CN110942239A - Automatic inspection method and device for actual engineering progress - Google Patents

Abstract

The application discloses an automatic inspection method of actual engineering progress, which comprises the following steps: importing a construction progress plan; importing an engineering management part tree; establishing a first associated data model; outputting planned image progress engineering quantity of each engineering management part constructed in a preset time period based on the first associated data model; receiving the filling operation of constructors, and acquiring the actual image progress engineering quantity of each engineering management part constructed in the preset time period; and receiving the preset time period input by an operator, and automatically outputting the ratio of the actual image progress engineering quantity to the planned image progress engineering quantity. The design of the method can automatically output the completion rate of the project progress based on the input time period, and the method is simple, reliable and high in efficiency; and the progress plan of the construction unit is very conveniently checked and corrected. In addition, this application still discloses an automatic checkout device of actual engineering progress.

Description

Automatic inspection method and device for actual engineering progress

Technical Field

The application relates to the technical field of engineering projects, in particular to an automatic inspection method and device for actual engineering progress.

Background

In the construction process of a conventional engineering project, the actual execution condition of a progress plan compiled by a construction unit is reported to the construction unit after the progress plan is manually filled by the construction unit or a supervision unit. For large-scale projects, whether the specific execution condition is consistent with the reported condition is often not verified, so that the actual construction progress known by a construction unit is inconsistent with the actual construction progress finished on site. The management of the planned schedule and the actual schedule by the construction unit is not standardized and systematic, and is inefficient.

In addition, the existing project progress auditing method is generally that after the staff reports the finished workload, the staff is handed to the superior leader to audit, but the true situation is that the superior leader cannot verify the authenticity of the staff reporting information, so that the problems that the staff misreports the project quantity and the superior leader cannot obtain the completely true project progress occur.

Disclosure of Invention

The technical problem to be solved by the application is to provide an automatic inspection method of the actual engineering progress, the design of the method can automatically output the completion rate of the engineering progress based on the input time period, and the method is simple, reliable and high in efficiency; and the progress plan of the construction unit can be checked and corrected very conveniently based on the automatically output project progress completion rate. In addition, this application still provides the automatic checkout device of actual engineering progress.

In order to solve the above technical problem, a first aspect of the embodiments of the present application provides an automatic checking method of an actual project progress, including:

importing a construction progress plan, wherein the construction progress plan comprises one or more work task items, and the work task items comprise planned start time and planned completion time;

importing an engineering management part tree which is of a hierarchical structure; the project management part tree comprises at least one project management part module; the project management part module comprises at least one project management part; the project management site includes at least one project component;

establishing a first associated data model, and determining planned starting time and planned completion time of each engineering management part; the first associated data model is an association relation between the work task item and the engineering management part;

outputting planned image progress engineering quantity of each engineering management part constructed in a preset time period based on the first associated data model;

receiving the filling operation of constructors, and acquiring the actual image progress engineering quantity of each engineering management part constructed in the preset time period;

and receiving the preset time period input by an operator, and automatically outputting the ratio of the actual image progress engineering quantity to the planned image progress engineering quantity.

Optionally, the step of outputting the planned visual progress quantities of each engineering management part constructed within a predetermined time period based on the first associated data model includes:

generating an avatar progress plan within the predetermined time period based on the first associated data model; the image progress plan comprises planned image progress sub-project quantities of each project management part planned to be constructed in the preset time period;

and generating the project amount of the planned image progress based on the sum of the sub-project amounts of the planned image progress of each project management part.

Optionally, the step of receiving the report operation of the constructor and acquiring the actual image progress engineering quantity of each engineering management part constructed within the preset time period includes:

receiving actual progress filling information filled by constructors,

the actual progress filling information comprises actual start time and actual completion time of each project part;

acquiring actual image progress sub-project quantities of each project management part in the preset time period;

and generating the actual image drawing progress engineering quantity based on the sum of the actual image progress sub-engineering quantities of all the engineering management parts.

Optionally, the method further includes:

acquiring a first construction site image based on the filling operation of the receiving constructors, wherein the first construction site image comprises information corresponding to the actual image progress engineering quantity of the filling;

forwarding the filled actual image progress engineering quantity and the first construction site image to a supervision terminal, wherein the supervision terminal is used for acquiring a second construction site image, and comparing and checking the second construction site image with the filled actual image progress engineering quantity and the first construction site image;

and receiving an audit result sent by the supervision terminal, wherein the audit result is generated by the filled actual image progress engineering quantity, the first construction site image and the second construction site image.

In addition, to solve the above technical problem, a second aspect of the embodiments of the present application provides an automatic checking method of actual project progress, including:

importing a construction progress plan, wherein the construction progress plan comprises one or more work task items, and the work task items comprise planned start time and planned completion time;

importing an engineering management part tree which is of a hierarchical structure; the project management part tree comprises at least one project management part module; the project management part module comprises at least one project management part; the project management site includes at least one project component;

establishing a first associated data model, and determining planned starting time and planned completion time of each engineering management part; the first associated data model is an association relation between the work task item and the engineering management part;

outputting the total planned image progress project amount of each project management part in a preset time period based on the first associated data model;

receiving the report filling operation of constructors, and acquiring the actual image progress project cumulant of each project management part constructed by the preset time;

and receiving the preset time input by an operator, and automatically outputting the ratio of the actual image progress project cumulant to the planned image progress project total amount.

Furthermore, in order to solve the above technical problem, a third aspect of the embodiments of the present application provides an automatic detection device for actual project progress, including:

the system comprises a first importing unit, a second importing unit and a third importing unit, wherein the first importing unit is used for importing a construction progress plan, the construction progress plan comprises one or more work task items, and the work task items comprise planned start time and planned completion time;

the second import unit is used for importing an engineering management part tree which is of a hierarchical structure; the project management part tree comprises at least one project management part module; the project management part module comprises at least one project management part; the project management site includes at least one project component;

the building unit is used for building a first associated data model and determining the planned start time and the planned completion time of each engineering management part; the first associated data model is an association relation between the work task item and the engineering management part;

the first output unit is used for outputting the planned image progress engineering quantity of each engineering management part constructed in a preset time period based on the first associated data model;

the first receiving unit is used for receiving the filling operation of constructors and acquiring the actual image progress engineering quantity of each engineering management part constructed in the preset time period;

and the second output unit is used for receiving the preset time period input by an operator and automatically outputting the ratio of the actual image progress engineering quantity to the planned image progress engineering quantity.

Optionally, the method further includes:

the acquisition unit is used for acquiring a first construction site image based on the filling operation of the receiving constructors, wherein the first construction site image comprises information corresponding to the actual image progress engineering quantity filled in;

the comparison and verification unit is used for forwarding the filled actual image progress engineering quantity and the first construction site image to a supervision terminal, and the supervision terminal is used for acquiring a second construction site image and comparing and verifying the second construction site image with the filled actual image progress engineering quantity and the first construction site image;

and the second receiving unit is used for receiving an auditing result sent by the supervision terminal, and the auditing result is generated by the filled actual image progress engineering quantity, the first construction site image and the second construction site image.

Finally, to solve the above technical problem, a fourth aspect of the embodiments of the present application provides an automatic checking device for actual project progress, including:

the system comprises a first importing unit, a second importing unit and a third importing unit, wherein the first importing unit is used for importing a construction progress plan, the construction progress plan comprises one or more work task items, and the work task items comprise planned start time and planned completion time;

the second import unit is used for importing an engineering management part tree which is of a hierarchical structure; the project management part tree comprises at least one project management part module; the project management part module comprises at least one project management part; the project management site includes at least one project component;

the building unit is used for building a first associated data model and determining the planned start time and the planned completion time of each engineering management part; the first associated data model is an association relation between the work task item and the engineering management part;

the first output unit is used for outputting the total planned image progress project amount of each project management part in a preset time period based on the first associated data model;

the first receiving unit is used for receiving the filling operation of constructors and acquiring the actual image progress project cumulant of each project management part constructed by the preset time;

and the second output unit is used for receiving the preset time input by an operator and automatically outputting the ratio of the accumulated amount of the actual image progress project to the total amount of the planned image progress project.

In an embodiment of the application, an automatic inspection method of actual engineering progress comprises the following steps:

importing a construction progress plan, wherein the construction progress plan comprises one or more work task items, and the work task items comprise planned start time and planned completion time;

importing an engineering management part tree which is of a hierarchical structure; the project management part tree comprises at least one project management part module; the project management part module comprises at least one project management part; the project management site includes at least one project component;

establishing a first associated data model, and determining planned starting time and planned completion time of each engineering management part; the first associated data model is an association relation between the work task item and the engineering management part;

outputting planned image progress engineering quantity of each engineering management part constructed in a preset time period based on the first associated data model;

receiving the filling operation of constructors, and acquiring the actual image progress engineering quantity of each engineering management part constructed in the preset time period;

and receiving the preset time period input by an operator, and automatically outputting the ratio of the actual image progress engineering quantity to the planned image progress engineering quantity.

In the design of the method, the planned image progress engineering quantity of each engineering management part is generated through the first associated data model, and the actual image progress engineering quantity of each engineering management part constructed in the preset time period is obtained through the filling operation of constructors. When the constructor needs to inquire the corresponding project progress, the system can automatically output the planned image progress engineering quantity of a certain month or a certain week and the actual image progress engineering quantity stored in the early stage only by inputting a corresponding time period, such as a certain month or a certain week, and obtain the ratio of the planned image progress engineering quantity and the actual image progress engineering quantity, so that the project progress completion rate at the current moment can be obtained. Of course, if a past month or a week is inputted by the construction side, the planned visual progress project quantity of the past month or the week and the actual visual progress project quantity stored in the previous period can be obtained, and the ratio of the planned visual progress project quantity and the actual visual progress project quantity is obtained, so that the completion rate of the project progress of the past month or the week can be obtained.

In conclusion, compared with the original manual operation mode, the design can automatically output the completion rate of the project progress based on the input time period, and is simple, reliable and high in efficiency; and the progress plan of the construction unit can be checked and corrected very conveniently based on the automatically output project progress completion rate.

The technical effect of the automatic checking device for the actual engineering progress provided by the application is the same as that of the method, and the detailed description is omitted here.

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 description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and those skilled in the art can also obtain other drawings according to the drawings without creative efforts.

FIG. 1 is a logic flow diagram of a method for automatically verifying actual project progress in one embodiment provided herein;

fig. 2 is a functional block diagram of an automatic checking device for actual project progress in an embodiment provided in the present application.

Detailed Description

In order to make the technical solutions of the present invention better understood, 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.

In some of the flows described in the present specification and claims and in the above figures, a number of operations are included that occur in a particular order, but it should be clearly understood that these operations may be performed out of order or in parallel as they occur herein, with the order of the operations being indicated as 101, 102, etc. merely to distinguish between the various operations, and the order of the operations by themselves does not represent any order of performance. Additionally, the flows may include more or fewer operations, and the operations may be performed sequentially or in parallel. It should be noted that, the descriptions of "first", "second", etc. in this document are used for distinguishing different messages, devices, modules, etc., and do not represent a sequential order, nor limit the types of "first" and "second" to be different.

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, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the 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.

Referring to fig. 1, fig. 1 is a logic flow diagram of an automatic checking method of actual project progress according to an embodiment of the present disclosure.

In an embodiment of the present application, as shown in fig. 1, the method for automatically checking the actual project progress includes

Step S101: importing a construction progress plan; the construction schedule plan includes one or more work task items including planned start time and planned completion time.

Step S102: importing an engineering management part tree which is of a hierarchical structure; the project management part tree comprises at least one project management part module; the project management part module comprises at least one project management part; the project management site includes at least one project component.

Step S103: establishing a first associated data model, and determining planned starting time and planned completion time of each engineering management part; the first associated data model is an association relation between the work task item and the engineering management part.

Step S104: and outputting the planned image progress engineering quantity of each engineering management part constructed in a preset time period based on the first associated data model.

Step S105: receiving the filling operation of constructors, and acquiring the actual image progress engineering quantity of each engineering management part constructed in a preset time period.

Step S106: and receiving a preset time period input by an operator, and automatically outputting the ratio of the actual image progress engineering quantity to the planned image progress engineering quantity.

In the method design, the planned image progress engineering quantity of each engineering management part is generated through the first associated data model, and the actual image progress engineering quantity of each engineering management part constructed in a preset time period is obtained through the filling operation of constructors. When the constructor needs to inquire the corresponding project progress, the system can automatically output the planned image progress engineering quantity of a certain month or a certain week and the actual image progress engineering quantity stored in the early stage only by inputting a corresponding time period, such as a certain month or a certain week, and obtain the ratio of the planned image progress engineering quantity and the actual image progress engineering quantity, so that the project progress completion rate at the current moment can be obtained. Of course, if a past month or a week is inputted by the construction side, the planned visual progress project quantity of the past month or the week and the actual visual progress project quantity stored in the previous period can be obtained, and the ratio of the planned visual progress project quantity and the actual visual progress project quantity is obtained, so that the completion rate of the project progress of the past month or the week can be obtained.

In conclusion, compared with the original manual operation mode, the design can automatically output the completion rate of the project progress based on the input time period, and is simple, reliable and high in efficiency; and the progress plan of the construction unit can be checked and corrected very conveniently based on the automatically output project progress completion rate.

In the above-described embodiments, further improvements can be made.

For example, the step of outputting the planned visual progress project amount of each project management part constructed in a predetermined time period based on the first associated data model includes:

generating an image progress plan within a predetermined time period based on the first associated data model; the image progress plan comprises planned image progress sub-project quantities of each project management part planned to be constructed in a preset time period; and generating the project amount of the planned image progress based on the sum of the sub-project amounts of the planned image progress of each project management part.

Because there are many project management parts, the sum of the sub-project quantities of the planned image progress of each project management part is counted to obtain the project quantity of the planned image progress.

In addition, the step of receiving the filling operation of the constructor and acquiring the actual image progress engineering quantity of each engineering management part constructed in a preset time period comprises the following steps:

receiving actual progress filling information filled by constructors, wherein the actual progress filling information comprises actual start time and actual completion time of each engineering part;

acquiring actual image progress sub-project quantities of each project management part in a preset time period; and generating the actual image progress drawing engineering quantity based on the sum of the actual image progress sub-engineering quantities of all the engineering management parts.

Because there are many project management parts, the sum of the sub-project quantities of the actual image progress of each project management part is counted to obtain the project quantity of the planned image progress.

In the above-described embodiments, further improvements can be made. For example, a first construction site image is obtained based on the filling operation of the receiving constructors, wherein the first construction site image comprises information corresponding to the actual image progress engineering quantity of filling;

forwarding the filled actual image progress engineering quantity and the first construction site image to a supervision terminal, wherein the supervision terminal is used for acquiring a second construction site image, and comparing and checking the second construction site image with the filled actual image progress engineering quantity and the first construction site image;

and receiving an audit result sent by the supervision terminal, wherein the audit result is generated by the filled actual image progress engineering quantity, the first construction site image and the second construction site image.

According to the technical scheme, the received information filled by the constructors, the uploaded first construction site image and the second construction site image obtained by the supervision terminal are compared and audited, the authenticity of the filled engineering quantity progress can be visually judged, and therefore the problems that in the prior art, after the work quantity filled by the constructors is finished, the constructors are handed to the superior leaders to audit, but the superior leaders cannot verify the authenticity of the information filled by the constructors, the constructors misreport the engineering quantity, and the superior leaders cannot obtain the completely real engineering progress are solved.

In the above-described embodiments, further improvements can be made.

Importing and establishing a three-dimensional model corresponding to the engineering project and an image progress statistical index standard;

according to a built-in mapping rule, associating the imported image progress index standard with the imported engineering management part;

and importing and acquiring the image progress engineering quantity of each engineering management part, and generating the planned image progress engineering total quantity of the imported project.

In addition, the present application provides another embodiment.

For example, a construction progress plan is imported, the construction progress plan comprises one or more work task items, and the work task items comprise planned start time and planned completion time;

importing an engineering management part tree which is of a hierarchical structure; the project management part tree comprises at least one project management part module; the project management part module comprises at least one project management part; the project management site comprises at least one project component;

establishing a first associated data model, and determining planned starting time and planned completion time of each engineering management part; the first associated data model is an associated relation between the work task item and the engineering management part;

outputting the total planned image progress project amount of each project management part in a preset time period based on the first associated data model;

receiving the report filling operation of constructors, and acquiring the actual image progress project cumulant of each project management part constructed by the preset time;

and receiving a preset moment input by an operator, and automatically outputting the ratio of the accumulated amount of the actual image progress project to the total amount of the planned image progress project.

The technical scheme can obtain the project progress completion rate accumulated until the current moment.

In a specific application scenario, the above technical solution can be implemented in the following manner:

specifically, in the above steps, the project management part tree of the project is sorted and built according to the construction range of the project.

The engineering components with the same management attributes correspond to the same engineering management part. For example, a frame beam, a frame column, a structural column, a floor slab and the like in the building engineering, the system further comprises an engineering management part module, the engineering management part module comprises a plurality of engineering management parts, wherein engineering components with the same management attribute correspond to the same engineering management part, for example, all the frame beams on the same layer are divided into an engineering management part A. The project management part can be understood as a management object of a project, and the division of the management object is customized, such as: the engineering components can be a plurality of layers, one engineering component can be one layer, or one engineering component can be a plurality of layers. The built project management part also comprises an image progress index associated with each project management part and a planned image progress project amount corresponding to each index.

And importing a progress plan of the project, and establishing an association relation between a project progress plan task item and a project management part. The imported schedule includes one or more work task items with a schedule start time and a schedule completion time. And establishing an incidence relation between the task item and the engineering management part.

According to the imported project schedule, the system automatically generates a monthly and weekly image schedule. The image schedule plan includes project management sites planned to be constructed every month and every week.

The construction unit finishes the project management part according to the monthly and weekly plans, and determines the planned image progress project quantity of each project part needing to be finished each month and each week.

Acquiring actual progress filling information of a constructor, and according to the acquired actual progress filling information, synchronously acquiring the construction state of a project part: not built, under construction and built.

For the project management part with the built and established state, the information comprises the actual starting time, the actual finishing time and the actual progress project amount of the image in the past.

For example, engineering sites: 4.6 ~ 9m layer brickwork wall, its associated image progress index is the brickwork wall, and actual start time is 2019.3.28, and actual finish time is 2019.4.3. When the actual progress is reported in the construction unit, the actual progress can be actually reported according to the actual completion condition every dayThe formed image is entered into metric filling. 2019.3.28 complete 98.12m³2019.3.29 actual completion 121.4m³2019.3.30 actual completion 88.6m³… … in turn report the actual completion amount per day.

For example, the associated image progress indexes of 4.6-9 m layers of frame columns at the engineering position are beam slab column concrete, the actual starting time is 2019.1.10, and the actual finishing time is 2019.2.10. The concrete pouring is performed at one time, so that when the actual progress of the actual completion time of 2019.2.10 days is reported, construction units synchronously fill the actual image progress amount of 143.98m³。

And automatically summarizing and counting the monthly and weekly planned image progress completion total amount according to the planned monthly and weekly image progress engineering quantity corresponding to the monthly and weekly planned engineering management parts determined by the construction unit in the image progress plan.

And automatically summarizing and counting the actual finished image progress measurement of each month and each week according to the filling date when the actual finished image progress measurement is filled in the acquired actual progress filling information.

According to the project part tree and the associated image progress amount on the part tree, the system automatically performs monthly and weekly progress completion analysis by taking unit project as a statistical unit by combining the planned image progress completion amount and the actual filling completion image progress amount of each month and each week: monthly, weekly actual schedule completion rates and cumulative actual schedule completion rates.

Total planned visual progress project (1): the accumulated number of different image progress indexes on the engineering part under the same unit engineering;

plan image and progress project amount (2): the accumulated plan completion number of different image progress indexes on the engineering part under the same unit engineering every month or every week;

actual image progress engineering quantity (3): the accumulated actual filling completion quantity of different image progress indexes on the engineering part under the same unit engineering every month or every week;

monthly/weekly actual progress completion rate (4): 3/2 ═ c

Cumulative actual progress completion rate (5): (∑ 3)/1.

In addition, the present application also provides an apparatus embodiment corresponding to the above method embodiment, please refer to fig. 2, and fig. 2 is a functional block diagram of an automatic inspection apparatus for actual engineering progress in an embodiment provided by the present application.

An automatic detection device for actual engineering progress provided by the embodiment of the present application, as shown in fig. 2, includes:

the system comprises a first import unit, a second import unit and a third import unit, wherein the first import unit is used for importing a construction progress plan, the construction progress plan comprises one or more work task items, and the work task items comprise planned start time and planned completion time;

the second import unit is used for importing an engineering management part tree, and the engineering management part tree is of a hierarchical structure; the project management part tree comprises at least one project management part module; the project management part module comprises at least one project management part; the project management site comprises at least one project component;

the building unit is used for building a first associated data model and determining the planned start time and the planned completion time of each project management part; the first associated data model is an associated relation between the work task item and the engineering management part;

the first output unit is used for outputting the planned image progress engineering quantity of each engineering management part constructed in a preset time period based on the first associated data model;

the first receiving unit is used for receiving the filling operation of constructors and acquiring the actual image progress engineering quantity of each engineering management part constructed in a preset time period;

and the second output unit is used for receiving the preset time period input by the operator and automatically outputting the ratio of the actual image progress engineering quantity to the planned image progress engineering quantity.

Further improvements can be made in the above embodiments.

For example, the apparatus further comprises:

the system comprises an acquisition unit, a processing unit and a processing unit, wherein the acquisition unit is used for acquiring a first construction site image based on the filling operation of receiving constructors, and the first construction site image comprises information corresponding to the actual image progress engineering quantity filled and reported;

the comparison and verification unit is used for forwarding the filled actual image progress engineering quantity and the first construction site image to the supervision terminal, and the supervision terminal is used for acquiring a second construction site image and comparing and verifying the second construction site image, the filled actual image progress engineering quantity and the first construction site image;

and the second receiving unit is used for receiving the auditing result sent by the supervision terminal, and the auditing result is generated by the filled actual image progress engineering quantity, the first construction site image and the second construction site image.

In addition, the present application provides another apparatus embodiment. For example, the apparatus includes:

the system comprises a first import unit, a second import unit and a third import unit, wherein the first import unit is used for importing a construction progress plan, the construction progress plan comprises one or more work task items, and the work task items comprise planned start time and planned completion time;

the second import unit is used for importing an engineering management part tree, and the engineering management part tree is of a hierarchical structure; the project management part tree comprises at least one project management part module; the project management part module comprises at least one project management part; the project management site comprises at least one project component;

the building unit is used for building a first associated data model and determining the planned start time and the planned completion time of each project management part; the first associated data model is an associated relation between the work task item and the engineering management part;

the first output unit is used for outputting the total planned image progress project amount of each project management part in a preset time period based on the first associated data model;

the first receiving unit is used for receiving the filling operation of constructors and acquiring the actual image progress project cumulant of each project management part constructed by the preset time;

and the second output unit receives the preset time input by the operator and automatically outputs the ratio of the accumulated amount of the actual image progress project to the total amount of the planned image progress project.

It can be clearly understood by those skilled in the art that, for convenience and brevity of description, the specific working processes and corresponding technical effects of the above-described systems, apparatuses and units may refer to the corresponding processes in the foregoing method embodiments, and are not described herein again.

The above-described embodiments of the apparatus are merely illustrative, and the units described as separate parts may or may not be physically separate, and the parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the modules may be selected according to actual needs to achieve the purpose of the solution of the present embodiment. One of ordinary skill in the art can understand and implement it without inventive effort.

Through the above description of the embodiments, those skilled in the art will clearly understand that each embodiment can be implemented by software plus a necessary general hardware platform, and certainly can also be implemented by hardware. With this understanding in mind, the above-described technical solutions may be embodied in the form of a software product, which can be stored in a computer-readable storage medium, such as ROM/RAM, magnetic disk, optical disk, etc., and includes instructions for causing a computer device (which may be a personal computer, a server, or a network device, etc.) to execute the methods of the various embodiments or some parts of the embodiments.

Finally, it should be noted that: 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; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (8)

1. An automatic inspection method for actual project progress is characterized by comprising the following steps:

importing a construction progress plan, wherein the construction progress plan comprises one or more work task items, and the work task items comprise planned start time and planned completion time;

importing an engineering management part tree which is of a hierarchical structure; the project management part tree comprises at least one project management part module; the project management part module comprises at least one project management part; the project management site includes at least one project component;

establishing a first associated data model, and determining planned starting time and planned completion time of each engineering management part; the first associated data model is an association relation between the work task item and the engineering management part;

outputting planned image progress engineering quantity of each engineering management part constructed in a preset time period based on the first associated data model;

receiving the filling operation of constructors, and acquiring the actual image progress engineering quantity of each engineering management part constructed in the preset time period;

and receiving the preset time period input by an operator, and automatically outputting the ratio of the actual image progress engineering quantity to the planned image progress engineering quantity.

2. The automatic checking method of actual project progress according to claim 1, wherein the step of outputting the planned visual progress quantities of each project management site under construction for a predetermined time period based on the first associated data model comprises:

generating an avatar progress plan within the predetermined time period based on the first associated data model; the image progress plan comprises planned image progress sub-project quantities of each project management part planned to be constructed in the preset time period;

and generating the project amount of the planned image progress based on the sum of the sub-project amounts of the planned image progress of each project management part.

3. The automatic checking method of actual project progress according to claim 1, wherein the step of receiving the report operation of constructors and obtaining the actual visual progress project amount of each project management site constructed within the predetermined time period comprises:

receiving actual progress filling information filled by constructors, wherein the actual progress filling information comprises actual start time and actual completion time of each engineering part;

acquiring actual image progress sub-project quantities of each project management part in the preset time period;

and generating the actual image drawing progress engineering quantity based on the sum of the actual image progress sub-engineering quantities of all the engineering management parts.

4. A method for automatically verifying actual project progress according to any one of claims 1 to 3, further comprising:

acquiring a first construction site image based on the filling operation of the receiving constructors, wherein the first construction site image comprises information corresponding to the actual image progress engineering quantity of the filling;

forwarding the filled actual image progress engineering quantity and the first construction site image to a supervision terminal, wherein the supervision terminal is used for acquiring a second construction site image, and comparing and checking the second construction site image with the filled actual image progress engineering quantity and the first construction site image;

and receiving an audit result sent by the supervision terminal, wherein the audit result is generated by the filled actual image progress engineering quantity, the first construction site image and the second construction site image.

5. An automatic inspection method for actual project progress is characterized by comprising the following steps:

importing a construction progress plan, wherein the construction progress plan comprises one or more work task items, and the work task items comprise planned start time and planned completion time;

importing an engineering management part tree which is of a hierarchical structure; the project management part tree comprises at least one project management part module; the project management part module comprises at least one project management part; the project management site includes at least one project component;

establishing a first associated data model, and determining planned starting time and planned completion time of each engineering management part; the first associated data model is an association relation between the work task item and the engineering management part;

outputting the total planned image progress project amount of each project management part in a preset time period based on the first associated data model;

receiving the report filling operation of constructors, and acquiring the actual image progress project cumulant of each project management part constructed by the preset time;

and receiving the preset time input by an operator, and automatically outputting the ratio of the actual image progress project cumulant to the planned image progress project total amount.

6. An automatic detection device of actual engineering progress, characterized by includes:

the system comprises a first importing unit, a second importing unit and a third importing unit, wherein the first importing unit is used for importing a construction progress plan, the construction progress plan comprises one or more work task items, and the work task items comprise planned start time and planned completion time;

the second import unit is used for importing an engineering management part tree which is of a hierarchical structure; the project management part tree comprises at least one project management part module; the project management part module comprises at least one project management part; the project management site includes at least one project component;

the building unit is used for building a first associated data model and determining the planned start time and the planned completion time of each engineering management part; the first associated data model is an association relation between the work task item and the engineering management part;

the first output unit is used for outputting the planned image progress engineering quantity of each engineering management part constructed in a preset time period based on the first associated data model;

the first receiving unit is used for receiving the filling operation of constructors and acquiring the actual image progress engineering quantity of each engineering management part constructed in the preset time period;

and the second output unit is used for receiving the preset time period input by an operator and automatically outputting the ratio of the actual image progress engineering quantity to the planned image progress engineering quantity.

7. The automatic detection apparatus of actual project progress according to claim 6, characterized by further comprising:

the acquisition unit is used for acquiring a first construction site image based on the filling operation of the receiving constructors, wherein the first construction site image comprises information corresponding to the actual image progress engineering quantity filled in;

the comparison and verification unit is used for forwarding the filled actual image progress engineering quantity and the first construction site image to a supervision terminal, and the supervision terminal is used for acquiring a second construction site image and comparing and verifying the second construction site image with the filled actual image progress engineering quantity and the first construction site image;

and the second receiving unit is used for receiving an auditing result sent by the supervision terminal, and the auditing result is generated by the filled actual image progress engineering quantity, the first construction site image and the second construction site image.

8. An automatic checking device of actual engineering progress, characterized by comprising:

the system comprises a first importing unit, a second importing unit and a third importing unit, wherein the first importing unit is used for importing a construction progress plan, the construction progress plan comprises one or more work task items, and the work task items comprise planned start time and planned completion time;

the second import unit is used for importing an engineering management part tree which is of a hierarchical structure; the project management part tree comprises at least one project management part module; the project management part module comprises at least one project management part; the project management site includes at least one project component;

the building unit is used for building a first associated data model and determining the planned start time and the planned completion time of each engineering management part; the first associated data model is an association relation between the work task item and the engineering management part;

the first output unit is used for outputting the total planned image progress project amount of each project management part in a preset time period based on the first associated data model;

the first receiving unit is used for receiving the filling operation of constructors and acquiring the actual image progress project cumulant of each project management part constructed by the preset time;

and the second output unit is used for receiving the preset time input by an operator and automatically outputting the ratio of the accumulated amount of the actual image progress project to the total amount of the planned image progress project.

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