CN114529197A - Data management method, system, terminal and storage medium for engineering cost - Google Patents

Abstract

The application relates to the technical field of engineering cost data management, in particular to a data management method for engineering cost, which comprises the following steps: building a project management platform, creating project projects in the project platform, and classifying the created project projects; establishing a data collection channel, collecting and storing the cost information data of each stage of the project construction in real time along with the project construction progress, and displaying the collected cost information data to each unit in charge of the project construction; auditing the data collected at each stage of the project engineering, and informing the corresponding relevant responsible persons of the auditing results; after the deviation reason of abnormal data in project engineering is found out, corresponding deviation rectifying measures are made according to the deviation, and a deviation rectifying report is formulated; and analyzing the final engineering cost data after the engineering construction is finished, obtaining a comparison result and giving an instructive suggestion. The method and the device can provide scientific reference basis for subsequent engineering cost.

Description

Data management method, system, terminal and storage medium for engineering cost

Technical Field

The present application relates to the field of engineering cost data management, and in particular, to a method, a system, a terminal, and a storage medium for managing engineering cost data.

Background

The construction cost refers to the construction price of a project, and refers to the total sum of all expenses required for completing the construction, expectation or actual operation of a project. The project cost is defined from the perspective of an owner, and refers to the construction cost of a project, namely the investment cost of all fixed assets expected to be paid or actually paid for constructing a project. These costs include equipment and tool acquisition costs, construction and installation costs, construction and other costs, preparation costs, construction interest, and fixed asset investment direction adjustment taxes. The project cost is defined from the perspective of a launch packet, and is the project price, namely the price of the building installation project and the total price of the building project, which are predicted or actually formed in the markets such as land, equipment, technical labor, contract and the like through the trading modes such as bidding and the like. Here, the bid may be a construction project, a single project, or a stage in the entire construction project, such as feasibility study of the construction project, design of the construction project, and construction stage of the construction project.

At present, the construction of engineering projects is more and more complex, the construction of novel materials and construction processes is more and more diversified, the calculation of quota content by each part of various engineering is obviously unrealistic, and the personnel and fund of the current construction cost management mechanism are not enough to support quota field calculation.

Disclosure of Invention

In order to provide scientific reference basis for subsequent construction cost, the application provides a data management method for construction cost.

In a first aspect, the present application provides a method for managing data for construction cost, which adopts the following technical scheme: comprising the steps of

Building a project management platform, creating project projects in the project platform, and classifying the created project projects;

establishing a data collection channel, collecting and storing the cost information data of each stage of the project construction in real time along with the project construction progress, and displaying the collected cost information data to each unit in charge of the project construction;

auditing the data collected at each stage of the project engineering, and informing the auditing result to the corresponding related responsible person;

after the deviation reason of abnormal data in project engineering is found out, corresponding deviation rectifying measures are made according to the deviation, and a deviation rectifying report is formulated;

and analyzing the final engineering cost data after the engineering construction is finished, obtaining a comparison result and giving an instructive suggestion.

By adopting the technical scheme, the engineering cost data of each stage in the project engineering construction process is collected by an informationized technical means, the engineering cost data represents the actual consumption condition or consumption expectation of an enterprise in the project construction process, the engineering cost data is processed to generate the actual construction condition which can correctly reflect the project engineering construction, and the scientificity of the collected engineering cost data is improved by managing the engineering cost data, so that a scientific reference basis can be provided for the subsequent engineering cost.

Optionally, the project management platform is set up, project projects are created in the project platform, and the created project projects are classified,

classifying the created project engineering based on the engineering information in the created project engineering;

acquiring a plurality of excellent project engineering cases by using a crawler tool, importing the acquired excellent project engineering cases into a project management platform, and creating a construction cost index template for project engineering based on the excellent project engineering cases of the same type;

dividing a plurality of database file areas in a project management platform, and storing a plurality of excellent project engineering cases of the same type in the same database file area;

the newly created project is placed in the database file area where a superior project case of the same type as the project is located.

By adopting the technical scheme, the construction cost data of the corresponding stages are collected and stored in the decision-making stage, the design stage, the bid-inviting stage, the construction stage and the completion stage respectively, and the comprehensiveness of the construction cost data collection is improved; and the construction cost index template established based on the excellent project engineering case can realize the project evaluation of the proposed project by using the data accumulated historically and can also measure the quality of the related achievement of the project construction cost through the construction cost index template.

Optionally, the data collecting channel is created, and along with the project construction progress, the construction cost information data of each stage of the project construction is collected and stored in real time, and the collected construction cost information data is displayed to each party responsible for the project construction,

collecting and storing cost information data in the feasibility study report;

collecting and storing cost information data in a design stage by using a project management platform;

collecting and storing cost information data of the bidding stage by using a project management platform;

collecting and storing cost information data in the project construction process by using a project management platform;

and obtaining and storing the construction cost information data in the completion delivery stage based on the construction cost information data in the collected feasibility research report, the construction cost information data in the bid and tender stage and the construction cost information data in the project construction process.

By adopting the technical scheme, the engineering cost data generated in the project construction process is comprehensively collected.

Optionally, the data collected at each stage of the project is audited and the audited result is notified to the corresponding related responsible person,

analyzing the construction cost data in a plurality of excellent project engineering cases of the same type based on a construction cost index template, comprehensively obtaining a normal construction cost data range of each construction cost index by combining the project, and screening and marking abnormal data in the collected construction cost data of each stage;

and reminding the abnormal data to the corresponding responsible person, carrying out secondary audit on the corresponding responsible person, and uploading the audit result to the project management platform.

By adopting the technical scheme, the cost index data in excellent project engineering cases is taken as a basis, the project cost data of the project is combined, abnormal data is screened out, and relevant responsible persons check and correct the abnormal data, so that the generated cost information data is rooted and traceable, and the reasonability of the project cost data is further improved.

In a second aspect, a data management system for construction cost uses the above data management method for construction cost, which comprises a database unit, a data collection unit, a data processing unit, a flow pushing unit and a user terminal unit;

the database unit is used for storing the data collected by the data collection unit, the data processed by the data processing unit and the data generated by the flow pushing unit;

the data collection unit is used for collecting project information data, excellent project case data, construction cost data in a decision-making stage, construction cost data in a design stage, construction cost data in a bid-bidding stage, construction cost data in a construction stage and construction cost data in a completion settlement stage.

The database unit is used for storing various data collected by the collection unit and error correction data of a responsible person;

the data processing unit is used for analyzing and processing the data collected by the data collecting unit;

the flow pushing unit is used for pushing the progress of engineering construction;

the user terminal unit is used for uploading project cost data responsible by the own party and acquiring the project cost data collected by the data collection unit, the project cost data processed by the data processing unit and the process data pushed by the process pushing unit.

By adopting the technical scheme, the comprehensiveness and the scientificity of the construction cost data are improved by collecting and processing the construction cost data in each stage.

In a third aspect, a terminal includes a memory, a processor, and a computer program stored in the memory and capable of running on the processor, and when the processor loads and executes the computer program, the above-mentioned engineering cost data management method is adopted.

By adopting the technical scheme, the computer program is generated by the construction method and is stored in the memory so as to be loaded and executed by the processor, so that the terminal equipment is manufactured according to the memory and the processor, and the use by a user is facilitated.

In a fourth aspect, a computer-readable storage medium has a computer program stored therein, and when the computer program is loaded and executed by a processor, a method for managing engineering cost data as described above is employed.

By adopting the technical scheme, the computer program is generated by the construction method and stored in the computer readable storage medium to be loaded and executed by the processor, and the computer program can be conveniently read and stored through the computer readable storage medium.

Drawings

FIG. 1 is a schematic flow chart of a construction cost data management method according to the present application;

FIG. 2 is a schematic flow chart of the present application for building a project management platform, creating project projects in the project platform, and classifying the created project projects;

FIG. 3 is a schematic flow chart showing the steps of creating a data collection channel, collecting and storing cost information data of each stage of project construction in real time along with the progress of the project construction, and displaying the collected cost information data to each unit in charge of the project construction;

FIG. 4 is a schematic flow chart illustrating the process of auditing data collected at various stages of a project and notifying corresponding relevant responsible persons of the auditing results according to the present application;

FIG. 5 is a logical block diagram of a cost of construction data management system according to the present application.

Reference numerals: 1. a database unit; 2. a data collection unit; 3. a data processing unit; 4. a flow pushing unit; 5. a user terminal unit.

Detailed Description

The present application is described in further detail below with reference to figures 1-5.

Example one

The embodiment of the application discloses a data management method for construction cost, which comprises the following steps:

step S1: and (3) building a project management platform, creating project projects in the project platform, and classifying the created project projects, referring to fig. 1.

The project management platform can be set to be but not limited to a WeChat applet, a client platform and a webpage version platform, wherein the WeChat applet is compatible with but not limited to an Android platform and an iOS platform, and the client is compatible with but not limited to a Windows system and a MacOS system, so that the project management platform can be used for multiple persons to fill data remotely on line.

Step S10: and classifying the created project engineering based on the engineering information in the created project engineering, and referring to fig. 2.

The engineering information comprises consignor, region, engineering category, compilation stage, project characteristic and the like. The classification mode can be used for automatically identifying the engineering information by a computer so as to classify, and can also be used for manually classifying according to the engineering information.

Step S11: the method comprises the steps of obtaining a plurality of excellent project engineering cases by using a crawler tool, importing the obtained excellent project engineering cases into a project management platform, and creating a cost index template which can be used for project engineering based on the excellent project engineering cases of the same type.

The crawler tool can be written by python language, Java language and C/C + + language.

The excellent project engineering case format for importing the project management platform includes, but is not limited to, Word format and Excel format.

The construction cost index template is internally provided with a calculation rule, and a user imports project engineering data to complete the statistical calculation of the project construction cost data.

The cost index template is applied, different schemes are compared and selected, and the technically feasible and economically reasonable scheme is selected, so that the cost is reduced on the premise that the design embodies the function and the cost are unified and meets the functional requirements.

For example, the construction cost index template can help designers to quickly obtain the construction cost and the material consumption corresponding to each design scheme, so that the construction cost factor can be fully considered when the design scheme is selected.

The cost index template comprises a single index template and a comprehensive index template. The single index template comprises the names, the quantities, the units, the pricing modes and the like of the one-way indexes and is used for describing the condition of the single project cost data in each stage of the project cost.

For example, a single index name: building a steel pipe; quantity: 50 ten thousand; unit: rice/root; the pricing method is that every 50 meters is built as one working day.

The comprehensive index template comprises project cost research indexes in the feasibility research stage, quota design indexes in various stages of project construction and the like.

And in the feasibility research stage, the total investment of the construction project can be researched and calculated by applying the construction cost. And (3) carrying out income prediction through market investigation and prediction, carrying out project financial evaluation on the basis of the income prediction, and calculating technical and economic evaluation indexes such as an investment recovery period, an investment earning rate and the like to be used as a main basis of investment decision.

The quota design index in each stage of project construction can be used for optimizing design, controlling construction cost and preventing the construction cost from being out of control. By formulating the quota design index, the customer can attach importance to the preliminary scheme selection, the designer can strictly control the construction drawing budget and the management work of design change is enhanced.

Step S12: a plurality of database file areas are divided in the project management platform, and a plurality of excellent project engineering cases of the same type are stored in the same database file area.

Project projects of different types have larger difference in technical parameters and project cost composition, the projects of the same type are combined into one database file, and the projects of the other type are combined into another database file, so that the same management and information interaction of data are facilitated.

Step S13: the newly created project is placed in the database file area where a superior project case of the same type as the project is located.

The user can conveniently fill the construction cost index data in the newly created project engineering, and the filled construction cost data is compared with the construction cost index template.

Step S2: and establishing a data collection channel, collecting and storing the cost information data of each stage of the project construction in real time along with the project construction progress, and displaying the collected cost information data to each unit in charge of the project construction.

The units responsible for project engineering include owners, construction parties, survey design units, supervision units, audit departments, and the like.

Step S20: the cost information data in the feasibility study report is collected and stored, see figure 3.

And capturing real-time market price data and price data in nearly ten years of related materials in the engineering project by using a crawler tool, and calculating the engineering cost budget of the related materials according to the predicted engineering quantity.

Step S21: and collecting and storing the cost information data in the design stage by using the project management platform.

The construction cost information data in the design stage comprises project construction cost data in a scheme design stage, project construction cost data in a primary design stage, project construction cost data in a technical design stage, project construction cost data in a construction drawing design stage and project construction cost data in a technical intersection matching construction stage.

Step S22: and collecting and storing the cost information data of the bidding stage by using the project management platform.

Because the market supply-demand relationship, bid decision, quality requirement and project quantity list pricing model all have direct influence on the project cost, the factors all determine the size of the project cost data.

Step S23: and collecting and storing the cost information data in the project construction process by using the project management platform.

The construction cost information data of the project construction process comprises project contract data, construction organization data, quality management data, field plane management data, consumption data of human resources and material resources and the like.

Specifically, the quality management data includes preventive construction cost data, appraisal construction cost data, internal failure construction cost data, external failure construction cost data, and the like.

Step S24: and obtaining and storing the construction cost information data in the completion delivery stage based on the construction cost information data in the collected feasibility research report, the construction cost information data in the bid and tender stage and the construction cost information data in the project construction process.

Wherein, the construction cost information data in the completion delivery stage comprises a completion financial settlement instruction, a completion financial settlement report form and the like.

Step S3: and auditing the data collected at each stage of the project engineering, and informing the corresponding related responsible persons of the auditing results.

Step S30: analyzing the construction cost data in a plurality of excellent project engineering cases of the same type based on a construction cost index template, combining the project, comprehensively obtaining the normal construction cost data range of each construction cost index, screening and marking abnormal data in the collected construction cost data of each stage, and referring to fig. 4.

For example, in the research stage, the numerical information of the transportation cost and the storage cost of the material in the excellent project engineering case is analyzed to determine the transportation cost and the storage cost of the relevant material.

In the completion acceptance stage, the total approximate calculation of the whole project is compared, and then the purchase cost of equipment and instruments, the construction installation project cost and other construction costs are compared and analyzed with the actual data provided in the completion settlement financial table report, the approved approximate calculation, the budget index and the actual construction cost one by one so as to determine whether the total construction cost of the project is saved or exceeded.

Step S31: and reminding the abnormal data to the corresponding responsible person, carrying out secondary audit on the corresponding responsible person, and uploading the audit result to the project management platform.

Step S4: after the deviation reason of abnormal data in project engineering is found out, corresponding deviation rectifying measures are made according to the deviation, and a deviation rectifying report is formulated.

Step S5: and analyzing the final engineering cost data after the engineering construction is finished, obtaining a comparison result and giving an instructive suggestion.

The cost analysis content comprises quality cost analysis, construction amount cost analysis and other cost analysis.

The quality cost analysis comprises the analysis of the composition content of the total quality cost, the analysis of the composition proportion of the total quality cost, the analysis of the proportion relation between all the elements of the quality cost and the analysis of the proportion of the quality cost to the budget cost.

The project cost analysis includes material cost analysis, labor cost analysis, equipment cost analysis, and cost analysis.

For example, material engineering cost data includes actual price data, loss plus site data, labor data, warehouse custody fee data, and the like.

The artificial engineering cost data includes manager data, technician data, and general worker data, etc.

The equipment construction cost data includes rental price data, rental time data, purchase price data, purchase quantity data, and the like.

The project cost data includes office worker payroll data, specific time increase fee data, tax data, and the like.

The method comprises the steps of obtaining a foundation provided for a project cost change rule based on analyzed project cost data, providing reference for compiling a fixed asset investment plan, compiling a bidding base, bidding quotation and a fixed asset investment plan, providing basic data for compiling a budget quota and an approximate quota, and carrying out unit production capacity investment analysis.

For example, in the case of making a fixed asset investment plan, since the construction project expenses are not invested once but are invested in a plurality of years, the construction costs occurring in each year can be reduced to the present value by using the following formula.

Construction cost savings = current value of approved approximate-current value of construction cost,

construction cost reduction rate = construction cost savings/approval approximate X100%.

Therefore, the cost data of the formula can be used as a reference for compiling a fixed asset investment plan and used for construction cost analysis.

For example, in conducting a unit capacity investment analysis,

the calculation formula of the unit production capacity investment is as follows:

unit capacity investment = total investment completion (present value)/total new capacity (capacity in use)

Under the same other conditions, the smaller the investment per unit production capacity, the better the investment benefit. And comparing the calculated result with the excellent engineering case in the project management platform, thereby evaluating the benefit of the construction project.

The implementation principle is as follows: the construction cost data generated in the decision-making stage, the design stage, the bid-inviting stage, the construction stage and the completion acceptance stage are collected in the same way, so that the comprehensive collection of the construction cost data is realized; the collected construction cost data are checked by referring to the construction cost engineering template made by the excellent project engineering case and combining the project engineering of the actual construction, the scientificity of the construction cost data is improved, and the scientific construction cost data has higher guiding significance for subsequent construction, quota establishment and the like.

Example two

The embodiment of the present application is different from the above embodiments in that the embodiment further includes:

step S6: and reminding the user to supplement and update the information in the database according to the project progress.

The implementation principle is as follows: by reminding the user to supplement and update the information in the database, the engineering construction period can be shortened, and the economic benefit of engineering construction is improved.

The application also discloses a data management system for construction cost, which refers to fig. 5 and comprises a database unit 1, a data collection unit 2, a data processing unit 3, a flow pushing unit 4 and a user terminal unit 5.

The database unit 1 is simultaneously in communication with the data collection unit 2, the data processing unit 3 and the flow pushing unit 4, the data collection unit 2 is in communication with the data processing unit 3, and the user terminal unit 5 is in communication with the database unit 1, the data collection unit 2, the data processing unit 3 and the flow pushing unit 4.

The database unit 1 is used for storing the data collected by the data collection unit 2, the data processed by the data processing unit 3 and the data generated by the flow pushing unit 4;

the data collection unit 2 is used for collecting project information data, excellent project case data, construction cost data in a decision-making stage, construction cost data in a design stage, construction cost data in a bid-inviting stage, construction cost data in a construction stage and construction cost data in a completion settlement stage;

the database unit 1 is used for storing various data collected by the collecting unit and error correction data of a person in charge;

a data processing unit 3 for analyzing and processing the data collected by the data collecting unit 2;

the flow pushing unit 4 is used for pushing the progress of engineering construction;

the user terminal unit 5 is used for uploading the project cost data for own charge, and acquiring the project cost data collected by the data collection unit 2, the project cost data processed by the data processing unit 3 and the process data pushed by the process pushing unit 4.

The data processing unit 3 comprises a project classification module, a cost index generation module, an adaptation module, a comparison and screening module, a marking module, an analysis module and a manual auditing module.

The project classification module is used for distinguishing project projects of different categories so that a user can select a project classification corresponding to the project;

the construction cost index generation module is used for analyzing construction cost of the excellent engineering case and generating an engineering construction cost template, and the engineering construction cost module comprises a corresponding value range;

the adaptive module is used for combining the construction cost template generated by the construction cost index generation module with the data collected in the project to give reference value data;

the comparison screening module is used for comparing the data collected by the data collection unit 2 with the reference value data;

the marking module is used for marking unreasonable data screened by the comparison screening module;

the analysis module is used for analyzing the reason of abnormal data at each stage and giving guidance suggestions;

the manual auditing module is used for manually auditing the abnormal data marked by the processing marking module.

The flow pushing unit 4 comprises a flow initiating module, a flow transferring module, a flow ending module and a flow prompting module.

The process initiating module is used for sending data information submitted or filled by each required unit to a terminal platform of a corresponding responsible person and reminding the corresponding responsible person of the next engineering process;

the flow transfer module is used for transferring the flow to a corresponding responsible person;

the flow ending module is used for controlling the flow ending;

and the flow prompting module is used for prompting the user to process the flow progress in a short message sending mode according to the project progress.

The embodiment of the application discloses a terminal device, which comprises a memory, a processor and a computer program which is stored in the memory and can run on the processor. The processor executes the computer program by using the method for managing the data for construction cost according to the above-described embodiment.

The terminal device includes a computer device such as a desktop computer, a notebook computer, or a cloud server, and the terminal device includes but is not limited to a processor and a memory, for example, the terminal device may further include an input/output device, a network access device, and a bus.

The processor may be a Central Processing Unit (CPU), and of course, according to the actual use situation, other general processors, Digital Signal Processors (DSPs), Application Specific Integrated Circuits (ASICs), Field Programmable Gate Arrays (FPGAs) or other programmable logic devices, discrete gate or transistor logic devices, discrete hardware components, etc. may also be used, and the general processors may be microprocessors or any conventional processors, etc., which is not limited in this application.

The memory may be an internal storage unit of the terminal device, for example, a hard disk or a memory of the terminal device, or an external storage device of the terminal device, for example, a plug-in hard disk, a smart card (SMC), a secure digital card (SD) or a flash memory card (FC) provided on the terminal device, or a combination of the internal storage unit of the terminal device and the external storage device, and the memory is used for storing a computer program and other programs and data required by the terminal device, and the memory is also used for temporarily storing data that has been output or will be output, which is not limited in this application.

The method for managing the engineering cost data according to the embodiment is stored in a memory of the terminal device through the terminal device, and is loaded and executed on a processor of the terminal device, so that the terminal device is convenient for a user to use.

The computer program may be stored in a computer readable medium, the computer program includes computer program code, the computer program code may be in a source code form, an object code form, an executable file or some intermediate form, and the like, the computer readable medium includes any entity or device capable of carrying the computer program code, a recording medium, a usb disk, a removable hard disk, a magnetic disk, an optical disk, a computer memory, a Read Only Memory (ROM), a Random Access Memory (RAM), an electrical carrier signal, a telecommunication signal, a software distribution medium, and the like, and the computer readable medium includes but is not limited to the above components.

The method for managing the engineering cost data according to the embodiment is stored in the computer-readable storage medium through the computer-readable storage medium, and is loaded and executed on the processor, so that the method for managing the engineering cost data is conveniently stored and applied.

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

Claims (10)

1. A data management method for construction cost is characterized in that: comprising the steps of

Building a project management platform, creating project projects in the project platform, and classifying the created project projects;

establishing a data collection channel, collecting and storing the cost information data of each stage of the project construction in real time along with the project construction progress, and displaying the collected cost information data to each unit in charge of the project construction;

auditing the data collected at each stage of the project engineering, and informing the corresponding relevant responsible persons of the auditing results;

after the deviation reason of abnormal data in project engineering is found out, corresponding deviation rectifying measures are made according to the deviation, and a deviation rectifying report is formulated;

and analyzing the final engineering cost data after the engineering construction is finished, obtaining a comparison result and giving an instructive suggestion.

2. A construction cost data management method according to claim 1, characterized in that: the project management platform is set up, project projects are created in the project platform, the created project projects are classified,

classifying the created project engineering based on the engineering information in the created project engineering;

acquiring a plurality of excellent project engineering cases by using a crawler tool, importing the acquired excellent project engineering cases into a project management platform, and creating a construction cost index template for project engineering based on the excellent project engineering cases of the same type;

dividing a plurality of database file areas in a project management platform, and storing a plurality of excellent project engineering cases of the same type in the same database file area;

the newly created project is placed in the database file area where a superior project case of the same type as the project is located.

3. A construction cost data management method according to claim 2, characterized in that: the data collecting channel is established, the cost information data of each stage of the project construction is collected and stored in real time along with the progress of the project construction, the collected cost information data is displayed to each party responsible for the project construction,

collecting and storing cost information data in the feasibility study report;

collecting and storing cost information data in a design stage by using a project management platform;

collecting and storing cost information data of the bidding stage by using a project management platform;

collecting and storing cost information data in the project construction process by using a project management platform;

and obtaining and storing the construction cost information data in the completion delivery stage based on the construction cost information data in the collected feasibility research report, the construction cost information data in the bid and tender stage and the construction cost information data in the project construction process.

4. A construction cost data management method according to claim 3, characterized in that: the data collected at each stage of the project are audited and the audited result is informed to the corresponding related responsible person,

analyzing the construction cost data in a plurality of excellent project engineering cases of the same type based on a construction cost index template, comprehensively obtaining a normal construction cost data range of each construction cost index by combining the project, and screening and marking abnormal data in the collected construction cost data of each stage;

and reminding the abnormal data to the corresponding responsible person, carrying out secondary audit on the corresponding responsible person, and uploading the audit result to the project management platform.

5. A construction cost data management method according to claim 4, wherein: analyzing the final construction cost data after the construction of the project is finished, obtaining a comparison result and giving an instructive suggestion,

the content of the cost analysis comprises quality cost analysis, project cost analysis and other cost analysis;

the instructive suggestion comprises a foundation provided for a project cost change rule based on the analyzed project cost data, references provided for compiling a fixed asset investment plan, compiling a standard base, bidding quotations and a fixed asset investment plan, basic data provided for compiling budget quota and approximate quota and unit production capacity investment analysis.

6. A construction cost data management system, based on any one of claims 1 to 5, a construction cost data management method, characterized in that: the system comprises a database unit (1), a data collection unit (2), a data processing unit (3), a process pushing unit (4) and a user terminal unit (5);

the database unit (1) is used for storing the data collected by the data collection unit (2), the data processed by the data processing unit (3) and the data generated by the flow pushing unit (4);

the data collection unit (2) is used for collecting project information data, excellent case data, construction cost data of a decision stage, construction cost data of a design stage, construction cost data of a bid stage, construction cost data of a construction stage and construction cost data of a completion settlement stage,

the database unit (1) is used for storing various data collected by the collection unit and error correction data of a person in charge;

the data processing unit (3) is used for analyzing and processing the data collected by the data collecting unit (2);

the flow pushing unit (4) is used for pushing the progress of engineering construction;

the user terminal unit (5) is used for uploading the construction cost data responsible by the owner and acquiring the construction cost data collected by the data collection unit (2), the construction cost data processed by the data processing unit (3) and the process data pushed by the process pushing unit (4).

7. A construction cost data management system according to claim 6, wherein: the data processing unit (3) comprises a project classification module, a cost index generation module, an adaptation module, a comparison screening module, a marking module, an analysis module and a manual auditing module;

the project classification module is used for distinguishing project projects of different categories so that a user can select a project classification corresponding to the project;

the construction cost index generation module is used for analyzing the construction cost of excellent engineering cases and generating an engineering construction cost template, and the engineering construction cost module comprises a corresponding value range;

the adaptive module is used for combining the construction cost template generated by the construction cost index generation module with the data collected in the project to give reference value data;

the comparison screening module is used for comparing the data collected by the data collection unit (2) with reference value data;

the marking module is used for marking unreasonable data screened by the comparison screening module;

the analysis module is used for analyzing the reason of abnormal data at each stage and giving instructive suggestions;

the manual auditing module is used for manually auditing the abnormal data marked by the processing marking module.

8. A construction cost data management system according to claim 6, wherein: the flow pushing unit (4) comprises a flow initiating module, a flow transferring module, a flow ending module and a flow prompting module;

the process initiating module is used for sending data information submitted or filled by each required unit to a terminal platform of a corresponding responsible person and reminding the corresponding responsible person of the next engineering process;

the flow transfer module is used for transferring the flow to a corresponding responsible person;

the flow ending module is used for controlling the ending of the flow;

and the flow prompting module prompts a user to process the flow progress in a short message sending mode according to the project progress.

9. A terminal comprising a memory, a processor and a computer program stored in the memory and capable of running on the processor, wherein the processor when loading and executing the computer program employs a construction cost data management method according to any one of claims 1 to 5.

10. A computer-readable storage medium characterized by: the computer-readable storage medium having stored thereon a computer program which, when loaded into and executed by a processor, implements a method of project cost data management as claimed in any one of claims 1 to 5.

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