CN112819425A - User-oriented construction project progress supervision method, system and storage medium - Google Patents

Abstract

A user-oriented construction project progress supervision method, a system and a storage medium are provided, wherein the user-oriented construction project progress supervision method comprises the following steps: constructing a visual platform and an engineering database; acquiring an uploaded project log file and importing the project log file into a project database; constructing a log viewing time axis, and setting a plurality of log viewing nodes in the log viewing time axis, wherein the plurality of log viewing nodes and the plurality of engineering log files are linked in a one-to-one correspondence manner according to the time sequence; and responding to the operation of the log viewing label, displaying the log viewing time axis in the visualization platform, and simultaneously displaying the engineering log file corresponding to the log viewing node and displaying the corresponding generation time. The embodiment of the invention effectively solves the problem that the specific project progress can only be known on site in the traditional supervision mode, greatly improves the flexibility of user supervision, enables the user not to frequently return to the project site, effectively saves the time cost of the user and improves the experience of the user.

Description

User-oriented construction project progress supervision method, system and storage medium

Technical Field

The invention belongs to the technical field of information, and particularly relates to a user-oriented construction project progress supervision method, a user-oriented construction project progress supervision system and a storage medium.

Background

With the development of economy, a large number of villas begin to emerge in vast rural areas at present. The traditional villa construction is mainly that a user asks a construction team to go to the site for construction, and the construction progress and quality need to be checked frequently. At present, there are villa companies and teams in the countryside, and users can directly contract with the villa companies and then directly complete all subsequent work. However, if the user wants to know the project progress, the user still needs to go to the site to view, which wastes the time cost of the user greatly, especially for outside managers and workers.

Disclosure of Invention

The present invention is directed to solving at least one of the problems of the prior art. Therefore, the invention provides a user-oriented construction project progress supervision method, which solves the problem that a user needs to know the project progress on site. The invention also provides a user-oriented construction project progress monitoring system and a storage medium for storing the computer executable instructions of the user-oriented construction project progress monitoring method.

According to the embodiment of the first aspect of the invention, the method for supervising the progress of the user-oriented construction project comprises the following steps:

constructing a visual platform and an engineering database;

acquiring an uploaded project log file and importing the project log file into the project database, wherein the project log file records the generation time of the project log file;

constructing a log viewing time axis, setting a plurality of log viewing nodes in the log viewing time axis, wherein the time corresponding to the plurality of log viewing nodes corresponds to the generation time of the plurality of engineering log files one by one, and the plurality of log viewing nodes are linked with the plurality of engineering log files in a one-to-one correspondence manner according to the time sequence;

setting a log viewing tag in the visualization platform; and responding to the operation of the log viewing label, displaying the log viewing time axis in the visualization platform, and simultaneously displaying the engineering log file corresponding to the log viewing node and displaying the corresponding generation time.

The method for supervising the user-oriented construction project progress, provided by the embodiment of the invention, at least has the following technical effects: the uploaded project log files can be stored through the project database, and the subsequent viewing in a visual platform is facilitated. By constructing the log viewing time axis and constructing the link between the log viewing node and the project log file, the project log file can be conveniently viewed in time sequence in the follow-up process, and the user can more favorably visually know the progress of the whole project. The log viewing timeline and the project log files can be displayed in the visualization platform through the log viewing tag. The building project progress supervision method facing the user effectively solves the problem that the specific project progress can only be known on site in the traditional supervision mode, greatly improves the flexibility of user supervision, enables the user not to frequently return to the project site, effectively saves the time cost of the user and improves the experience of the user.

According to some embodiments of the present invention, the above-mentioned method for supervising the progress of the user-oriented construction project further comprises the following steps:

constructing an engineering schedule and importing the engineering schedule into the engineering database; the project scheduling table comprises a plurality of project nodes, and the project nodes are arranged in the project scheduling table according to a time sequence;

setting a scheduling viewing label linked with the project scheduling table in the visualization platform; and responding to the operation of the schedule viewing label, and displaying the project schedule in the visualization platform.

According to some embodiments of the present invention, the above-mentioned method for supervising the progress of the user-oriented construction project further comprises the following steps:

when any one of the engineering nodes is delayed, all subsequent engineering nodes of the engineering node are sequentially delayed, and an engineering delay file is generated; meanwhile, generating an engineering deferred viewing node on the log viewing time axis, wherein the engineering deferred viewing node is correspondingly linked with the engineering deferred viewing file;

and synchronously displaying the project postponing file and the project log file in the visual platform.

According to some embodiments of the present invention, the above-mentioned method for supervising the progress of the user-oriented construction project further comprises the following steps:

arranging a camera device on an engineering site, wherein the camera device is used for acquiring a construction progress video in the engineering site;

setting an engineering video viewing tag in the visualization platform; and responding to the operation of the project video viewing label, and displaying the construction progress video in the visualization platform.

According to some embodiments of the invention, the plurality of camera devices are used for collecting construction progress videos in the engineering site from different visual angles; the engineering video viewing label comprises a plurality of angle viewing buttons, the angle viewing buttons are arranged in a one-to-one correspondence mode with the plurality of camera devices, and the angle viewing buttons are used for switching different construction progress videos collected by the camera devices.

According to some embodiments of the present invention, the above-mentioned method for supervising the progress of the user-oriented construction project further comprises the following steps:

setting a question feedback label in the visualization platform;

responding to the operation of the question feedback label, opening a question input window in the visualization platform, and simultaneously constructing a question feedback file in the engineering database;

and modifying the question feedback file in response to the operation of the user on the question input window.

According to some embodiments of the present invention, the above-mentioned method for supervising the progress of the user-oriented construction project further comprises the following steps:

setting a work order dispatching label in the visualization platform;

responding to the operation of dispatching the work order label, opening a work order input window in the visualization platform, and simultaneously constructing a work order dispatching file in the engineering database;

and modifying the work order dispatching file in response to the operation of the user on the work order input window.

According to some embodiments of the present invention, the above-mentioned method for supervising the progress of the user-oriented construction project further comprises the following steps:

importing a plurality of acceptance lists into the engineering database, and constructing an acceptance item table according to the time sequence of the completion of the acceptance lists; the acceptance item table is used for acquiring the acceptance sheet;

setting an acceptance check label in the visualization platform; in response to operation of the acceptance view tab, presenting the acceptance item table in the visualization platform.

According to a second aspect of the invention, a user-oriented construction project progress supervision system comprises:

the file acquisition module is used for acquiring the project log file;

the time axis construction module is used for constructing a log viewing time axis, setting a log viewing node in the log viewing time axis according to the project log file, and constructing the connection between the log viewing node and the project log file;

the project database is used for storing a log viewing time shaft and project log files;

the visual platform is internally provided with a log viewing label; the log viewing label is used for displaying the log viewing time axis in the visualization platform, displaying the project log files corresponding to the log viewing nodes and displaying the corresponding generation time.

The building project progress supervision system facing the user in the embodiment of the invention at least has the following technical effects: the file acquisition module can acquire the project log files, and further can store the uploaded project log files through the project database, so that the uploaded project log files can be conveniently checked in a visual platform. The time axis construction module is used for constructing the log viewing time axis and constructing the link between the log viewing node and the project log file, so that the time sequence viewing of the project log file can be conveniently carried out subsequently, and the user can more visually know the progress of the whole project. The log viewing timeline and the project log files can be displayed in the visualization platform through the log viewing tag. The building engineering progress supervision system for the user effectively solves the problem that the specific engineering progress can only be known on site in the traditional supervision mode, greatly improves the flexibility of user supervision, enables the user not to frequently return to the engineering site, effectively saves the time cost of the user and improves the experience of the user.

The computer-readable storage medium according to the third aspect of the invention stores computer-executable instructions for causing a computer to perform the above user-oriented construction project progress supervision method.

The computer-readable storage medium according to the embodiment of the invention has at least the following advantages: storage and transfer of computer-executable instructions may be facilitated by a storage medium.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

The above and additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

FIG. 1 is a simplified flow diagram of a user-oriented construction project progress supervision method according to an embodiment of the present invention;

fig. 2 is a block diagram of a user-oriented construction project progress supervision system according to an embodiment of the present invention.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the accompanying drawings are illustrative only for the purpose of explaining the present invention, and are not to be construed as limiting the present invention.

In the description of the present invention, it is to be understood that the directional descriptions, such as the directions of upper, lower, front, rear, left, right, etc., are referred to only for convenience of describing the present invention and for simplicity of description, and are not intended to indicate or imply that the device or element so referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be considered as limiting the present invention.

In the description of the present invention, the meaning of a plurality of means is one or more, the meaning of a plurality of means is two or more, and larger, smaller, larger, etc. are understood as excluding the number, and larger, smaller, inner, etc. are understood as including the number. If the first and second are described for the purpose of distinguishing technical features, they are not to be understood as indicating or implying relative importance or implicitly indicating the number of technical features indicated or implicitly indicating the precedence of the technical features indicated.

In the description of the present invention, unless otherwise explicitly limited, terms such as arrangement, installation, connection and the like should be understood in a broad sense, and those skilled in the art can reasonably determine the specific meanings of the above terms in the present invention in combination with the specific contents of the technical solutions.

A user-oriented construction project progress supervision method according to an embodiment of a first aspect of the invention is described below with reference to fig. 1 to 2.

The construction project progress supervision method facing the user comprises the following steps:

constructing a visual platform and an engineering database;

acquiring an uploaded project log file and importing the project log file into a project database, wherein the project log file records the generation time of the project log file;

constructing a log viewing time axis, setting a plurality of log viewing nodes in the log viewing time axis, wherein the time corresponding to the plurality of log viewing nodes corresponds to the generation time of the plurality of engineering log files one by one, and the plurality of log viewing nodes are linked with the plurality of engineering log files one by one according to the time sequence;

setting a log viewing label in a visualization platform; and responding to the operation of the log viewing label, displaying the log viewing time axis in the visualization platform, and simultaneously displaying the engineering log file corresponding to the log viewing node and displaying the corresponding generation time.

Referring to fig. 1 and 2, the project log file is edited by a project manager on site and uploaded to a project database, so that a user can conveniently check the project log file. The project log file comprises construction pictures and construction project tracing speed. The number of the construction pictures can be properly adjusted according to the progress degree of the project. Project log files are uploaded once a period of time, and in actual projects, project managers typically edit and upload at least once a day.

All the project log files are stored in a project database, a log viewing time axis is set for facilitating the viewing of the project log files, and the project log files are subjected to time sequence association in a time axis mode. The log viewing time axis is provided with a plurality of log viewing nodes, the number of the log viewing nodes is consistent with that of the engineering log files, a new log viewing node is generated in the log viewing time axis when a new engineering log file is uploaded, the log viewing nodes are arranged in the log viewing time axis according to the time sequence, the time corresponding to the log viewing nodes is not the uploading time of the engineering log file but the generation time of the engineering log file, and therefore the log viewing nodes and the engineering log files are completely corresponding and unified in time. All the project log files are connected with the corresponding log viewing nodes, so that the project log files can be acquired through the log viewing time axis in the following process.

The visualization platform is a basis for interacting with a user, the log viewing label is arranged in the visualization platform, the log viewing label can acquire a log viewing time axis, the log viewing time axis is displayed on the visualization platform, and then all engineering log files linked with the log viewing nodes in the log viewing time axis can be displayed on the visualization platform synchronously.

According to the user-oriented construction project progress supervision method, the uploaded project log files can be stored through the project database, and the subsequent viewing in a visual platform is facilitated. By constructing the log viewing time axis and constructing the link between the log viewing node and the project log file, the project log file can be conveniently viewed in time sequence in the follow-up process, and the user can more favorably visually know the progress of the whole project. The log viewing timeline and the project log files can be displayed in the visualization platform through the log viewing tag. The building project progress supervision method facing the user effectively solves the problem that the specific project progress can only be known on site in the traditional supervision mode, greatly improves the flexibility of user supervision, enables the user not to frequently return to the project site, effectively saves the time cost of the user and improves the experience of the user.

In some embodiments of the present invention, the above-mentioned method for supervising the progress of the building project facing the user further includes the following steps:

constructing an engineering schedule table, and importing the engineering schedule table into an engineering database; the project scheduling list comprises a plurality of project nodes, and the project nodes are arranged in the project scheduling list according to a time sequence;

setting a scheduling viewing label linked with the project scheduling table in the visual platform; and responding to the operation of the schedule viewing tag, and displaying the project schedule in the visualization platform.

The project schedule is a main information source for users to know project planning periods. The project schedule is specified according to the whole project schedule, and the completion time and the completion sequence of all the project nodes are included, so that a user can know the future project schedule and the expected delivery time after seeing the project schedule. The project schedule can be obtained from the project database through the schedule checking tag, and then can be displayed in the visual platform.

In some embodiments of the present invention, the above-mentioned method for supervising the progress of the building project facing the user further includes the following steps:

when any project node is delayed, all subsequent project nodes of the project node are sequentially delayed, and a project delay file is generated;

meanwhile, generating an engineering deferred viewing node on a log viewing time axis, wherein the engineering deferred viewing node is correspondingly linked with the engineering deferred viewing file;

and synchronously displaying the project postponing file and the project log file in the visual platform.

In actual engineering, because of weather and other inefficacy, the situation of engineering delay is easy to occur, once the engineering delay occurs, all subsequent engineering nodes are delayed according to the previous planned time from the delayed engineering node. And the project postponing file is generated while the project is postponed, and the project postponing file comprises the reason and the approximate time of postponing. In actual engineering, the contents in the engineering postponement files are mainly manually entered by engineering management personnel. When the project is delayed, the project delay check nodes can be synchronously generated in the log check time axis, the links for acquiring the project delay files through the project delay check nodes are established, and the project delay files and the project log files can be displayed in the visual platform, so that a user can simultaneously see the project delay files when checking the project log files through the log check tags, and further know the overall situation of the project.

In some embodiments of the present invention, the above-mentioned method for supervising the progress of the building project facing the user further includes the following steps:

arranging a camera device on an engineering site, wherein the camera device is used for acquiring a construction progress video in the engineering site;

setting an engineering video viewing label in a visualization platform; and responding to the operation of viewing the label on the engineering video, and displaying the construction progress video in the visualization platform.

In order to facilitate a user to check a construction progress video on site in real time, a camera device is arranged on an engineering site, the video collected by the camera device can be remotely transmitted to an engineering data database, and then a video display window is opened in a visual platform through an engineering video check label for the user to check. The user can check the video in real time, so that the user can feel more relieved on the construction of the project, and the problem that some users have doubts because the data are uploaded to the project database by project managers is avoided.

In some embodiments of the invention, a plurality of camera devices are provided, and the plurality of camera devices are used for acquiring construction progress videos in an engineering site from different visual angles; the engineering video checking label comprises a plurality of angle checking buttons, the angle checking buttons and the camera devices are arranged in a one-to-one correspondence mode, and the angle checking buttons are used for switching construction progress videos collected by different camera devices. Set up a plurality of camera devices, can carry out multi-angle, omnidirectional to whole engineering scene and look over, and then can let the user have a more specific understanding to the situation on scene.

In some embodiments of the present invention, the above-mentioned method for supervising the progress of the building project facing the user further includes the following steps:

setting a problem feedback label in a visual platform;

responding to the operation of the question feedback label, opening a question input window in the visual platform, and simultaneously constructing a question feedback file in the engineering database;

and modifying the question feedback file in response to the operation of the user on the question input window.

Problem feedback is a big problem in engineering construction, and most of the situations are that users select telephones to contact with engineering responsible persons to ask themselves, so that some problems sometimes can not be rectified due to various reasons, and if no feedback records exist in the situations, follow-up responsibility is inconvenient to follow, and the benefits of customers are easily damaged. By setting the problem feedback label and further generating the problem feedback file in the engineering database, the feedback record of the user can be completely stored, so that the problem tracing in the whole process can be realized, and the benefit of the user is guaranteed.

In some embodiments of the present invention, the above-mentioned method for supervising the progress of the building project facing the user further includes the following steps:

setting a work order dispatching label in a visual platform;

responding to the operation of dispatching the label to the work order, opening a work order input window in the visual platform, and simultaneously constructing a work order dispatching file in the engineering database;

and modifying the work order dispatching file in response to the operation of the user on the work order input window.

Work order dispatch is another important problem in engineering construction, during actual construction, some fine adjustments can be carried out on some specific detailed parts, and many times, a user can directly tell engineering management personnel of the demand and then modify the demand, and under the condition, once the engineering management personnel forget the demand, the problem of rework can be caused. And the user can effectively avoid the problem by opening the work order input window and inputting the problem in the visual platform through the work order dispatching label, and the work order dispatching file can be checked by engineering management personnel at any time in the engineering database. In actual engineering, after each work order is completed, a corresponding scoring table is pushed to a user, and the user can complete scoring of the completion condition of the work order through a visualization platform to serve as feedback.

In some embodiments of the present invention, the above-mentioned method for supervising the progress of the building project facing the user further includes the following steps:

importing a plurality of acceptance lists into an engineering database, and constructing an acceptance item table according to the time sequence of the completion of the acceptance lists; the acceptance item table is used for acquiring an acceptance sheet;

setting an acceptance check label in a visualization platform; and responding to the operation of checking the acceptance and checking the label, and displaying an acceptance item table in the visualization platform.

The acceptance link is an important problem, and many users can not come to the scene for whole company because the person, so the acceptance of many middle processes can not actually be checked, consequently after the acceptance, engineering management personnel can upload the acceptance sheet to the engineering database to the user checks the label through the operation acceptance and looks over in visual platform. In order to facilitate the user to comprehensively know the overall acceptance precision, an acceptance item table is constructed according to the actual acceptance completion sequence.

In some embodiments of the invention, an engineering square label is further arranged in the visualization platform, and other projects except for the user's own house can be opened through the engineering square label. The user can see the project progress of other houses, and the user can know the progress of the house actually. In order to ensure that the state of each user can be displayed or treated in a private way according to personal wishes, access authority can be set, and the user can only check the state in the engineering square after granting the corresponding access authority.

The user-oriented construction project progress supervision system comprises a file acquisition module, a time axis construction module, a project database and a visualization platform.

The file acquisition module is used for acquiring the project log file;

the time axis construction module is used for constructing a log viewing time axis, setting log viewing nodes in the log viewing time axis according to the project log files, and constructing connection between the log viewing nodes and the project log files;

the project database is used for storing a log viewing time shaft and project log files;

the visual platform is internally provided with a log viewing label; the log viewing label is used for displaying the log viewing time axis in the visualization platform, displaying the project log files corresponding to the log viewing nodes and displaying the corresponding generation time.

Referring to fig. 1 and 2, the project log file may be acquired by a file acquisition module. The project log file is edited by a project manager on site and uploaded to a project database, so that a user can conveniently check the project log file. The project log file comprises construction pictures and construction project tracing speed. The number of the construction pictures can be properly adjusted according to the progress degree of the project. Project log files are uploaded once at intervals, and in actual projects, project managers typically edit and upload at least once a day.

All the project log files are stored in a project database, in order to facilitate the viewing of the project log files, a log viewing time axis is constructed through a time axis construction module, and the project log files are subjected to time sequence association in a time axis mode. The log viewing time axis is provided with a plurality of log viewing nodes, the number of the log viewing nodes is consistent with that of the engineering log files, a new log viewing node is generated in the log viewing time axis when a new engineering log file is uploaded, the log viewing nodes are arranged in the log viewing time axis according to the time sequence, the time corresponding to the log viewing nodes is not the uploading time of the engineering log file but the generation time of the engineering log file, and therefore the log viewing nodes and the engineering log files are completely corresponding and unified in time. All the project log files are connected with the corresponding log viewing nodes, so that the project log files can be acquired through the log viewing time axis in the following process.

The visualization platform is a basis for interacting with a user, the log viewing label is arranged in the visualization platform, the log viewing label can acquire a log viewing time axis, the log viewing time axis is displayed on the visualization platform, and then all engineering log files linked with the log viewing nodes in the log viewing time axis can be displayed on the visualization platform synchronously.

According to the user-oriented construction project progress monitoring system provided by the embodiment of the invention, the project log file can be acquired through the file acquisition module, and then the uploaded project log file can be stored through the project database, so that the project log file can be conveniently checked in a visual platform in the follow-up process. The time axis construction module is used for constructing the log viewing time axis and constructing the link between the log viewing node and the project log file, so that the time sequence viewing of the project log file can be conveniently carried out subsequently, and the user can more visually know the progress of the whole project. The log viewing timeline and the project log files can be displayed in the visualization platform through the log viewing tag. The building engineering progress supervision system for the user effectively solves the problem that the specific engineering progress can only be known on site in the traditional supervision mode, greatly improves the flexibility of user supervision, enables the user not to frequently return to the engineering site, effectively saves the time cost of the user and improves the experience of the user.

In some embodiments of the present invention, the user-oriented construction project progress monitoring system further includes a project schedule module and a schedule viewing tag disposed in the visualization platform. The project scheduling module is used for constructing a project scheduling table and importing the project scheduling table into a project database. And the scheduling checking label is used for displaying the project scheduling list in the visualization platform. The project schedule is a main information source for users to know the future progress of the project. The project schedule is specified according to the whole project schedule, and the completion time and the completion sequence of all the project nodes are included, so that a user can know the future project schedule and the expected delivery time after seeing the project schedule. The project schedule can be obtained from the project database through the schedule checking tag, and then can be displayed in the visual platform.

In some embodiments of the present invention, when any one of the engineering nodes is delayed, the engineering scheduling module is further configured to forward delay all subsequent engineering nodes of the engineering node and generate an engineering delay file, and enable a log viewing time axis to generate an engineering delay viewing node, where the engineering delay file is correspondingly linked with the engineering delay viewing node; and synchronously displaying the project postponing file and the project log file. In actual engineering, because of weather and other inefficacy, the situation of engineering delay is easy to occur, once the engineering delay occurs, all subsequent engineering nodes are delayed according to the previous planned time from the delayed engineering node. And the project postponing file is generated while the project is postponed, and the project postponing file comprises the reason and the approximate time of postponing. In actual engineering, the contents in the engineering postponement files are mainly manually entered by engineering management personnel. When the project is delayed, the project delay check nodes can be synchronously generated in the log check time axis, the links for acquiring the project delay files through the project delay check nodes are established, and the project delay files and the project log files can be displayed in the visual platform, so that a user can simultaneously see the project delay files when checking the project log files through the log check tags, and further know the overall situation of the project.

In some embodiments of the present invention, the building project progress monitoring system facing the user further includes a camera device disposed on the project site and a project video viewing tag disposed in the visualization platform; the camera device is used for acquiring a construction progress video in a project site; the project video viewing label is used for displaying the construction progress video in the visualization platform. In order to facilitate a user to check a construction progress video on site in real time, a camera device is arranged on an engineering site, the video collected by the camera device can be remotely transmitted to an engineering data database, and then a video display window is opened in a visual platform through an engineering video check label for the user to check. The user can check the video in real time, so that the user can feel more relieved on the construction of the project, and the problem that some users have doubts because the data are uploaded to the project database by project managers is avoided.

In some embodiments of the invention, a plurality of camera devices are provided, and the plurality of camera devices are used for acquiring construction progress videos in an engineering site from different visual angles; the engineering video checking label comprises a plurality of angle checking buttons, the angle checking buttons and the camera devices are arranged in a one-to-one correspondence mode, and the angle checking buttons are used for switching construction progress videos collected by different camera devices. Set up a plurality of camera devices, can carry out multi-angle, omnidirectional to whole engineering scene and look over, and then can let the user have a more specific understanding to the progress at scene.

In some embodiments of the present invention, the above-mentioned user-oriented construction project progress supervision system further includes a problem feedback tag disposed in the visualization platform; in response to the operation of the question feedback label, a question input window is opened in the visual platform, and a question feedback file is constructed in the engineering database; and modifying the question feedback file in response to the operation of the user on the question input window. Problem feedback is a big problem in engineering construction, and most of the situations are that users select telephones to contact with engineering responsible persons to ask themselves, so that some problems sometimes can not be rectified due to various reasons, and if no feedback records exist in the situations, follow-up responsibility is inconvenient to follow, and the benefits of customers are easily damaged. By setting the problem feedback label and further generating the problem feedback file in the engineering database, the feedback record of the user can be completely stored, so that the problem tracing in the whole process can be realized, and the benefit of the user is guaranteed.

In some embodiments of the present invention, the above-mentioned user-oriented construction project progress monitoring system further includes a work order dispatch tag disposed in the visualization platform; responding to the operation of dispatching the label to the work order, opening a work order input window in the visual platform, and simultaneously constructing a work order dispatching file in the engineering database; and modifying the work order dispatching file in response to the operation of the user on the work order input window. Work order dispatch is another important problem in engineering construction, during actual construction, some fine adjustments can be carried out on some specific detailed parts, and many times, a user can directly tell engineering management personnel of the demand and then modify the demand, and under the condition, once the engineering management personnel forget the demand, the problem of rework can be caused. And the user can effectively avoid the problem by opening the work order input window and inputting the problem in the visual platform through the work order dispatching label, and the work order dispatching file can be checked by engineering management personnel at any time in the engineering database.

In some embodiments of the present invention, the above-mentioned building project progress supervision system facing the user further includes an acceptance check module and an acceptance check tag disposed in the visualization platform; the acceptance check module is used for importing the acceptance list into the engineering database and constructing an acceptance item table according to the time sequence of the completion of the acceptance list; the acceptance item table is used for acquiring an acceptance sheet; and responding to the operation of checking the acceptance and checking the label, and displaying an acceptance item table in the visualization platform. The acceptance link is an important problem, and many users can not come to the scene for whole company because the person, so the acceptance of many middle processes can not actually be checked, consequently after the acceptance, engineering management personnel can upload the acceptance sheet to the engineering database to the user checks the label through the operation acceptance and looks over in visual platform. In order to facilitate the user to comprehensively know the overall acceptance precision, an acceptance item table is constructed according to the actual acceptance completion sequence.

According to the third aspect of the invention, the computer-readable storage medium stores computer-executable instructions for causing a computer to execute the above user-oriented construction project progress supervision method.

Computer-readable storage media according to embodiments of the present invention may facilitate storage and transfer of computer-executable instructions by the storage media.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an illustrative embodiment," "an example," "a specific example," or "some examples" or the like mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

Although the embodiments of the present invention have been described in detail with reference to the accompanying drawings, the present invention is not limited to the embodiments, and those skilled in the art will understand that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the claims and their equivalents.

Claims (10)

1. A user-oriented construction project progress supervision method is characterized by comprising the following steps:

constructing a visual platform and an engineering database;

acquiring an uploaded project log file and importing the project log file into the project database, wherein the project log file records the generation time of the project log file;

constructing a log viewing time axis, setting a plurality of log viewing nodes in the log viewing time axis, wherein the time corresponding to the plurality of log viewing nodes corresponds to the generation time of the plurality of engineering log files one by one, and the plurality of log viewing nodes are linked with the plurality of engineering log files in a one-to-one correspondence manner according to the time sequence;

setting a log viewing tag in the visualization platform; and responding to the operation of the log viewing label, displaying the log viewing time axis in the visualization platform, and simultaneously displaying the engineering log file corresponding to the log viewing node and displaying the corresponding generation time.

2. The user-oriented construction project progress supervision method according to claim 1, characterized by further comprising the steps of:

constructing an engineering schedule and importing the engineering schedule into the engineering database; the project scheduling table comprises a plurality of project nodes, and the project nodes are arranged in the project scheduling table according to a time sequence;

setting a scheduling viewing label linked with the project scheduling table in the visualization platform; and responding to the operation of the schedule viewing label, and displaying the project schedule in the visualization platform.

3. The user-oriented construction project progress supervision method according to claim 2, characterized by further comprising the steps of:

when any one of the engineering nodes is delayed, all subsequent engineering nodes of the engineering node are sequentially delayed, and an engineering delay file is generated; meanwhile, generating an engineering deferred viewing node on the log viewing time axis, wherein the engineering deferred viewing node is correspondingly linked with the engineering deferred viewing file;

and synchronously displaying the project postponing file and the project log file in the visual platform.

4. The user-oriented construction project progress supervision method according to claim 1, characterized by further comprising the steps of:

arranging a camera device on an engineering site, wherein the camera device is used for acquiring a construction progress video in the engineering site;

setting an engineering video viewing tag in the visualization platform; and responding to the operation of the project video viewing label, and displaying the construction progress video in the visualization platform.

5. The user-oriented construction project progress supervision method according to claim 4, characterized in that the camera devices are multiple, and the multiple camera devices are used for collecting construction progress videos in the project site from different view angles; the engineering video viewing label comprises a plurality of angle viewing buttons, the angle viewing buttons are arranged in a one-to-one correspondence mode with the plurality of camera devices, and the angle viewing buttons are used for switching different construction progress videos collected by the camera devices.

6. The user-oriented construction project progress supervision method according to claim 1, characterized by further comprising the steps of:

setting a question feedback label in the visualization platform;

responding to the operation of the question feedback label, opening a question input window in the visualization platform, and simultaneously constructing a question feedback file in the engineering database;

and modifying the question feedback file in response to the operation of the user on the question input window.

7. The user-oriented construction project progress supervision method according to claim 1, characterized by further comprising the steps of:

setting a work order dispatching label in the visualization platform;

responding to the operation of dispatching the work order label, opening a work order input window in the visualization platform, and simultaneously constructing a work order dispatching file in the engineering database;

and modifying the work order dispatching file in response to the operation of the user on the work order input window.

8. The user-oriented construction project progress supervision method according to claim 1, characterized by further comprising the steps of:

importing a plurality of acceptance lists into the engineering database, and constructing an acceptance item table according to the time sequence of the completion of the acceptance lists; the acceptance item table is used for acquiring the acceptance sheet;

setting an acceptance check label in the visualization platform; in response to operation of the acceptance view tab, presenting the acceptance item table in the visualization platform.

9. A user-oriented construction project progress supervision system, comprising:

the file acquisition module is used for acquiring the project log file;

the time axis construction module is used for constructing a log viewing time axis, setting a log viewing node in the log viewing time axis according to the project log file, and constructing the connection between the log viewing node and the project log file;

the project database is used for storing a log viewing time shaft and project log files;

the visual platform is internally provided with a log viewing label; the log viewing label is used for displaying the log viewing time axis in the visualization platform, displaying the project log files corresponding to the log viewing nodes and displaying the corresponding generation time.

10. A computer-readable storage medium characterized by: the computer-readable storage medium stores computer-executable instructions for causing a computer to perform a user-oriented construction project progress supervision method according to any one of claims 1 to 8.

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