process exceeding the inspection period in the data interaction module 40, the embodiment may obtain a target project to be completed and a critical point to be completed corresponding to the timeout non-closed loop inspection process from the data interaction module 40, and send the critical point to be completed to the corresponding security inspection module 20 or the rectification module 30.

Therefore, further, in this embodiment, the management module 50 is further configured to obtain, when the to-be-completed inspection key point is a timeout detection key point, a timeout inspection parameter and a timeout inspection route corresponding to the timeout detection key point from the data interaction module 40;

The management module 50 is further configured to send the timeout detection key point, the timeout routing inspection parameter, and the timeout routing inspection route to the security inspection module 20 corresponding to the timeout detection key point, so that a timeout security inspection user corresponding to the timeout detection key point performs quality inspection on the to-be-completed target project according to the displayed timeout routing inspection route, the timeout routing inspection parameter, and the timeout detection key point.

The management module 50 is further configured to obtain, from the data interaction module 40, a timeout correction scheme or a timeout rechecking correction scheme corresponding to the timeout correction key point when the to-be-completed inspection key point is the timeout correction key point;

The management module 50 is further configured to send the timeout changing key point and the timeout changing scheme, or the timeout changing key point and the timeout checking changing scheme to the changing module 30 corresponding to the timeout changing key point, so that a timeout changing user corresponding to the timeout changing key point performs quality change on the target project to be completed according to the displayed timeout changing scheme or the timeout checking changing scheme.

It can be understood that the to-be-completed inspection key point may be an overtime detection key point, that is, when the overtime non-closed loop inspection process remains in the quality detection stage of the security inspection user, the to-be-completed target project may be sent to the corresponding security inspection module 20; the key point to be finished inspection can also be a timeout correction key point, namely when the timeout non-closed loop inspection flow stays in the quality correction stage jointly performed by the correction user and the security inspection user, the target project to be finished can be sent to the corresponding correction module 30. Specifically, because the data interaction module 40 has real-time interaction data of the security inspection module 20 and the rectifying module 30, when the to-be-completed inspection key point is the overtime detection key point, the management user can acquire overtime inspection parameters and overtime inspection routes corresponding to the overtime detection key point from the data interaction module 40 through the management module 50, and send the overtime detection key point, the overtime inspection parameters and the overtime inspection routes to the security inspection module 20 corresponding to the overtime detection key point, so that the overtime security inspection user corresponding to the overtime detection key point performs quality detection on the to-be-completed target engineering according to the displayed overtime inspection routes, the overtime inspection parameters and the overtime detection key point; and when the inspection key point to be finished is the overtime correction key point, acquiring an overtime correction scheme or an overtime rechecking correction scheme corresponding to the overtime correction key point from the data interaction module 40, and sending the overtime correction key point and the overtime correction scheme or the overtime correction scheme to the correction module 30 corresponding to the overtime correction key point, so that a overtime correction user corresponding to the overtime correction key point carries out quality correction on the target project to be finished according to the displayed overtime correction scheme or the overtime rechecking correction scheme.

The engineering quality detection system in this embodiment further includes: a data interaction module; the security inspection module is further configured to send the quality detection result, the correction verification result or the rechecking correction verification result to the data interaction module; the data interaction module is used for determining whether the current inspection flow is a closed loop inspection flow according to the correction verification result or the rechecking correction verification result. The engineering quality detection system further comprises: a management module; the route determining module is further configured to send the detection key point, the inspection parameter and the target inspection route to the data interaction module; the security inspection module is further configured to send the modification key point, the modification scheme and the review modification scheme to the data interaction module; the management module is used for traversing the data interaction module according to a preset period and judging whether a timeout non-closed loop inspection flow exceeding an inspection period exists in the data interaction module; and the management module is also used for acquiring a target project to be completed and a routing inspection key point to be completed corresponding to the overtime non-closed loop routing inspection process from the data interaction module if the target project is the same as the routing inspection process, and sending the routing inspection key point to be completed to the corresponding security inspection module or the rectifying module. The management module is further configured to obtain, when the to-be-completed inspection key point is an overtime detection key point, an overtime inspection parameter and an overtime inspection route corresponding to the overtime detection key point from the data interaction module; the management module is further configured to send the timeout detection key point, the timeout inspection parameter and the timeout inspection route to a security inspection module corresponding to the timeout detection key point, so that a timeout security inspection user corresponding to the timeout detection key point performs quality inspection on the target project to be completed according to the displayed timeout inspection route, the timeout inspection parameter and the timeout detection key point. The management module is further configured to obtain, from the data interaction module, a timeout correction scheme or a timeout rechecking correction scheme corresponding to the timeout correction key point when the to-be-completed inspection key point is the timeout correction key point; the management module is further configured to send the timeout changing key point and the timeout changing scheme, or the timeout changing key point and the timeout checking changing scheme to a changing module corresponding to the timeout changing key point, so that a timeout changing user corresponding to the timeout changing key point performs quality changing on the target project to be completed according to the displayed timeout changing scheme or the timeout checking changing scheme. According to the embodiment, real-time multi-layer data interaction of the route determining module, the security check module, the rectifying module and the management module is realized by a person through the data interaction module, so that the data barrier is broken, and the detection efficiency is improved; meanwhile, the embodiment can monitor whether a overtime inspection flow exceeding the inspection period exists or not according to a preset period through the management module, namely the embodiment can track the detection period, so that the progress of engineering quality detection is advanced, and the detection effectiveness is improved.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or system that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or system. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or system that comprises the element.

The foregoing embodiment numbers of the present invention are merely for the purpose of description, and do not represent the advantages or disadvantages of the embodiments.

The foregoing description is only of the preferred embodiments of the present invention, and is not intended to limit the scope of the invention, but rather is intended to cover any equivalents of the structures or equivalent processes disclosed herein or in the alternative, which may be employed directly or indirectly in other related arts.

Claims (10)

1. An engineering quality inspection system, the engineering quality inspection system comprising: the route determining module and the security inspection module;

the route determining module is used for generating a target inspection route according to the terrain of the target engineering and sending the target inspection route to the security inspection module;

the security inspection module is used for displaying the target inspection route so that a security inspection user can conduct quality inspection on the target engineering according to the displayed target inspection route.

2. The engineered quality inspection system of claim 1,

The route determining module is also used for acquiring detection key points determined by the patrol user according to the terrain of the target engineering;

The route determining module is further configured to generate the target routing inspection route according to the detection key point, and send the target routing inspection route and the detection key point to the security inspection module;

The security inspection module is further used for displaying the target inspection route and the detection key points, so that the security inspection user can conduct quality detection on the target engineering according to the displayed target inspection route and the detection key points.

3. The engineered quality inspection system of claim 2,

The route determining module is also used for acquiring the inspection parameters input by the inspection user;

The route determining module is further configured to generate the target inspection route according to the detection key point and the inspection parameter, and send the detection key point, the inspection parameter and the target inspection route to the security inspection module;

The security inspection module is further used for displaying the target inspection route, target inspection parameters and target detection key points corresponding to the current security inspection user, so that the current security inspection user can carry out quality detection on the target engineering according to the displayed target inspection route, the displayed target inspection parameters and the displayed target detection key points.

4. The engineered quality inspection system of claim 3,

The route determining module is further used for generating a routing inspection identification code according to the detection key points, the routing inspection parameters and the target routing inspection route;

the security inspection module is used for acquiring the inspection identification code, and acquiring the target inspection route, the target inspection parameters corresponding to the current security inspection user and the target detection key points according to the inspection identification code.

5. The engineered quality testing system of claim 4, further comprising: a rectifying module;

The security inspection module is further used for determining a correction key point and a correction scheme according to the quality detection result of the target engineering, and sending the correction key point and the correction scheme to the correction module;

The modification module is used for displaying the modification scheme and the modification key points so that a modification user carries out quality modification on the target engineering according to the modification scheme and the modification key points;

The correction module is further configured to receive a correction result fed back by the correction user after quality correction, and send the correction result to the corresponding security inspection module.

6. The engineered quality inspection system of claim 5,

The security inspection module is further used for displaying the correction result so that the security inspection user can determine a correction verification result according to the displayed correction result;

The security inspection module is further configured to send, when there is an abnormal correction key point that the correction verification result does not pass, the abnormal correction key point and a corresponding rechecking correction scheme to the correction module corresponding to the abnormal correction key point;

The correction module is further configured to display the rechecking correction scheme and the abnormal correction key point, so that a target correction user corresponding to the abnormal correction key point performs quality correction on the target engineering again according to the rechecking correction scheme;

the correction module is further configured to receive a correction result fed back by the target correction user after quality correction is performed on the target engineering according to the correction scheme, and send the correction result to the corresponding security module, so that the security user corresponding to the corresponding security module determines a correction verification result according to the correction result.

7. The engineered quality testing system of claim 6, further comprising: a data interaction module;

the security inspection module is further configured to send the quality detection result, the correction verification result or the rechecking correction verification result to the data interaction module;

The data interaction module is used for determining whether the current inspection flow is a closed loop inspection flow according to the correction verification result or the rechecking correction verification result.

8. The engineered quality testing system of claim 7, further comprising: a management module;

the route determining module is further configured to send the detection key point, the inspection parameter and the target inspection route to the data interaction module;

The security inspection module is further configured to send the modification key point, the modification scheme and the review modification scheme to the data interaction module;

the management module is used for traversing the data interaction module according to a preset period and judging whether a timeout non-closed loop inspection flow exceeding an inspection period exists in the data interaction module;

And the management module is also used for acquiring a target project to be completed and a routing inspection key point to be completed corresponding to the overtime non-closed loop routing inspection process from the data interaction module if the target project is the same as the routing inspection process, and sending the routing inspection key point to be completed to the corresponding security inspection module or the rectifying module.

9. The engineered quality inspection system of claim 8,

The management module is further configured to obtain, when the to-be-completed inspection key point is an overtime detection key point, an overtime inspection parameter and an overtime inspection route corresponding to the overtime detection key point from the data interaction module;

The management module is further configured to send the timeout detection key point, the timeout inspection parameter and the timeout inspection route to a security inspection module corresponding to the timeout detection key point, so that a timeout security inspection user corresponding to the timeout detection key point performs quality inspection on the target project to be completed according to the displayed timeout inspection route, the timeout inspection parameter and the timeout detection key point.

10. The engineered quality inspection system of claim 9,

The management module is further configured to obtain, from the data interaction module, a timeout correction scheme or a timeout rechecking correction scheme corresponding to the timeout correction key point when the to-be-completed inspection key point is the timeout correction key point;

The management module is also used for modifying the overtime change key point and the overtime change scheme, or

And the overtime correction key point and the overtime rechecking correction scheme are sent to a correction module corresponding to the overtime correction key point, so that a overtime correction user corresponding to the overtime correction key point performs quality correction on the target engineering to be completed according to the displayed overtime correction scheme or the overtime rechecking correction scheme.