CN115439105A - User-oriented construction project progress supervision method and system - Google Patents

Abstract

The invention relates to the technical field of data processing, in particular to a method and a system for supervising construction project progress facing to a user, which comprise the following steps: the control terminal is a main control end of the system and is used for sending out a control command; the loading module is used for loading the system target building engineering content; loading system target building project progress data; the invention can configure a sand table model for the corresponding building engineering through the analysis of the building engineering, and adopts the differentiation of the construction projects of the target building engineering to facilitate the convenience of the user end in monitoring and checking the progress of the building engineering, and simultaneously analyzes the construction period of each sub-engineering project and further distinguishes the overlapping construction period for each sub-engineering project, thereby synchronously acquiring the sub-project engineering information in the synchronous progress of other overlapping construction periods when the user checks the designated sub-engineering project.

Description

User-oriented construction project progress supervision method and system

Technical Field

The invention relates to the technical field of data processing, in particular to a user-oriented construction project progress supervision method and system.

Background

The building engineering refers to an engineering entity formed by the construction of various building buildings and their auxiliary facilities and the installation of lines, pipes and equipment matched with them, wherein the building buildings refer to the engineering which has top covers, beams, columns, walls, foundations and can form internal spaces and meet the requirements of people for production, living, study and public activities.

At present, the site management of the building engineering mostly depends on the site supervision of the engineering supervision, the construction progress of an upper level of the engineering supervision at the construction site of the engineering is usually known to the engineering supervision in a communication mode, a certain time is consumed in the process, and the idle time of the engineering supervision for supervising the construction site and the upper level of the engineering supervision cannot be synchronized due to various matters and is used for reporting the supervision information of the engineering supervision site, so that the upper level of the engineering supervision cannot timely know the construction progress of the construction site, and the timeliness of the upper level of the engineering supervision on the construction site of the building engineering and the supervision of the progress is influenced.

Disclosure of Invention

Solves the technical problem

Aiming at the defects in the prior art, the invention provides a user-oriented construction project progress supervision method and a user-oriented construction project progress supervision system, and solves the technical problems in the background technology.

Technical scheme

In order to realize the purpose, the invention is realized by the following technical scheme:

in a first aspect, a method and a system for supervising user-oriented construction project progress comprise:

the control terminal is a main control end of the system and is used for sending out a control command;

the loading module is used for loading the system target building engineering content; loading system target building project progress data;

the sand table module is used for receiving the target building electronic drawing loaded in the system target building engineering content in the loading module and constructing a target building sand table model by referring to the target building electronic drawing;

the retrieval module is used for receiving a target construction period formulated by the target building loaded in the system target building engineering content in the loading module, retrieving a target construction period corresponding to each sub-project engineering in the target construction period formulated by the target building, and acquiring the sub-project engineering with the coincident construction periods;

the receiving module is used for receiving the sub project projects which need to be checked by the user side;

and the scheduling module is used for scheduling the field constructors of the target building engineering.

Further, the loading module loads the target construction project content of the system, including: electronic drawing of a target building and a target construction period established by the target building;

the lower level of the loading module is provided with sub-modules, which comprise:

the analysis unit is used for analyzing each sub project engineering in the target building engineering;

the queue unit is used for receiving each sub-project analyzed by the analysis unit and sequencing the process queues of each sub-project;

the analysis unit is used for synchronously configuring the electronic drawing of the target building according to the content of the sub-project engineering when analyzing the sub-project engineering in the target building engineering, and the queue unit is used for referring to the target construction period formulated by the target building when sequencing the sub-project engineering process queues.

Furthermore, when the sand table module constructs the target building sand table model, the sand table module synchronously refers to each sub-project engineering in the target building engineering analyzed by the analysis unit to perform sub-model segmentation on the target building sand table model.

Still further, the retrieval module is provided with a sub-module at the lower level, including:

the configuration unit is used for acquiring the sub-project projects with coincident construction periods and configuring the daily workload of the sub-project projects by referring to the target construction periods of the sub-project projects;

and the evaluation unit is used for evaluating whether the current construction period progress of the sub-project projects with the coincident construction periods is matched with the accumulated work amount of the projects.

Furthermore, the configuration unit binds the sub-project projects with the same construction period after the daily workload configuration is carried out on the sub-project projects with the same construction period, and the receiving module synchronously feeds back construction period progress and project workload corresponding to the sub-project which is bound by the sub-project targets and is coincided with the sub-project targets to the control terminal for the user to read when receiving the sub-project targets which are required to be checked by the user;

and the receiving module synchronously sends the evaluation result of the evaluation unit on the sub-project in real time when the progress of the corresponding construction period of the sub-project and the work load of the project are accumulated and fed back to the control terminal.

Furthermore, the target building sand table model constructed by the sand table module is synchronously displayed on the control terminal when the receiving module feeds data back to the control terminal.

Further, the scheduling module is provided with a sub-module at a lower level, including:

the capturing unit is used for capturing the sub-project projects of which the current construction period progress exceeds the accumulated theoretical value of the project workload in the evaluation unit;

the selection unit is used for selecting the sub-project engineering as a scheduling target when the scheduling module schedules constructors;

and calculating the accumulated theoretical value of the engineering workload according to the current construction period progress of the sub-project engineering and the daily workload of the sub-project engineering.

Further, the selection unit preferentially selects, as the scheduling target, a sub-project for which the sub-project corresponding periods of the receiving constructors coincide when the sub-project is selected as the scheduling target.

Furthermore, the control terminal is electrically connected with a loading module through a medium, the lower stage of the loading module is electrically connected with an analysis unit and a queue unit through the medium, the loading module is electrically connected with a sand table module and a retrieval module through the medium, the lower stage of the retrieval module is electrically connected with a configuration unit and an evaluation unit through the medium, the retrieval module is electrically connected with a receiving module through the medium, the receiving module is electrically connected with the configuration unit through the medium, the receiving module is electrically connected with a scheduling module through the medium, the lower stage of the scheduling module is electrically connected with a capturing unit and a selecting unit through the medium, and the capturing unit is electrically connected with the evaluation unit through the medium.

In a second aspect, a method for supervising user-oriented construction project progress comprises the following steps:

step 1: acquiring the content of a target construction project, and receiving construction progress data of the target construction project in real time;

step 2: analyzing the target construction project content, and analyzing the sub project in the target construction project content;

and step 3: performing mutual configuration of the project sub-projects in the overlapping period in all the project sub-projects according to the target construction period of the project sub-projects;

and 4, step 4: receiving the sub-project progress required to be checked by a user side in real time, and feeding back the construction progress of the corresponding sub-project in the construction progress of the target building project received in real time to the user side according to the sub-project target required to be checked by the user side;

and 5: and acquiring the target construction period of each sub-project in the target construction period of the target building project, configuring the daily workload of the sub-project according to the target construction period of the sub-project, and calculating the construction progress of the current theoretical sub-project in real time according to the target construction period progress of the sub-project.

Advantageous effects

Compared with the known public technology, the technical scheme provided by the invention has the following beneficial effects:

1. the invention provides a user-oriented construction project progress supervision system, which can configure a sand table model for a corresponding construction project through the analysis of the construction project, is convenient for the convenience of supervision and check of the construction project progress of a user end by adopting the differentiation of construction projects of a target construction project, and can further distinguish the overlapping construction period of each sub-project through the construction period analysis of each sub-project, so that when the user checks a specified sub-project, the user can synchronously acquire the sub-project information during the synchronous execution of other overlapping construction periods, the user can acquire more effective data when checking the progress of the sub-project, and more comprehensive progress supervision conditions for the construction project are brought to the user.

2. The system can further schedule constructors on a plurality of construction project construction sites according to the construction progress supervision and checking results of the sub-project projects, so that the construction progress of each sub-project on the construction site can be effectively coordinated, and the construction project can be completed according to the target construction period.

3. The invention provides a user-oriented construction project progress supervision method, which can further maintain the stability of system operation through step execution in the method, and can further optimize sub-project real-time data sent to a user side in the step execution process, so that the user side is assisted to read, and the data content is more quickly understood.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the prior art descriptions will be briefly described below. It is obvious that the drawings in the following description are only some embodiments of the invention, and that for a person skilled in the art, other drawings can be derived from them without inventive effort.

FIG. 1 is a schematic diagram of a user-oriented construction project progress supervision system;

FIG. 2 is a schematic flow chart of a user-oriented construction project progress supervision method;

the reference numerals in the drawings represent: 1. a control terminal; 2. loading a module; 21. an analysis unit; 22. a queue unit; 3. a sand table module; 4. a retrieval module; 41. a configuration unit; 42. an evaluation unit; 5. a receiving module; 6. a scheduling module; 61. a capturing unit; 62. and a selection unit.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention. It is to be understood that the embodiments described are only a few embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The present invention will be further described with reference to the following examples.

Example 1

A building engineering progress supervision system facing a user in this embodiment, as shown in fig. 1, includes:

the control terminal 1 is a main control end of the system and is used for sending out a control command;

the loading module 2 is used for loading the system target building engineering content; loading system target building project progress data;

the sand table module 3 is used for receiving the target building electronic drawing loaded into the system target building engineering content in the loading module 2 and building a target building sand table model by referring to the target building electronic drawing;

the retrieval module 4 is used for receiving a target construction period formulated by the target building loaded in the system target building engineering content in the loading module 2, retrieving a target construction period corresponding to each sub-project engineering in the target construction period formulated by the target building, and acquiring the sub-project engineering with the coincident construction period;

the receiving module 5 is used for receiving the sub project projects which need to be checked by the user side;

and the scheduling module 6 is used for scheduling the field constructors of the target building engineering.

In this embodiment, the control terminal 1 controls the loading module 2 to run and load system target building engineering content and target building engineering progress data, the sand table module 3 is installed at the rear and runs to receive a target building electronic drawing loaded into the system target building engineering content in the loading module 2, a target building sand table model is constructed by referring to the target building electronic drawing, the retrieval module 4 receives a target construction period formulated by a target building loaded into the system target building engineering content in the loading module 2, the target construction period formulated by the target building is retrieved in the target construction period formulated by each sub-project, sub-project projects with coincident construction periods are obtained, when the user needs to check the progress of the sub-project in the building engineering, the sub-project which the user needs to check is received by the receiving module 5, the data is sent to the control terminal 1, the user reads the sub-project which needs to check on the control terminal 1, and finally, the scheduling module 6 schedules target building engineering site constructors.

Example 2

In a specific implementation aspect, on the basis of embodiment 1, this embodiment further specifically describes a user-oriented construction project progress monitoring system in embodiment 1 with reference to fig. 1:

the loading module 2 loads the target building project content of the system and comprises the following steps: electronic drawing of a target building and a target construction period formulated by the target building;

the lower level of the loading module 2 is provided with sub-modules, which comprise:

an analysis unit 21 for analyzing each sub project in the target construction project;

a queue unit 22, configured to receive each sub-project analyzed by the analysis unit 21, and perform process queue sorting on each sub-project;

the analysis unit 21 analyzes the electronic drawings of the target buildings synchronously configured according to the content of the sub-project engineering in the sub-project engineering of the target building engineering, and the queue unit 22 refers to the target construction period formulated by the target buildings when the sub-project engineering process queue sorting is carried out.

Through the arrangement of the sub-modules in the loading module 2, data support is further provided for the sand table module 3 when a target building sand table model is constructed.

As shown in fig. 1, when constructing the target building sand table model, the sand table module 3 synchronously refers to each sub-project in the target building project analyzed by the analysis unit 21 to perform sub-model segmentation on the target building sand table model.

So set up, the convenient user side that can the certain degree looks over the target building sand table model that founds according to building engineering.

As shown in fig. 1, the retrieval module 4 is provided with sub-modules at a lower level, including:

the configuration unit 41 is used for acquiring the sub-project projects with the same construction period and configuring the daily workload of the sub-project projects by referring to the target construction period of the sub-project projects;

and the evaluation unit 42 is used for evaluating whether the current construction period progress of the sub-project projects with the coincident construction periods is matched with the accumulated project workload.

Through the arrangement of the subordinate sub-modules of the retrieval module 4, the real-time progress of each sub-project engineering in the building engineering can be analyzed to a certain degree, convenience is brought to a user side when the user side reads the sub-project engineering, and the progress state of the building engineering can be known more visually.

As shown in fig. 1, after configuring the daily workload of the sub-project projects with the same construction period, the configuration unit 41 binds the sub-project projects with the same construction period, and when receiving the sub-project target that the user needs to view, the receiving module 5 synchronously feeds back the construction period progress and the engineering workload corresponding to the sub-project bound by the sub-project target and matched with the sub-project bound by the sub-project target to the control terminal 1 for the user to read;

when the receiving module 5 feeds back the accumulated work amount and schedule of the sub-project corresponding period to the control terminal 1, the synchronous sending evaluating unit 42 evaluates the sub-project in real time.

As shown in fig. 1, the target building sand table model constructed by the sand table module 3 is synchronously displayed on the control terminal 1 when the receiving module 5 feeds data back to the control terminal 1.

As shown in fig. 1, the scheduling module 6 is provided with sub-modules at a lower level, including:

the capturing unit 61 is used for capturing the sub-project projects of which the current construction period progress exceeds the accumulated theoretical value of the project workload in the evaluation unit 42;

the selection unit 62 is used for selecting the sub-project engineering as a scheduling target when the scheduling module 6 performs scheduling on constructors;

and calculating the accumulated theoretical value of the engineering workload according to the current construction period progress of the sub-project engineering and the daily workload of the sub-project engineering.

As shown in fig. 1, the selection unit 62 preferentially selects, as the scheduling target, a sub-project for which the sub-project corresponding periods of the receiving constructors coincide when the sub-project is selected as the scheduling target.

Through the arrangement, the system can schedule constructors according to the construction progress of each sub project engineering on the construction engineering site, ensure the construction progress balance of the construction engineering and enable the construction engineering to be more stably and synchronously developed.

As shown in fig. 1, the control terminal 1 is electrically connected to a loading module 2 through a medium, a lower stage of the loading module 2 is electrically connected to an analysis unit 21 and a queue unit 22 through a medium, the loading module 2 is electrically connected to a sand table module 3 and a retrieval module 4 through a medium, a lower stage of the retrieval module 4 is electrically connected to a configuration unit 41 and an evaluation unit 42 through a medium, the retrieval module 4 is electrically connected to a receiving module 5 through a medium, the receiving module 5 is electrically connected to the configuration unit 41 through a medium, the receiving module 5 is electrically connected to a scheduling module 6 through a medium, a lower stage of the scheduling module 6 is electrically connected to a capturing unit 61 and a selection unit 62 through a medium, and the capturing unit 61 is electrically connected to the evaluation unit 42 through a medium.

Example 3

In a specific implementation aspect, on the basis of embodiment 1, this embodiment further specifically describes a user-oriented construction project progress monitoring system in embodiment 1 with reference to fig. 2:

a user-oriented construction project progress supervision method comprises the following steps:

step 1: acquiring the content of a target construction project, and receiving construction progress data of the target construction project in real time;

step 2: analyzing the target construction project content, and analyzing the sub project in the target construction project content;

and step 3: performing mutual configuration of the project sub-projects in the overlapping period in all the project sub-projects according to the target construction period of the project sub-projects;

and 4, step 4: receiving the sub-project progress required to be checked by a user side in real time, and feeding back the construction progress of the corresponding sub-project in the construction progress of the target building project received in real time to the user side according to the sub-project target required to be checked by the user side;

and 5: and acquiring the target construction period of each sub-project in the target construction period of the target building project, configuring the daily workload of the sub-project according to the target construction period of the sub-project, and calculating the construction progress of the current theoretical sub-project in real time according to the target construction period progress of the sub-project.

In summary, through the analysis of the building engineering according to the embodiment, a sand table model can be configured for the corresponding building engineering, the differentiation of the construction project of the target building engineering is adopted to facilitate the convenience of the user end in monitoring and checking the progress of the building engineering, meanwhile, the construction period of each sub-engineering project is analyzed, and the division of the overlapping construction period is further performed for each sub-engineering project, so that when the user checks a specific sub-engineering project, the sub-project information in the synchronous progress of other overlapping construction periods can be synchronously obtained, the user can obtain more effective data when checking the progress of the sub-engineering project once, more comprehensive progress monitoring conditions for the building engineering are brought to the user, the system can further schedule construction personnel on multiple building engineering construction sites according to the monitoring and checking result of the construction progress of the sub-project, thereby effectively coordinating the construction progress of each sub-project on the construction sites, ensuring that the building engineering project can be completed according to the target construction period, the user-oriented building engineering project monitoring method recorded in the embodiment can further stabilize the operation of the maintenance system, and the user end can further read the sub-project monitoring and checking content of the sub-project in real-project in the execution process of the steps, and the user end can further understand the sub-project monitoring and the sub-project, and the sub-project monitoring and the data can be more quickly read, and the user end can further assist the user end to understand the content of the sub-project.

The above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the corresponding technical solutions.

Claims (10)

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

the control terminal (1) is a main control end of the system and is used for sending out a control command;

the loading module (2) is used for loading the system target building engineering content; loading system target building project progress data;

the sand table module (3) is used for receiving the target building electronic drawing loaded into the system target building engineering content in the loading module (2) and constructing a target building sand table model by referring to the target building electronic drawing;

the retrieval module (4) is used for receiving a target construction period formulated by a target building loaded into the system target building engineering content in the loading module (2), retrieving a target construction period corresponding to each sub-project engineering in the target construction period formulated by the target building, and acquiring sub-project engineering with coincident construction periods;

the receiving module (5) is used for receiving the sub project projects which need to be checked by the user side;

and the scheduling module (6) is used for scheduling the field constructors of the target building engineering.

2. The user-oriented construction project progress supervision system according to claim 1, characterized in that the loading module (2) loads the target construction project content of the system including: electronic drawing of a target building and a target construction period established by the target building;

the lower level of the loading module (2) is provided with sub-modules, which comprise:

an analysis unit (21) for analyzing each sub project in the target construction project;

a queue unit (22) for receiving each sub project analyzed by the analysis unit (21) and sequencing the process queue of each sub project;

the analysis unit (21) analyzes the electronic drawings of the target buildings synchronously according to the content of the sub-project engineering during the sub-project engineering of the target building engineering, and the queue unit (22) refers to the target construction period established by the target buildings during the sub-project engineering process queue sorting.

3. The user-oriented construction project progress supervision system according to claim 1, wherein the sand table module (3) synchronously refers to each sub project in the target construction project analyzed by the analysis unit (21) to perform sub model segmentation on the target construction sand table model when constructing the target construction sand table model.

4. A user-oriented construction project progress supervision system according to claim 1, characterized in that the retrieval module (4) is provided with sub-modules at the lower level, including:

the configuration unit (41) is used for acquiring the sub-project projects with the coincident construction periods and configuring the daily workload of the sub-project projects by referring to the target construction periods of the sub-project projects;

and the evaluation unit (42) is used for evaluating whether the current construction period progress of the sub project projects with the coincident construction periods is matched with the project workload accumulation.

5. The user-oriented construction project progress supervision system according to claim 4, characterized in that the configuration unit (41) binds the sub project projects with the same construction period after performing daily workload configuration on the sub project projects with the same construction period, and the receiving module (5) synchronously feeds back the construction period progress and the project workload corresponding to the sub project which is bound by the sub project targets and is coincident with the sub project targets to the control terminal (1) for the user to read when receiving the sub project targets which the user needs to view;

when the receiving module (5) feeds back the accumulated project workload and the schedule of the corresponding construction period of the sub-project to the control terminal (1), the receiving module synchronously sends an evaluation result of the sub-project by the evaluation unit (42) in real time.

6. The user-oriented construction project progress supervision system according to claim 1, characterized in that the target building sand table model constructed by the sand table module (3) is synchronously displayed on the control terminal (1) when the receiving module (5) feeds back data to the control terminal (1).

7. A user-oriented construction project progress supervision system according to claim 1, characterized in that the scheduling module (6) is provided with sub-modules at the lower level, comprising:

the capturing unit (61) is used for capturing the sub-project projects of which the current construction period progress exceeds the accumulated theoretical value of the project workload in the evaluation unit (42);

the selection unit (62) is used for selecting the sub-project engineering as a scheduling target when the scheduling module (6) performs scheduling on constructors;

and calculating the accumulated theoretical value of the engineering workload according to the current construction period progress of the sub-project engineering and the daily workload of the sub-project engineering.

8. The user-oriented construction project progress supervision system according to claim 7, characterized in that the selection unit (62) preferentially selects sub project projects receiving coincident construction periods of the sub project projects of the constructor as the scheduling target when selecting the sub project projects as the scheduling target.

9. The building engineering progress supervision system facing users according to claim 1, wherein the control terminal (1) is electrically connected with a loading module (2) through a medium, the lower stage of the loading module (2) is electrically connected with an analysis unit (21) and a queue unit (22) through a medium, the loading module (2) is electrically connected with a sand table module (3) and a retrieval module (4) through a medium, the lower stage of the retrieval module (4) is electrically connected with a configuration unit (41) and an evaluation unit (42) through a medium, the retrieval module (4) is electrically connected with a receiving module (5) through a medium, the receiving module (5) is electrically connected with the configuration unit (41) through a medium, the receiving module (5) is electrically connected with a dispatching module (6) through a medium, the lower stage of the dispatching module (6) is electrically connected with a capturing unit (61) and a selection unit (62) through a medium, and the capturing unit (61) is electrically connected with the evaluation unit (42) through a medium.

10. A method of supervising user-oriented construction project progress, the method being implemented in a system as claimed in any one of claims 1 to 9, comprising the steps of:

step 1: acquiring the content of a target construction project, and receiving construction progress data of the target construction project in real time;

step 2: analyzing the target construction project content, and analyzing the sub project in the target construction project content;

and 3, step 3: performing mutual configuration of the project sub-projects of the superposition period in all the project sub-projects according to the target construction period of the project sub-projects;

and 4, step 4: receiving the sub-project progress required to be checked by a user side in real time, and feeding back the construction progress of the corresponding sub-project in the construction progress of the target building project received in real time to the user side according to the sub-project target required to be checked by the user side;

and 5: and acquiring the target construction period of each sub-project in the target construction period of the target building project, configuring the daily workload of the sub-project according to the target construction period of the sub-project, and calculating the construction progress of the current theoretical sub-project in real time according to the target construction period progress of the sub-project.

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