CN111476425A

CN111476425A - Engineering project cost progress supervision system and method

Info

Publication number: CN111476425A
Application number: CN202010296188.4A
Authority: CN
Inventors: 胡江昊; 李兵; 贾登泽
Original assignee: Zhongdao Minghua Construction Project Consulting Co ltd
Current assignee: Zhongdao Minghua Construction Project Consulting Co ltd
Priority date: 2020-04-15
Filing date: 2020-04-15
Publication date: 2020-07-31

Abstract

The invention relates to a project cost progress supervision system and a project cost progress supervision method, which comprise a cloud server and a project terminal: the project terminal is in communication connection with the cloud server and is used for sending construction photos of a construction site to the cloud server; the cloud server comprises a project plan module, a block chain building module and a project progress module: the project planning module is used for acquiring a construction cost file related to construction cost, planning the construction cost according to a construction cost flow and obtaining a planning progress data table; the block chain building module is used for obtaining corresponding processing nodes in the schedule data table and forming the processing nodes into a project cost block chain according to the project cost flow; and the project progress module obtains the construction progress of the current processing node according to the acquired construction photo, generates a three-dimensional model graph by using a BIM (building information modeling) system when the construction progress is abnormal with the progress of the schedule data sheet, and predicts the time and construction cost for completing the current processing node according to the information of the project list.

Description

Engineering project cost progress supervision system and method

Technical Field

The invention relates to the technical field of engineering management, in particular to a system and a method for supervising construction project cost progress.

Background

The information technology is rapidly developed, and new technologies represented by mobile internet, internet of things, cloud computing and the like are widely applied to various social industries, so that the production and living modes of people are continuously changed, and the huge progress of the society is promoted. The enterprise in charge of bid inviting can make project cost for the accepted project before bid inviting, and the existing cost process is the work of cost calculation for the accepted project according to the information provided by the working personnel and the information obtained by the self-to-site survey.

At present, a chinese patent with publication number CN107392568A discloses a project cost management system, which comprises a project collection module, a project contract module, a project registration module, a project implementation module and a project filing module, and realizes paperless network office and reasonable and balanced task scheduling, relatively reasonable performance distribution results and resource sharing in companies through a series of processes such as project collection, contract management, project registration, project implementation opinion data filing and the like.

However, the work of the cost workers needs to be supervised due to the complexity of the cost work, the cost work of the cost workers can only be supervised by related personnel at present, the requirement of automatic office is not met, and meanwhile, additional workers are needed, so that the waste of human resources is caused.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide the project cost progress monitoring system which has the advantages of monitoring the progress cost information of each processing node of the project, high efficiency and high accuracy.

The above object of the present invention is achieved by the following technical solutions:

a project cost progress supervision system comprises a cloud server and a project terminal:

the project terminal is in communication connection with the cloud server and is used for sending construction photos of a construction site to the cloud server;

the cloud server comprises a project plan module, a block chain building module and a project progress module:

the project planning module is used for acquiring project bidding documents, project lists and construction cost documents related to construction cost in construction drawings, planning and arranging the construction cost according to a construction cost flow and acquiring a planning progress data table;

the block chain building module is used for acquiring corresponding processing nodes in the schedule data table and forming the processing nodes into a project cost block chain according to the project cost flow;

and the project progress module is used for performing big data integration and analysis on the construction information in the acquired construction photo, obtaining the construction progress of the current processing node, generating a three-dimensional model graph of the current processing node by using the BIM system when the construction progress is abnormal to the progress of the plan data table, and predicting the time and construction cost of the current processing node according to the information of the project list.

By adopting the technical scheme, the three-dimensional model graph of the construction project is established according to the construction drawing, the engineering quantity of each processing node can be intuitively calculated, and the construction cost of the whole construction project is quickly calculated by referring to the engineering price; processing nodes corresponding to each flow step of the construction cost are built into a construction cost block chain through a block chain technology, and the time of progress management can be shortened and the efficiency of progress management can be improved by utilizing the function of rapid processing provided by the block chain; meanwhile, each process node is formed into a corresponding node subchain based on a block chain technology, and each process is developed all the time according to a time sequence, so that the characteristics of irreversible time and non-falsification in the block chain are well utilized, and the accuracy of each process is ensured.

The present invention in a preferred example may be further configured to: the cloud server further comprises a risk evaluation module, and the risk evaluation module is used for carrying out automatic risk evaluation on the found abnormity and reasons, automatically issuing early warning and intelligently adjusting the schedule data sheet.

By adopting the technical scheme, the risk evaluation module intelligently adjusts the completion time of each processing node, so that each processing node is compactly connected, and the engineering efficiency of a construction project is improved.

The present invention in a preferred example may be further configured to: the cloud server further comprises a reminding module, and the reminding module is used for sending the schedule progress data table to the project terminal for real-time display and reminding project responsible persons when the schedule progress data table is updated.

By adopting the technical scheme, the reminding module reminds the project responsible person when the schedule data sheet is updated, so that the project responsible person of the next processing node can reasonably arrange the follow-up time of the project.

The present invention in a preferred example may be further configured to: the cloud server is used for sending the engineering cost files of the processing nodes to the corresponding cost member terminals when the processing nodes are finished.

By adopting the technical scheme, a constructor can calculate the construction cost of each processing node according to the project cost file when each processing node is finished, and then the construction costs of all the processing nodes are added to obtain the construction cost of the whole construction project, so that the construction cost of the whole construction project can be calculated more quickly.

The present invention in a preferred example may be further configured to: the block chain building module comprises:

the progress acquiring unit is used for acquiring the processing progress content and the corresponding processing time of each processing node;

the calculating unit is used for calculating a hash value corresponding to the processing progress content of each processing node according to a hash algorithm;

and the block chain building unit is used for forming the project cost block chain according to the hash value corresponding to each processing progress content and the corresponding processing time.

By adopting the technical scheme, each processing node is combined into the block chain by using the mode of forming the block chain, a reliable framework is provided for the project cost progress management, and when a new process is built each time, the processing nodes are directly added into the corresponding processing nodes in the block chain, so that the efficiency of the progress management is improved.

The second aim of the invention is realized by the following technical scheme:

a method for supervising construction project cost progress is characterized by comprising the following steps:

s1, planning and arranging the construction cost according to the acquired project bidding documents, project lists and construction cost documents related to the construction cost in the construction drawings by combining the construction cost flow to obtain a planning progress data table;

s2, acquiring corresponding processing nodes through the schedule data sheet, and combining the processing nodes with the project cost flow to form a project cost block chain;

s3, according to the schedule data sheet, taking construction pictures of a construction site, performing big data integration and analysis on construction information in the obtained construction pictures, obtaining the construction progress of the current processing node, when the construction progress and the schedule data sheet progress are abnormal, generating a three-dimensional model diagram of the current processing node by using a BIM system, and predicting the time and construction cost of the current processing node according to the information of the project list.

The present invention in a preferred example may be further configured to: in step S3, automatically evaluating the risk of the detected abnormality and cause, and automatically issuing an early warning; meanwhile, the schedule is intelligently adjusted, and a project responsible person is reminded.

By adopting the technical scheme, the completion time of each processing node is intelligently adjusted, so that each processing node is compactly connected, and the engineering efficiency of a construction project is improved.

The present invention in a preferred example may be further configured to: and sending the project cost file of each processing node to the corresponding cost member when each processing node is finished.

By adopting the technical scheme, a constructor can calculate the construction cost of each processing node according to the project cost file when each processing node is finished.

In summary, the invention includes at least one of the following beneficial technical effects:

1. establishing a three-dimensional model diagram of a construction project according to a construction drawing, calculating the engineering quantity of each processing node very intuitively, and quickly calculating the construction cost of the whole construction project by referring to the engineering price; processing nodes corresponding to each flow step of the construction cost are built into a construction cost block chain through a block chain technology, and the time of progress management can be shortened and the efficiency of progress management can be improved by utilizing the function of rapid processing provided by the block chain; meanwhile, each process node is formed into a corresponding node subchain based on a block chain technology, and as each process is developed all the time according to a time sequence, the characteristics of irreversible time and non-falsification in the block chain are well utilized, and the accuracy of each process is ensured;

2. the risk assessment module intelligently adjusts the completion time of each processing node, so that the processing nodes are compactly connected, and the engineering efficiency of a construction project is improved.

Drawings

FIG. 1 is a system block diagram of an embodiment of the invention.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

A project cost progress supervision system, refer to FIG. 1, includes cloud server and project terminal: the project terminal is in communication connection with the cloud server and is used for sending construction photos of a construction site to the cloud server; the cloud server comprises a project plan module, a block chain building module and a project progress module: the project planning module is used for acquiring project bidding documents, project lists and construction cost documents related to construction cost in the construction drawings, planning the construction cost according to the construction cost flow and acquiring a planning progress data table; the block chain building module is used for obtaining corresponding processing nodes in the schedule data table and forming the processing nodes into a project cost block chain according to the project cost flow; and the project progress module is used for performing big data integration and analysis on the construction information in the acquired construction photo, obtaining the construction progress of the current processing node, generating a three-dimensional model graph of the current processing node by using the BIM system when the construction progress is abnormal to the progress of the plan data table, and predicting the time and construction cost of the current processing node according to the information of the project list.

Establishing a three-dimensional model diagram of a construction project according to a construction drawing, calculating the engineering quantity of each processing node very intuitively, and quickly calculating the construction cost of the whole construction project by referring to the engineering price; processing nodes corresponding to each flow step of the construction cost are built into a construction cost block chain through a block chain technology, and the time of progress management can be shortened and the efficiency of progress management can be improved by utilizing the function of rapid processing provided by the block chain; meanwhile, each process node is formed into a corresponding node subchain based on a block chain technology, and each process is developed all the time according to a time sequence, so that the characteristics of irreversible time and non-falsification in the block chain are well utilized, and the accuracy of each process is ensured.

After the construction photo is received, the corresponding building in the construction photo can be extracted by adopting relatively mature image processing software in the prior art, the proportion of the building is adjusted to be consistent with the three-dimensional model graph, then the building is compared with the three-dimensional model graph, and the processing node can be known to be approximately completed by a few percent through comparison due to the fact that the engineering quantity of the whole construction project is known, so that the construction progress of the current processing node can be rapidly calculated.

The cloud server also comprises a risk evaluation module, wherein the risk evaluation module is used for carrying out automatic risk evaluation on the found abnormity and reasons, automatically issuing early warning and intelligently adjusting a schedule data table; the risk assessment module intelligently adjusts the completion time of each processing node, so that the processing nodes are compactly connected, and the engineering efficiency of a construction project is improved. The cloud server also comprises a reminding module, wherein the reminding module is used for sending the schedule progress data table to the project terminal for real-time display and reminding a project responsible person when the schedule progress data table is updated; and the reminding module reminds the project responsible person when the schedule data sheet is updated, so that the project responsible person of the next processing node can reasonably arrange the follow-up time of the project.

The cloud server is used for sending the project cost files of the processing nodes to the corresponding cost worker terminals when the processing nodes are finished; when each processing node is finished, a constructor can calculate the construction cost of each processing node according to the project cost file, and then the construction costs of all the processing nodes are added to obtain the construction cost of the whole construction project, so that the construction cost of the whole construction project can be calculated more quickly.

The block chain building module comprises: the progress acquiring unit is used for acquiring the processing progress content and the corresponding processing time of each processing node; the calculating unit is used for calculating a hash value corresponding to the processing progress content of each processing node according to a hash algorithm; and the block chain building unit is used for forming the project cost block chain according to the hash value corresponding to each processing progress content and the corresponding processing time. And when a new process is established every time, the processing nodes are directly added into the corresponding processing nodes in the block chain, so that the efficiency of progress management is improved. The hash algorithm in the present invention maps a binary value of any length to a binary value of a shorter fixed length, and this small binary value is called a hash value. Hash values are a unique and extremely compact representation of a piece of data as a value. If a piece of plaintext is hashed and even if only one letter of the piece is altered, the subsequent hash will produce a different value. It is computationally infeasible to find two different inputs whose hash is the same value, so the hash value of the data can verify the integrity of the data.

In step S3, automatically evaluating the risk of the detected abnormality and cause, and automatically issuing an early warning; meanwhile, the schedule is intelligently adjusted, and a project responsible person is reminded. The completion time of each processing node is intelligently adjusted, so that the processing nodes are compactly connected, and the engineering efficiency of a construction project is improved. When each processing node finishes, the engineering cost file of the processing node is sent to a corresponding cost member; the construction cost staff can calculate the construction cost of each processing node according to the project cost file when each processing node is finished.

The embodiments of the present invention are preferred embodiments of the present invention, and the scope of the present invention is not limited by these embodiments, so: all equivalent changes made according to the structure, shape and principle of the invention are covered by the protection scope of the invention.

Claims

1. The utility model provides an engineering project cost progress supervisory systems which characterized in that, includes cloud ware and project terminal:

2. The project cost progress supervision system according to claim 1, wherein the cloud server further comprises a risk assessment module, the risk assessment module is used for carrying out automatic risk assessment on the found abnormality and reason, automatically issuing early warning, and intelligently adjusting a schedule progress data sheet.

3. The project cost progress supervision system according to claim 2, characterized in that the cloud server further comprises a reminding module, and the reminding module is used for sending the schedule progress data sheet to the project terminal for real-time display and reminding project responsible persons when the schedule progress data sheet is updated.

4. The project cost progress supervision system according to claim 3, characterized by further comprising a cost terminal, wherein the cost terminal is in communication connection with the cloud server, and the cloud server is used for sending the project cost file of each processing node to the corresponding cost terminal when the processing node is finished.

5. A project cost progress supervision system according to claim 1 characterised in that the block chain building module comprises:

6. A method for supervising construction project cost progress is characterized by comprising the following steps:

7. The method as claimed in claim 6, wherein in step S3, the method carries out automatic risk assessment for the detected abnormality and reason, and automatically issues an early warning; meanwhile, the schedule is intelligently adjusted, and a project responsible person is reminded.

8. The method as claimed in claim 7, wherein the method is used for sending the project cost file of each processing node to the corresponding cost member when the processing node is finished.