CN115496540A

CN115496540A - Intelligent cost calculation method, system, device and storage medium

Info

Publication number: CN115496540A
Application number: CN202211227376.7A
Authority: CN
Inventors: 叶秀颜; 曾祥瑞; 李宇彬; 叶铭贵; 刘靖
Original assignee: Guangzhou Xiangshi Engineering Consulting Co ltd
Current assignee: Guangzhou Xiangshi Engineering Consulting Co ltd
Priority date: 2022-10-09
Filing date: 2022-10-09
Publication date: 2022-12-20

Abstract

The application discloses an intelligent cost calculation method, a system, equipment and a storage medium, wherein the intelligent cost calculation method comprises the following steps: creating an engineering cost execution list, inputting project identification information, matching and automatically filling corresponding project basic information; receiving online correction information sent by an administrator client, and updating project basic information; displaying corresponding association column fields in the engineering cost execution list according to the type of each item list; matching corresponding cost information from an enterprise database according to each subject list, automatically calculating subject cost of each subject list, calculating engineering cost accounting data, and finishing an engineering cost execution list; the method has the advantages that the calculation accuracy and the calculation fineness of the engineering cost are improved, the original mode of 'first design and then account calculation' is changed into a mode of 'first account calculation and then design', passive management and control are changed into active management and control, and the design and optimization of the construction drawing and the follow-up cost management and control are guided through the system calculation of the list-level target cost.

Description

Intelligent cost calculation method, system, device and storage medium

Technical Field

The present application relates to the field of cost accounting technologies, and in particular, to an intelligent cost calculating method, system, computer device, and storage medium.

Background

At present, the violent era of the real estate and the building industry of China steps into the low-profit and slightly-profit era, so that the cost control directly influences the continuous development of real estate and building enterprises, a refined calculation model is lacked in project target cost measurement and calculation for a long time, a real and reliable database is lacked, index data needs to be extracted manually, personal experience is relied on, and the time consumption and the reliability are different. The traditional engineering cost calculation must be 'design first and account later', a design department depends on traditional quota design indexes as carriers, the design department is not fine enough, the target cost is not controllable, and the design department is not enough in scheme design, preliminary design and construction drawing design basis, so that the later stage visa is more. In the project cost control, a good information channel is not formed between the operation end and the cost management system, cost data are scattered to form data islands, benign data association cannot be formed, and real effective data cannot be provided for a decision layer quickly and accurately.

Therefore, in view of the above-mentioned related art, the inventors consider that there are problems of inefficiency and passivity in cost control in performing engineering cost accounting and data transfer and update.

Disclosure of Invention

In order to establish relevance among cost data and improve accuracy and fineness of project cost calculation, an original mode of 'accounting before design' is changed into a mode of 'accounting before design', passive management and control are changed into active management and control, and construction drawing design and optimization and subsequent cost management and control are guided by calculating list-level target cost through a system.

The first purpose of the invention of the application is realized by adopting the following technical scheme:

an intelligent cost calculation method, comprising:

creating an engineering cost execution list, inputting project identification information, matching and automatically filling corresponding project basic information, wherein the engineering cost execution list comprises a multi-level subject list;

receiving online correction information sent by an administrator client, and updating project basic information;

displaying corresponding associated column fields in the engineering cost execution list according to the type of each item list, wherein the column fields are fields for identifying the content meaning of the row of tables in the engineering cost execution list;

and matching corresponding cost information from the enterprise database according to each subject list, automatically calculating the subject cost of each subject list, calculating engineering cost accounting data, and finishing an engineering cost execution list.

By adopting the technical scheme, the engineering cost execution list for recording the engineering cost accounting data is created, wherein the engineering cost execution list comprises a multi-level subject list so as to subdivide the construction cost of the engineering project and reduce the granularity of the cost data, thereby improving the accuracy of the overall engineering cost accounting data of the engineering project; inputting project identification information of the project which needs to be subjected to cost calculation into the project cost execution list, matching corresponding project basic information of the project according to the project identification information, and automatically filling the project basic information into the project cost execution list so as to improve the efficiency of project cost accounting; the online correction information sent by the administrator client is received, so that the administrator can conveniently send the online correction information through the administrator client to update the project basic information, correct the error and missing project basic information on line, and improve the efficiency of data update in engineering cost accounting; because the number and the content of the recorded item basic information of different subject lists are not completely the same, and the column fields refer to the fields for identifying the meaning of the content of the row of the table in the engineering cost execution list, the corresponding associated column fields in the engineering cost execution list are displayed according to different types of the subject lists, so that the invalid information amount in each subject list is reduced, the reading efficiency of the contents of the subject lists is improved, and the consumption of paper and ink of the subject lists during printing is reduced; and matching corresponding cost information from the enterprise database according to each subject list so as to calculate subject cost corresponding to each subject list, so that the whole engineering cost accounting data of the engineering project can be calculated, and filling the engineering cost accounting data into the engineering cost execution list so as to obtain a complete engineering cost execution list, thereby facilitating subsequent construction according to the engineering cost execution list.

In a preferred example of the present application: the step of matching and automatically filling the corresponding project basic information comprises the following steps:

matching corresponding engineering projects from a project information base according to the project identification information to generate a multi-level subject list, setting an editing interface based on each subject list, wherein the project information base is used for storing approved engineering projects;

and automatically filling corresponding project basic information and filling the project basic information into each subject list of the engineering cost execution list, wherein the project basic information comprises a planning index, building seat assembly, nine major indexes, a positioning model, a construction scheme, a construction standard and case type selection.

By adopting the technical scheme, the corresponding engineering project which is approved by the audit is matched from the project information base according to the project identification information, a multi-level subject list is generated aiming at the engineering project, and an editing interface is set based on each level of subject list, so that an administrator can conveniently and independently edit the content of each subject list, and the content recorded by each subject list can be conveniently updated; and matching corresponding project basic information of the engineering project according to the project identification information, and automatically filling the project basic information into each subject list of the engineering cost execution list, wherein the project basic information comprises information of planning indexes, building seat assembly, nine major indexes, a positioning model, a construction scheme, construction standards and case type selection, so that the basic information of the engineering project is displayed from multiple angles, and the efficiency and the scientificity of engineering cost accounting are improved.

In a preferred example of the present application: the subject list comprises list attribute information for recording the use of the subject list, and the step of displaying the corresponding associated column fields in the engineering cost execution list according to the type of each subject list comprises the following steps:

determining corresponding associated column fields according to the list attribute information of each subject list, moving the associated column fields to the top of the table, and displaying the associated column fields;

and locking the editing function of the non-associated column fields and hiding the table contents corresponding to the non-associated column fields.

By adopting the technical scheme, each subject list comprises list attribute information for recording the use of the subject list so as to identify the content required to be recorded by the subject list; because the number and the content of the recorded item basic information of different subject lists may be overlapped but are not completely the same, the engineering cost execution list comprises column fields required to be used by all the subject lists, the content required to be recorded by each subject list is determined according to the list attribute information of each subject list, so that the associated column fields corresponding to each subject list are determined, the associated column fields of the subject lists are moved to the top of the table, and the associated column fields are displayed, so that the content of the actually selected subject list can be conveniently read by a worker; the editing function of the non-associated column fields is locked so as to limit the range of the modifiable content of the subject list by an administrator, improve the standardization level of online table editing operation, hide the table content corresponding to the non-associated column fields, facilitate the reduction of the invalid information amount in each subject list, facilitate the improvement of the reading efficiency of workers on the contents of the subject list, and reduce the paper and ink consumption of the subject list during printing.

In a preferred example of the present application: matching corresponding cost information from an enterprise database according to each subject list, automatically calculating the subject cost of each subject list, and calculating the engineering cost accounting data, wherein the step of calculating the engineering cost accounting data comprises the following steps:

judging the types of subject lists, wherein the types of the subject lists comprise an articulated list and a non-articulated list;

if the subject list is a hanging list, matching each sub-subject of the subject list with the cost information in the enterprise database to obtain corresponding cost data, and calculating the cost of the subject according to the cost data of each sub-subject;

if the subject list is a non-articulated list, matching each sub-subject of the subject list with the cost information in the enterprise database to obtain corresponding cost data, acquiring the cost data of the sub-subject written by the administrator client, and calculating the subject cost according to the cost data of each sub-subject;

and calculating engineering cost accounting data according to the subject cost.

By adopting the technical scheme, the type of the subject list is judged, wherein the type of the subject list comprises an articulated list and a non-articulated list, so that a corresponding cost data calculation method can be adopted according to the type of the subject list in the following; if the subject list is an articulated list, matching each sub-subject in the articulated list with the cost information of the enterprise database to obtain cost data corresponding to each sub-subject so as to calculate the subject cost of the subject list according to the sum of the cost data of each sub-subject; because part of the sub-subject cost data cannot be obtained by directly matching the cost information in the enterprise database, if the subject list is a non-articulated list, the sub-subjects in the subject list need to be matched with the cost information in the enterprise database to obtain cost data corresponding to part of the sub-subjects, and then the cost data of part of the sub-subjects written by the administrator client side is obtained to obtain the data of all the sub-subjects, so that the subject cost of the subject list is calculated according to the sum of the cost data of each sub-subject; and calculating the overall engineering cost accounting data of the engineering project according to the subject cost corresponding to each subject list so as to complete the engineering cost execution list in the following.

In a preferred example of the present application: the enterprise database comprises a price database for storing material expense data, equipment expense data, labor expense data and indirect expense data, and the step of matching each sub-subject of the subject list with the cost information in the enterprise database to obtain corresponding cost data comprises the following steps:

inputting each sub-subject of the subject list into a price database, and matching corresponding expense data;

if the expense data is not matched, generating a price data supplement form and sending the price data supplement form to the administrator client;

and acquiring price supplementary data input into the price data supplementary form by the administrator client, and taking the price supplementary data as cost data of the corresponding sub-subjects.

By adopting the technical scheme, the enterprise database comprises a price database for storing material cost data, equipment cost data, labor cost data and indirect cost data; inputting each sub-subject of the subject list into a price database so as to match corresponding expense data according to the actual content of each sub-subject, so as to determine the cost data of each sub-subject; because the price database cannot record all types of material cost, equipment cost, labor cost and indirect cost information, when the corresponding cost data which cannot be matched from the price database exists in the subject, a price data supplement form is generated and sent to the administrator client, so that the administrator can conveniently input the acquired price data of the sub-item into the price data supplement form, and obtain the price supplement data input into the price data supplement form by the administrator client, so that the price supplement data is used as the corresponding cost data of the subject, and the cost data of each subject in the subject list is supplemented.

In a preferred example of the present application: before the step of calculating the engineering cost accounting data according to the subject cost, the method comprises the following steps:

inputting the cost data of each sub-subject into a difference adjustment model, carrying out automatic difference adjustment processing on the cost data, calculating subject cost based on the cost data of each sub-subject after difference adjustment processing, and arranging a difference adjustment rule in the difference adjustment model.

By adopting the technical scheme, the cost data of each sub-subject is input into the difference adjustment model, wherein the difference adjustment model is internally provided with a difference adjustment rule so as to automatically perform difference adjustment processing on the cost data according to the difference adjustment rule, and the subject cost is calculated based on the cost data of each sub-subject after the difference adjustment processing so as to improve the accuracy of calculation of the subject cost data.

and (4) performing index collection processing on each sub-subject in the subject list, and converting the cost data of the sub-subjects with the engineering quantity as a statistical index into a money value.

By adopting the technical scheme, because the statistical units of different sub-subjects possibly have differences, the indexes of the sub-subjects in the subject list are collected so as to unify the statistical units of cost data, thereby facilitating the subsequent calculation of the subject cost of the subject list; converting the cost data of the sub-subjects counted by taking the engineering quantity as the statistical index so as to convert the cost data into data taking the amount of money as the statistical index, and taking the amount of money as a display form of the cost data so as to be convenient for the subsequent calculation of the engineering cost accounting data.

In a preferred example of the present application: the steps of receiving online correction information sent by an administrator client and updating project basic information comprise:

receiving online correction information sent by an administrator client, wherein the online correction information comprises editing interface information and correction content, and the type of the online correction information comprises selection correction information and input correction information;

and updating the corresponding project basic information according to the editing interface information and the correction content of the online correction information.

By adopting the technical scheme, online correction information sent by an administrator client is received, wherein the online correction information comprises editing interface information and correction content, the type of the online correction information comprises selection correction information and input correction information, a subject list which needs to be corrected specifically is determined according to the editing interface information in the online correction information, and then project basic information in the corresponding subject list is updated according to the correction content in the online correction information, so that the efficiency of data updating in engineering cost accounting is improved conveniently.

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

an intelligent cost computing system, comprising:

the project cost execution list creating module is used for creating a project cost execution list, inputting project identification information, matching and automatically filling corresponding project basic information, wherein the project cost execution list comprises a multi-level subject list;

the project basic information updating module is used for receiving online correction information sent by the administrator client and updating the project basic information;

the system comprises an association column field determining module, a data processing module and a data processing module, wherein the association column field determining module is used for displaying corresponding association column fields in the engineering cost execution list according to the types of all subject lists, and the column fields are fields used for identifying the content meaning of the row of tables in the engineering cost execution list;

and the engineering cost execution list generation module is used for matching corresponding cost information from the enterprise database according to each subject list, automatically calculating subject cost of each subject list, calculating engineering cost accounting data and finishing the engineering cost execution list.

By adopting the technical scheme, the engineering cost execution list for recording the engineering cost accounting data is created, wherein the engineering cost execution list comprises a multi-level subject list so as to subdivide the construction cost of the engineering project and reduce the granularity of the cost data, thereby improving the accuracy of the overall engineering cost accounting data of the engineering project; inputting project identification information of the project which needs to be subjected to cost calculation into the project cost execution list, matching corresponding project basic information of the project according to the project identification information, and automatically filling the project basic information into the project cost execution list so as to improve the efficiency of project cost accounting; the online correction information sent by the administrator client is received, so that the administrator can conveniently send the online correction information through the administrator client to update the project basic information, correct the error and missing project basic information on line, and improve the efficiency of data update in engineering cost accounting; because the number and the content of the recorded item basic information of different subject lists are not completely the same, and the column fields refer to the fields for identifying the meaning of the content of the row of the table in the engineering cost execution list, the corresponding associated column fields in the engineering cost execution list are displayed according to different types of the subject lists, so that the invalid information amount in each subject list is reduced, the reading efficiency of the contents of the subject lists is improved, and the consumption of paper and ink of the subject lists during printing is reduced; and matching corresponding cost information from the enterprise database according to each subject list, so as to calculate subject cost corresponding to each subject list, so as to calculate the whole engineering cost accounting data of the engineering project, and filling the engineering cost accounting data into the engineering cost execution list to obtain a complete engineering cost execution list, thereby facilitating the subsequent construction according to the engineering cost execution list.

The third purpose of the invention of the application is realized by adopting the following technical scheme:

a computer device comprising a memory, a processor and a computer program stored in said memory and executable on said processor, said processor implementing the steps of the above intelligent cost calculation method when executing said computer program.

The fourth purpose of the invention of the application is realized by adopting the following technical scheme:

a computer-readable storage medium, in which a computer program is stored, which, when being executed by a processor, carries out the steps of the above-mentioned intelligent cost calculation method.

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

1. creating an engineering cost execution list for recording the engineering cost accounting data, wherein the engineering cost execution list comprises a multi-level subject list so as to subdivide the construction cost of the engineering project and reduce the granularity of the cost data, thereby improving the accuracy of the engineering cost accounting data of the whole engineering project; inputting project identification information of the project which needs to be subjected to cost calculation into the project cost execution list, matching corresponding project basic information of the project according to the project identification information, and automatically filling the project basic information into the project cost execution list so as to improve the efficiency of project cost accounting; the online correction information sent by the administrator client is received, so that the administrator can conveniently send the online correction information through the administrator client to update the project basic information, correct the error and missing project basic information on line, and improve the efficiency of data update in engineering cost accounting; because the number and the content of the recorded item basic information of different subject lists are not completely the same, and the column fields refer to the fields for identifying the meaning of the content of the row of the table in the engineering cost execution list, the corresponding associated column fields in the engineering cost execution list are displayed according to different types of the subject lists, so that the invalid information amount in each subject list is reduced, the reading efficiency of the contents of the subject lists is improved, and the consumption of paper and ink of the subject lists during printing is reduced; and matching corresponding cost information from the enterprise database according to each subject list, so as to calculate subject cost corresponding to each subject list, so as to calculate the whole engineering cost accounting data of the engineering project, and filling the engineering cost accounting data into the engineering cost execution list to obtain a complete engineering cost execution list, thereby facilitating the subsequent construction according to the engineering cost execution list.

2. By forming the project cost execution list, the data in each project cost execution list can be conveniently communicated between a construction party and an owner party in the construction process of the whole project, taking the construction of a hospital as an example, because the construction of the hospital has larger difference compared with the construction of common residential houses or commercial buildings, and the construction designer of the construction party does not feel as deep as the owner person on the function and the use of a target building, the designed scheme can have some unreasonable problems, such as the passing convenience of ambulances and stretcher beds is not considered, the budget spent on decorative projects is higher, the budget spent on functional projects is insufficient, and the like; at the moment, through the project cost execution list, the first party can check the detailed conditions of the sub-subjects such as the selected construction mode, material selection, decoration, equipment selection and the like of each building, department and the like in the construction cost of the hospital in the project cost execution list, so that the business owner can provide corresponding adjustment and modification opinions according to the actual requirements of the hospital; on the other hand, in the construction process, the construction cost may also change due to factors such as accidents, rework, material cost change, labor cost change and the like, through the engineering cost execution list, the owner can timely acquire the information of the construction cost change, and guide and assist the construction designer of the construction party to adjust the budget of each sub-project when the current residual budget changes; for example, under the condition that the current residual budget is low, the cost budget of medical equipment required to be purchased is preferentially ensured, and the cost budget for purchasing greening, ceramic tiles and wall decoration materials in a hospital is reduced; under the condition of high budget, the medical equipment required to be purchased is preferentially upgraded, the building decoration is further upgraded under the condition of redundant cost budget, and in the aspect of selecting the lamp, the lighting capacity of the lamp, but not the decoration performance of the lamp, and the like, should be preferentially considered.

3. Through the engineering cost execution list, the owner can monitor the construction cost in the whole engineering project construction process conveniently, when the construction scheme of the engineering project needs to be adjusted, the data on the engineering cost execution list of the constructor, the owner and the supervisor can be synchronously changed, and the efficiency of data change and data transmission in the engineering cost execution list can be effectively improved after the construction scheme is modified.

4. Matching corresponding checked and approved engineering projects from the project information base according to the project identification information, generating a multi-level subject list aiming at the engineering projects, and setting an editing interface based on each level of subject list, so that an administrator can conveniently and independently edit the contents of each subject list, and the contents recorded by each subject list can be updated conveniently; and matching corresponding project basic information of the engineering project according to the project identification information, and automatically filling the project basic information into each subject list of the engineering cost execution list, wherein the project basic information comprises information of planning indexes, building seat assembly, nine major indexes, a positioning model, a construction scheme, construction standards and case type selection, so that the basic information of the engineering project is displayed from multiple angles, and the efficiency and the scientificity of engineering cost accounting are improved.

5. Each subject list comprises list attribute information for recording the use of the subject list so as to identify the content required to be recorded by the subject list; because the number and the content of the recorded item basic information of different subject lists may be overlapped but are not completely the same, the engineering cost execution list comprises column fields required to be used by all the subject lists, the content required to be recorded by each subject list is determined according to the list attribute information of each subject list, so that the associated column fields corresponding to each subject list are determined, the associated column fields of the subject lists are moved to the top of the table, and the associated column fields are displayed, so that the content of the actually selected subject list can be conveniently read by a worker; the editing function of the non-associated column fields is locked so as to limit the range of modifiable content of the subject list by an administrator, improve the standardization level of online table editing operation, hide the table content corresponding to the non-associated column fields, facilitate the reduction of invalid information amount in each subject list, facilitate the improvement of the reading efficiency of workers on the contents of the subject list, and reduce the paper and ink consumption of the subject list during printing.

Drawings

FIG. 1 is a flowchart illustrating a method for calculating an intelligent cost according to an embodiment of the present application.

FIG. 2 is a flowchart of step S10 of the intelligent cost calculating method of the present application.

FIG. 3 is a flowchart of step S20 of the intelligent cost calculating method of the present application.

FIG. 4 is a flowchart of step S30 of the intelligent cost calculating method of the present application.

FIG. 5 is a flowchart of step S40 of the intelligent cost calculating method of the present application.

FIG. 6 is a flowchart of step S42 of the intelligent cost calculating method of the present application.

Fig. 7 is a flowchart of step S44 in the intelligent cost calculating method of the present application.

FIG. 8 is a block diagram of an intelligent cost calculation system according to an embodiment of the present application.

Fig. 9 is a schematic diagram of an apparatus in an embodiment of the present application.

Detailed Description

The present application is described in further detail below with reference to figures 1 to 9.

The intelligent cost calculation method is a subset of a real estate project cost management system, real estate project cost management refers to cost management in a real estate project development process and is used for guaranteeing that project establishment is completed in an approved budget plan, and real estate project cost management mainly comprises enterprise database management, pre-cost planning management, cost-in-business control management and post-cost accounting management; the method has the advantages that cost planning is conveniently realized before the engineering project is started, cost control is realized in the engineering project development process, cost accounting is realized after the engineering project is completed, whole-process cost management is carried out on the whole project development through the system, each link in the development process is strictly closed, enterprise cost management and control consciousness is improved, and regular analysis and summary are realized, so that the standardized, refined and intelligent management of the cost is realized.

In an embodiment, as shown in fig. 1, the present application discloses an intelligent cost calculation method, which may be applied to an online engineering cost accounting platform, in this embodiment, the online engineering cost accounting platform is provided with an enterprise database, the enterprise database includes an enterprise subject library, a price database, a standard case library and an enterprise result library, and the intelligent cost calculation method may improve engineering cost accounting efficiency, facilitate completion of an engineering cost execution list according to engineering cost accounting data, and further improve efficiency of updating the engineering cost execution list and data transmission; the method specifically comprises the following steps:

s10: and creating an engineering cost execution list, inputting project identification information, matching and automatically filling corresponding project basic information, wherein the engineering cost execution list comprises a multi-level subject list.

In this embodiment, the engineering cost execution list is a list for recording project basic information of the engineering project and corresponding engineering cost accounting data, and is used for recording construction cost of the engineering project in an all-around manner, so as to facilitate subsequent contract planning according to the engineering cost execution list to make an engineering project contract; the project identification information is information for identifying a target project, and comprises information of regional companies, projects, date and area information, project statuses, annual time and the like; the project basic information refers to basic information of the engineering project; the subject list is a list for recording specific contents, which is formed by classifying and grading the contents required to be recorded in the engineering cost execution list.

Specifically, an engineering cost execution list is created, and project identification information of a target engineering project is input into the engineering cost execution list so as to be matched with project basic information corresponding to the engineering project by a system, wherein the project basic information comprises pre-condition information such as project product positioning table, planning index table, project area report, project construction standard practice table, main design content index table and construction scheme provided by each professional department after the project identification information passes the auditing, and the matched project basic information is automatically input into the engineering cost execution list; the engineering cost execution list comprises a multi-level subject list, so that the construction cost of the engineering project is conveniently subdivided, the granularity of subsequently acquired cost data is reduced, and the accuracy of the overall engineering cost accounting data of the engineering project is improved.

Furthermore, according to the project basic information and the project identification information, the system can automatically screen the region where the project is located, the project belonging period region, the project state, the annual time, the applicable cost subject and the contract planning category, and match the optimal project case in the standard case library; the standard case library is the engineering cost compiled according to data databases such as enterprise standard drawings, standard construction methods, standard construction schemes, quota design indexes, standard cost subjects and the like, the engineering quantity, planning caliber, capacity index, area caliber (overground/underground and bottom plate area), quota index, package standard, professional system index and the like establish a system calculation logic relation, and the comprehensive unit price and material unit price respectively establish a system linkage relation with an enterprise standard list price library and a material price library.

Referring to fig. 2, step S10 includes:

s11: and matching corresponding engineering projects from the project information base according to the project identification information to generate a multi-level subject list, setting an editing interface based on each subject list, wherein the project information base is used for storing the identification information of the approved engineering projects and the project basic information.

In this embodiment, the editing interface is an interface that can be accessed by an administrator client to edit the contents of the subject list; the administrator client is a client for operating and using by workers who perform engineering cost accounting, and specifically can be an application program, a website, an applet, a public number and the like; the project information base refers to a database for storing the information of the project approved by the examination.

Specifically, after the engineering cost execution list is created, project identification information is input, a multi-level subject list is generated for the engineering cost execution list according to the project identification information and corresponding engineering project information matched from the project information base, and an editing interface is set for each subject list, so that a subsequent administrator can conveniently use an administrator client to access the editing interface to change the content of a specific subject list, and the content recorded by each subject list can be updated conveniently.

S12: and automatically filling corresponding project basic information and filling the project basic information into each subject list of the engineering cost execution list, wherein the project basic information comprises a planning index, building assembly, nine major indexes, a positioning model, a construction scheme, a construction standard and case type selection.

In this embodiment, before the engineering cost accounting work is performed, the project basic information of the engineering project needs to be selected and checked, and the project basic information is already generated before the engineering cost accounting work is performed; the project basic information comprises planning indexes, building assembly, nine major indexes, positioning models, construction schemes, construction standards and case selection types, each project basic information corresponds to a subject list, and the following description is given by taking the project construction of a residential area as an example:

the planning indexes comprise sub-objective numerical data such as construction land area, building density, volume ratio, basement occupation ratio, civil air defense occupation ratio, saleable (rentable) area, building occupation area, road area, garden landscape area, house number, total parking space number, underground parking space number and the like.

The building seat assembly comprises sub-objective practices or numerical values and the like such as total building segmentation, total contract project case type selection, house type assembly, residential building area and the like.

The nine major indexes comprise numerical data of sub-subjects such as steel bar content, concrete content, template content, masonry content, external wall area rate, window-to-floor ratio, windowing rate, aluminum alloy window content, aluminum alloy content and the like.

The positioning model comprises a residential community configuration module, a residential building configuration module, a community matching configuration module, project two-point one-line configuration list and other subsidiary project data, wherein the community matching configuration module comprises a business configuration module, a kindergarten and middle and primary school configuration module, a community medical and health facility configuration module, a community cultural and sports facility configuration module, a community service administrative management facility configuration module, a community postal and municipal public facility configuration module, a community property management module and other configuration room configuration modules.

The construction scheme comprises sub-objective manufacturing data such as a seven-pass one-level early stage temporary setting scheme, a water scheme, an electricity scheme, a temporary road scheme, a temporary earthwork scheme, an earthwork pile foundation pit supporting and dewatering scheme, an earthwork excavation and transportation balance scheme, a foundation pit supporting and dewatering scheme, a pile foundation scheme and the like.

The construction standard comprises the sub-objective practice data of structure form, assembly form, foundation form, roofing form, standard storey height, indoor flat/split/compound, underground masonry, overground masonry, basement floor waterproofing, basement outer wall waterproofing, garage roof waterproofing and the like.

The case selection comprises case selection of each construction sub-item in the engineering project, such as iron art railings, handrail designated subcontract, elevator supply integration and integration, cabinet manufacturing and installation contract and finish decoration independent transmission of the same case data.

Specifically, the input mode of the project basic information comprises the modes of system automatic filling, system automatic filling and manual modification, manual selection, system automatic calculation, manual input and the like; and automatically filling project basic data of the matched engineering project into each subject list of the engineering cost execution list so as to display the basic information of the engineering project from multiple angles and improve the efficiency and the scientificity of engineering cost accounting.

In this embodiment, the algorithm model for generating the project basic information includes an importance evaluation algorithm for each index or sub-item in the project basic information, and is used to evaluate the importance of each sub-item in the project basic information, for example, when the project is a hospital, the importance of budget control of each sub-item of the project basic information is greatly different, for example, the importance of medical equipment purchase in a ward is far greater than the selection of a decorative material for tiles and walls; the importance of ensuring the width and the smoothness of roads in hospitals is far greater than the greening selection; therefore, each index or sub-project in the project basic information is evaluated through the importance evaluation algorithm, so that cost budget is reasonably distributed conveniently, and the realization of the project basic function is guaranteed preferentially.

S20: and receiving online correction information sent by the administrator client, and updating project basic information.

In this embodiment, the online correction information refers to information sent by the administrator client for changing the item basic data in the subject list.

Specifically, after the step of automatically filling the project basic data of the matched project into the project cost execution list, if the project basic data is found to be wrong, the administrator can access the editing interface of each subject list through the administrator client so as to write the online correction information into the subject list through the editing interface, thereby achieving the effect of online correcting the wrong and missing project basic information and improving the efficiency of data updating in the project cost accounting.

Referring to fig. 3, step S20 includes:

s21: and receiving online correction information sent by the administrator client, wherein the online correction information comprises editing interface information and correction content, and the type of the online correction information comprises selection correction information and input correction information.

In this embodiment, the online correction information includes editing interface information and correction content, where the editing interface information is address information of an editing interface corresponding to project basic information that needs to be updated for recording the online correction information, and the correction content is content that needs to be written in a subject list; the types of online correction information comprise selection correction information and input correction information, the selection correction information is online correction information used for changing corresponding project basic information options, and the input correction information is online correction information used for changing corresponding project basic information text contents.

Specifically, online correction information sent by the administrator client is received, so that the wrong project basic information can be corrected subsequently, and the accuracy of the project basic information can be improved.

S22: and updating the corresponding project basic information according to the editing interface information and the correction content of the online correction information.

Specifically, a specific subject list needing to be corrected is determined according to the editing interface information, and the corresponding project basic information is changed according to the correction content so as to correct wrong project basic information or supplement missing project basic information, so that the efficiency of data updating in engineering cost accounting is improved.

S30: and displaying corresponding associated column fields in the engineering cost execution list according to the type of each item list, wherein the column fields refer to fields for identifying the content meaning of the row of tables in the engineering cost execution list.

In this embodiment, the column field refers to a field for identifying the meaning of the content of the row table in the engineering cost execution list, such as a code, a name, a project characteristic, a calculation rule, a work content, a list source, a unit, a calculation caliber, and the like; the project cost execution list and the subject list are both presented in the form of tables, wherein the column field is positioned at the head column of each row of tables.

Specifically, because the number of items and the content of the recorded project basic information of different subject lists are not completely the same, the corresponding associated column fields in the engineering cost execution list are displayed according to different types of the subject lists, so that the invalid information amount in each subject list is reduced, and the reading efficiency of workers on the contents of the subject lists is improved.

Referring to fig. 4, the subject list includes list attribute information for recording the use of the subject list, and in step S30, the method includes:

s31: and determining corresponding associated column fields according to the list attribute information of each item list, moving the associated column fields to the top of the table, and displaying the associated column fields.

In this embodiment, the column fields include an associated column field and a non-associated column field, where the associated column field refers to a column field related to the content of the record required by the subject list, and the non-associated column field refers to a column field not related to the content of the record required by the subject list.

Specifically, the number and the content of the recorded item basic information of different subject lists may overlap but are not completely the same, the engineering cost execution list includes column fields required to be used by all the subject lists, the content required to be recorded by each subject list is determined according to the list attribute information of each subject list, so that the corresponding associated column fields are matched, the row where the associated column fields in the table are located is moved to the top of the table, and the row where the associated column fields are located is displayed at the same time, so that a worker can read the content of the subject list record selected by the worker, and the reading efficiency of the worker on the subject list content is improved.

S32: and locking the editing function of the non-associated column fields and hiding the table contents corresponding to the non-associated column fields.

Specifically, the editing function of the row where the non-associated column field is located is locked to limit the editable range of the administrator, so that the possibility of error in the contents of the subject list caused by misoperation of the administrator is reduced, and meanwhile, the table contents of the row where the non-associated column field is located are hidden, so that the invalid information amount in each subject list is reduced, on one hand, the reading efficiency of the staff on the contents of the subject list can be improved, and on the other hand, the consumption of paper and ink consumed during printing of the subject list can also be reduced.

S40: and matching corresponding cost information from the enterprise database according to each subject list, automatically calculating the subject cost of each subject list, calculating engineering cost accounting data, and finishing an engineering cost execution list.

In this embodiment, the cost information refers to information of usage costs of various materials, construction methods, equipment, and the like recorded in the enterprise database; the subject cost refers to the data of the total cost corresponding to the subject list; the engineering cost accounting data refers to the data of the total cost of the whole engineering project obtained after accounting.

Specifically, the most matched engineering case is intelligently searched from the standard case library according to the project basic information and the project identification information recorded by each subject list so as to match the corresponding cost information, the system is convenient to automatically calculate the subject cost corresponding to each subject list according to all the project basic information and the built-in calculation rule, so that the total cost of the whole engineering project is further automatically calculated according to the subject cost data of each subject list so as to obtain the engineering cost accounting data, and the engineering cost accounting data is filled into the engineering cost execution list so as to complete the engineering cost execution list, thereby facilitating the contract planning and decomposing work according to the engineering cost execution list.

Furthermore, after the engineering cost execution list is generated, the engineering cost execution list is automatically split into each unit engineering package issuing budget according to the built-in cost subject rule and contract planning rule, wherein the cost subject rule and the contract planning rule are linked with the list of the engineering cost, so that the implementation of engineering and the management and control of cost are facilitated, the working efficiency and the accuracy are greatly improved, and the standardization, the refinement and the intelligent management of the engineering cost are promoted; the project cost execution list includes each unit project package budget.

In the embodiment, after the engineering cost execution list is completed, the cost data of each sub-project is conveniently visualized, so that related personnel can clearly view the cost data, in the prior art, the engineering cost list usually only roughly records the budget of each sub-project, for example, "the finishing standard is 2000 yuan per square meter", and does not record which sub-projects the cost specifically contains, whereas in the engineering cost execution list of the present application, the sub-projects of the used building material type, specification, usage, labor cost, process and the like are included in the project of the finishing cost, and even the price of each floor tile can be accurately obtained based on the support of the price database; the existing project cost list can obtain detailed cost data only after the construction drawing is manufactured; however, in the construction of many engineering projects, the investment budget limit of the owner is strict and must not exceed the budget, so in the present application, the engineering cost execution list is obtained before the construction drawing is completed, which is convenient for the designer to modify according to the ground after the construction drawing is completed, and the design work is guided by the existing cost data, thereby improving the scientificity of the design work.

Referring to fig. 5, step S40 includes:

s41: and judging the types of the subject lists, wherein the types of the subject lists comprise an attached list and a non-attached list.

In this embodiment, the types of the subject list include an attached list and a non-attached list, wherein the attached list refers to a subject list in which the subject cost can be directly calculated by using the determined cost data of each sub-subject in the subject list; the non-attached list is a subject list in which the subject cost cannot be directly calculated through the determined cost data of each sub-subject in the subject list.

Specifically, the type of the subject list is judged, so that different subject cost calculation modes can be selected conveniently according to different types of the subject list.

S42: and if the subject list is the hanging list, matching each sub-subject of the subject list with the cost information in the enterprise database to obtain corresponding cost data, and calculating the cost of the subject according to the cost data of each sub-subject.

Specifically, if the subject list is an articulated list, each sub-subject in the subject list is directly matched with the cost information in the enterprise database to obtain the cost data corresponding to each sub-subject, and the data of the subject cost of the subject list is calculated according to the sum of the cost data of each sub-subject.

Referring to fig. 6, the enterprise database includes a price database for storing material cost data, equipment cost data, labor cost data, and indirect cost data, and in step S42, includes:

s421: and inputting each sub-subject of the subject list into the price database, and matching corresponding expense data.

In this embodiment, each sub-subject in the subject list may include a material cost entry, an equipment cost entry, a labor cost entry, or an indirect expense cost entry.

Specifically, each sub-subject of the subject list is input into the price database to match the expense data corresponding to the sub-subject, so as to obtain the cost data of each sub-subject in the subject list, and further calculate the subject cost.

The system calculates the cost amount of the engineering case according to the project basic information and the built-in cost calculation rule: the automatic calculation logic of the construction cost is as follows: the construction cost is not larger than the sigma engineering quantity multiplied by the comprehensive unit price; the project amount is related to data such as a marking caliber, a capacity index, an area caliber (overground/underground), a bottom plate area and the like, and data such as a quota index, a package standard, a system index and the like; namely, the project amount = F (planned caliber, capacity index, area caliber (above ground/underground), floor area, limit index, package standard, system index, etc.); since the specific construction schemes of different construction projects are partially different, for example, some buildings do not plan to build basements, and parking lots of different construction projects may be constructed by building parking lots on the ground and/or underground, the engineering quantity calculation formulas of different construction projects are different, and the specific calculation formulas of the engineering quantity can be compiled by those skilled in the art according to actual situations.

Wherein the integrated unit price = does not contain the integrated unit price of the main material plus the cost of the main material;

the method comprises the following steps of (1) not containing a main material comprehensive unit price = labor cost + auxiliary material cost + mechanical cost + other cost;

master cost = unit master content × unit price of timepoint master.

S422: and if the expense data is not matched, generating a price data supplement form and sending the price data supplement form to the administrator client.

In this embodiment, the price database of the present application has limited data, and cannot record all types of material cost, equipment cost, labor cost, and indirect cost information; the price data supplement form refers to a form for sending to an administrator client to collect price supplement data actively filled in by the administrator.

Specifically, if part of the sub-subjects cannot be matched with the expense data from the price database, a price data supplement form corresponding to the sub-subjects is generated and sent to the administrator client, so that the administrator looks up the cost required by the materials, equipment, manual or indirect expenses recorded by the sub-subjects as price supplement data, and fills the price supplement data into the price data supplement form, so that the cost data of the sub-subjects which are not successfully matched with the expense data in the subject list is supplemented subsequently.

S423: and acquiring price supplement data input into the price data supplement form by the administrator client, and taking the price supplement data as cost data of the corresponding sub-subject.

Specifically, the price supplementary data from the administrator client is obtained in real time, so that the obtained price supplementary data is used as the cost data of the corresponding sub-subject, and the effect of complementing the cost data of all the sub-subjects in the subject list is achieved.

Further, when the price supplement data is obtained, the price supplement data and the content of the corresponding sub-subject are supplemented to the price database, so that the probability that the expense data corresponding to the sub-subject is successfully matched after the sub-subject is input into the price database is improved, the condition that a manager needs to input the price supplement data subsequently is reduced, and the automation level and the operation standard level of engineering cost accounting are improved.

S43: and if the subject list is a non-articulated list, matching each sub-subject of the subject list with the cost information in the enterprise database to obtain corresponding cost data, acquiring the cost data of the sub-subject written by the administrator client, and calculating the subject cost according to the cost data of each sub-subject.

Specifically, if the subject list is a non-articulated list, the cost data of a part of sub-subjects in the subject list cannot be directly obtained by matching the sub-subjects with the cost information in the enterprise database, and the cost data corresponding to the part of sub-subjects is obtained by matching the part of sub-subjects with the cost information in the enterprise database; acquiring the cost data of the sub-subjects written by the administrator client to complement the cost data which cannot be obtained by directly matching the sub-subjects with the cost information in the enterprise database; calculating the subject cost data of the subject list according to the sum of the cost data of each sub-subject.

S44: and calculating engineering cost accounting data according to the cost of each subject.

Specifically, the sum of the subject cost of each subject list is calculated to obtain the engineering cost accounting data, so as to reflect the total cost condition of the whole engineering project, and the engineering cost accounting data is filled into the engineering cost execution list in the following, so as to complete the production of the engineering cost execution list.

Referring to fig. 7, before step S44, the method includes:

s441: inputting the cost data of each sub-subject into a difference adjustment model, carrying out automatic difference adjustment processing on the cost data, calculating subject cost based on the cost data of each sub-subject after difference adjustment processing, and arranging a difference adjustment rule in the difference adjustment model.

In this embodiment, the difference adjustment model is a model for automatically adjusting the difference of the cost data, and a difference adjustment rule is built in the difference adjustment model; the adjustment model is provided with an editing interface for the administrator client to access, and the administrator can set adjustment coefficients of labor cost, material cost and equipment cost through the administrator client and the editing interface and support adjustment of the reference price and the adjustment rate of the time price for the whole service; meanwhile, different adjustment rules can be set for the reference price and the time price; preferably, taking a wire and cable as an example, the adjustment formula may be a = B × (1+N × 1.5%); wherein B is the medium mark price, N = (copper price on the day-standard copper price) ÷ 1000, and A is the time mark price.

Specifically, the cost data of each sub-item is input into a difference adjustment model with a difference adjustment rule built in, the cost data of each sub-item is compared with the cost data in the existing databases, so that the cost data is automatically subjected to difference adjustment through the difference adjustment model to obtain the cost data after difference adjustment, and the subject cost of a subject list is calculated based on the cost data after difference adjustment to obtain a final engineering cost execution list, so that dynamic cost management is performed subsequently, the relevance between the cost data of each sub-item is improved, and the accuracy of the data of the subject cost is improved.

The method has the advantages that the adjustment model is used for carrying out periodic adjustment, dynamic cost monitoring is carried out on the later execution process of the engineering project, the total construction cost of the engineering project can be conveniently predicted and adjusted when the middle and later stages of the engineering construction are adjusted, and whether the construction plan needs to be adjusted or not is judged, for example, the later stage building material cost is high, and whether the cost of other sub projects needs to be reduced or not is judged; or after the cost of the partial sub-items is reduced, whether the cost standard of the partial sub-items needs to be improved or not is judged, and the data in the engineering cost execution list is corrected in time according to the change condition of the market cost data acquired in real time to obtain new cost data.

Furthermore, because the price change range and the change period of the main material are relatively fast, and a plurality of project packages may not be successfully bid at the same time, the main material in each project package budget list in the project cost execution list needs to be subjected to adjustment processing regularly so as to improve the cost of the project package budget list to be adapted to the actual construction cost, and an algorithm for automatically adjusting the main material in the project package budget list regularly is built in the adjustment model.

Furthermore, after the adjustment is completed, based on the data of subject cost after adjustment and the data of budget cost of each project package, the online project cost accounting platform generates a cost index analysis table, a main design content table and a material price comparison table according to built-in cost index rules, design content rules and material unit price rules, and performs benchmarking analysis on the cost index analysis table, the main design content table and the material price comparison table with the data in the standard case library so as to automatically mark the data exceeding the standard range value, thereby facilitating the auxiliary manual correction of the budget list and improving the efficiency of the correction of the budget list; further generating a final budget list; the final budget list of the engineering project is automatically filed in the enterprise result library, so that historical data can be accumulated conveniently, and meanwhile, the standard cases can be selected from the enterprise result library and added to the standard case library in a follow-up mode.

S442: and (4) performing index collection processing on each sub-subject in the subject list, and converting the cost data of the sub-subjects with the engineering quantity as a statistical index into a money value.

In this embodiment, each subject list may include a plurality of sub-subjects, and the index collecting process is a unified process of performing statistical indexes on the sub-subjects that are counted using different statistical indexes as a standard.

Specifically, the statistical indexes of the sub-subjects are judged so as to convert the engineering quantity numerical value in the sub-subject cost data taking the engineering quantity as the statistical standard into the money numerical value, so that the statistical indexes of the sub-subjects in the subject list are unified, and the calculation of the engineering cost accounting data is performed subsequently.

In the embodiment, the intelligent cost calculation method can be used not only in common residential or commercial buildings, but also in relatively complex hospital construction projects; taking the construction of a hospital engineering project as an example, because the construction of the hospital is greatly different from the construction of common residential buildings or commercial buildings, for the construction of the hospital, firstly, the capability of the hospital for providing medical services should be ensured, and the indexes of the beauty, luxury and the like of the building should give way for improving the medical service capability of the hospital; for example, the entrance of the emergency green tunnel should be as close as possible to the entrance of the hospital vehicle, and it is not advisable to place too many ornaments there, which may obstruct or obscure the view for the passing of the ambulance and the stretcher; the parking position of the ambulance should be set close to the road instead of considering the influence of wind, sunshine and the like on the ambulance.

After the principal of the first party provides the total budget amount, the principal of the first party formulates precondition information such as project product positioning table, planning index table, project area report table, project construction standard practice table, main design content index table and construction scheme according to the requirements of the first party, uploads the precondition information to a system, and the project basic information corresponding to the project is determined by confirmation and verification of the first party and is input into a project cost execution list so as to improve the accuracy of the overall project cost accounting data of the subsequent project; because the use of the target building is not as deep as that of the first-party personnel by the building designer of the building construction party, the designed scheme may have some problems of inconvenient use; by generating the engineering cost execution list, the first party can check the detailed conditions of the sub-subjects such as construction modes, material selection, decoration, equipment selection and the like selected by the sub-projects such as each building, department and the like in the construction cost of the hospital in the engineering cost execution list so as to provide corresponding adjustment and modification suggestions according to the actual requirements of the hospital in the subsequent process; for example, under the condition of low budget, the cost budget of medical equipment required to be purchased is preferentially ensured, and the cost budget for purchasing greening, ceramic tiles and wall decoration materials in a hospital is reduced; under the condition of high budget, the medical equipment required to be purchased is preferentially upgraded, the building decoration is further upgraded under the condition of redundant cost budget, and in the aspect of selecting the lamp, the lighting capacity of the lamp, but not the decoration performance of the lamp, and the like, should be preferentially considered.

It should be understood that, the sequence numbers of the steps in the foregoing embodiments do not imply an execution sequence, and the execution sequence of each process should be determined by functions and internal logic of the steps, and should not constitute any limitation to the implementation process of the embodiments of the present application.

In one embodiment, the present application discloses an intelligent cost calculating system, which corresponds to the intelligent cost calculating method in the above embodiments.

As shown in FIG. 8, the intelligent cost calculation system includes an engineering cost execution list creation module, an item basic information update module, an association column field determination module, and an engineering cost execution list generation module. The detailed description of each functional module is as follows:

Wherein, the engineering cost execution list creating module comprises:

the engineering project matching submodule is used for matching corresponding engineering projects from a project information base according to the project identification information, generating a multi-level subject list, setting an editing interface based on each subject list, and storing approved engineering projects in the project information base;

and the project basic information filling submodule is used for automatically filling corresponding project basic information and filling the project basic information into each subject list of the project cost execution list, wherein the project basic information comprises a planning index, building seat assembly, a nine-large index, a positioning model, a construction scheme, a construction standard and case type selection.

Wherein, the project basic information updating module comprises:

the online correction information receiving submodule is used for receiving online correction information sent by an administrator client, the online correction information comprises editing interface information and correction content, and the type of the online correction information comprises selection correction information and input correction information;

and the online correction submodule is used for updating the corresponding project basic information according to the editing interface information and the correction content of the online correction information.

Wherein, the associated column field determining module comprises:

the association table display sub-module is used for determining corresponding association column fields according to the list attribute information of each subject list, moving the association column fields to the top of the table and displaying the association column fields;

and the non-associated table hiding submodule is used for locking the editing function of the non-associated column fields and hiding the table contents corresponding to the non-associated column fields.

Wherein, the engineering cost execution list generation module comprises:

the subject list classification submodule is used for judging the types of subject lists, and the types of the subject lists comprise an articulated list and a non-articulated list;

the hanging list subject cost calculation sub-module is used for matching each sub-subject of the subject list with cost information in the enterprise database to obtain corresponding cost data if the subject list is the hanging list, and calculating the subject cost according to the sub-subject cost data;

the non-articulated list subject cost calculation sub-module is used for matching each sub-subject of the subject list with the cost information in the enterprise database to obtain corresponding cost data if the subject list is the non-articulated list, acquiring the cost data of the sub-subjects written by the administrator client, and calculating the subject cost according to the cost data of each sub-subject;

and the cost accounting operator module is used for calculating the engineering cost accounting data according to the cost of each item.

Wherein, articulate the inventory subject cost and calculate the submodule and include:

the expense data matching submodule is used for inputting each sub-item of the item list into the price database and matching corresponding expense data;

the supplementary form sending submodule is used for generating a price data supplementary form and sending the price data supplementary form to the administrator client if the cost data is not matched;

and the price data supplement sub-module is used for acquiring price supplement data input into the price data supplement form by the administrator client and taking the price supplement data as cost data of the corresponding sub-subjects.

Wherein, the cost accounting sub-module includes:

and the cost data difference adjustment sub-module is used for inputting the cost data of each sub-subject into the difference adjustment model, automatically adjusting the difference of the cost data and calculating the subject cost based on the cost data of each sub-subject after difference adjustment, and the difference adjustment model is internally provided with a difference adjustment rule.

And the cost data collecting submodule is used for carrying out index collecting processing on each sub-subject in the subject list and converting the cost data of the sub-subjects taking the engineering quantity as a statistical index into a money value.

For specific limitations of the intelligent costing system, reference may be made to the above limitations of the intelligent costing method, which are not described herein again; all or part of each module in the intelligent cost calculation system can be realized by software, hardware and a combination thereof; the modules can be embedded in a hardware form or independent from a processor in the computer device, or can be stored in a memory in the computer device in a software form, so that the processor can call and execute operations corresponding to the modules.

In one embodiment, a computer device is provided, which may be a server, and its internal structure diagram may be as shown in fig. 9. The computer device includes a processor, a memory, a network interface, and a database connected by a system bus. Wherein the processor of the computer device is configured to provide computing and control capabilities. The memory of the computer device comprises a nonvolatile storage medium and an internal memory. The non-volatile storage medium stores an operating system, a computer program, and a database. The internal memory provides an environment for the operation of an operating system and computer programs in the non-volatile storage medium. The database of the computer equipment is used for storing data such as an engineering cost execution list, project identification information, online correction information, project basic information, an enterprise subject library, a price database, a standard case library, an enterprise achievement library and the like. The network interface of the computer device is used for communicating with an external terminal through a network connection. The computer program is executed by a processor to implement an intelligent cost calculation method.

In one embodiment, there is provided a computer device comprising a memory, a processor and a computer program stored in the memory and executable on the processor, the processor implementing the following steps when executing the computer program:

s10: creating an engineering cost execution list, inputting project identification information, matching and automatically filling corresponding project basic information, wherein the engineering cost execution list comprises a multi-level subject list;

s20: receiving online correction information sent by an administrator client, and updating project basic information;

s30: displaying corresponding associated column fields in the engineering cost execution list according to the type of each item list, wherein the column fields are fields for identifying the content meaning of the row of tables in the engineering cost execution list;

In one embodiment, a computer-readable storage medium is provided, having a computer program stored thereon, which when executed by a processor, performs the steps of:

It will be understood by those skilled in the art that all or part of the processes of the methods of the embodiments described above can be implemented by hardware instructions of a computer program, which can be stored in a non-volatile computer-readable storage medium, and when executed, can include the processes of the embodiments of the methods described above. Any reference to memory, storage, database, or other medium used in the embodiments provided herein may include non-volatile and/or volatile memory, among others. Non-volatile memory can include read-only memory (ROM), programmable ROM (PROM), electrically Programmable ROM (EPROM), electrically Erasable Programmable ROM (EEPROM), or flash memory. Volatile memory can include Random Access Memory (RAM) or external cache memory. By way of illustration and not limitation, RAM is available in a variety of forms such as Static RAM (SRAM), dynamic RAM (DRAM), synchronous DRAM (SDRAM), double Data Rate SDRAM (DDRSDRAM), enhanced SDRAM (ESDRAM), synchronous link (Synchlink), DRAM (SLDRAM), rambus (Rambus) direct RAM (RDRAM), direct bused dynamic RAM (DRDRAM), and bused dynamic RAM (RDRAM).

It will be apparent to those skilled in the art that, for convenience and brevity of description, only the above-mentioned division of the functional units and modules is illustrated, and in practical applications, the above-mentioned function distribution may be performed by different functional units and modules according to needs, that is, the internal structure of the apparatus is divided into different functional units or modules to perform all or part of the above-mentioned functions.

The above-mentioned embodiments are only used for illustrating the technical solutions of the present application, and not for limiting the same; although the present application has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art; the technical solutions described in the foregoing embodiments may still be modified, or some features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the embodiments of the present application, and they should be construed as being included in the present application.

Claims

1. The intelligent cost calculation method is characterized by comprising the following steps: the intelligent cost calculation method comprises the following steps:

displaying corresponding associated column fields in the engineering cost execution list according to the type of each subject list, wherein the column fields are fields for identifying the content meaning of the row of tables in the engineering cost execution list;

2. The intelligent cost calculation method of claim 1, wherein: the step of matching and automatically filling in the corresponding project basic information comprises the following steps:

3. The intelligent cost calculation method of claim 1, wherein: the step of displaying the corresponding associated column fields in the project cost execution list according to the type of each subject list comprises the following steps:

4. The intelligent cost calculation method of claim 1, wherein: matching corresponding cost information from an enterprise database according to each subject list, automatically calculating the subject cost of each subject list, and calculating the engineering cost accounting data, wherein the step of calculating the engineering cost accounting data comprises the following steps:

if the subject list is a non-articulated list, matching each sub-subject of the subject list with cost information in an enterprise database to obtain corresponding cost data, acquiring the cost data of the sub-subject written by the administrator client, and calculating the subject cost according to the cost data of each sub-subject;

and calculating engineering cost accounting data according to the subject cost.

5. The intelligent cost calculation method of claim 4, wherein: the enterprise database comprises a price database for storing material expense data, equipment expense data, labor expense data and indirect expense data, and the step of matching each sub-subject of the subject list with the cost information in the enterprise database to obtain corresponding cost data comprises the following steps:

6. The intelligent cost calculation method of claim 4, wherein: before the step of calculating the engineering cost accounting data according to the subject cost, the method comprises the following steps:

7. The intelligent cost calculation method of claim 4, wherein: before the step of calculating the engineering cost accounting data according to the subject cost, the method comprises the following steps:

and (4) performing index collection processing on each sub-subject in the subject list, and converting the cost data of the sub-subject with the engineering quantity as a statistical index into a money value.

8. An intelligent cost computing system, comprising:

9. A computer device comprising a memory, a processor and a computer program stored in the memory and executable on the processor, wherein the processor when executing the computer program implements the steps of the intelligent cost calculation method as claimed in any one of claims 1 to 7.

10. A computer-readable storage medium, in which a computer program is stored, which, when being executed by a processor, carries out the steps of the intelligent cost calculation method according to any one of claims 1 to 7.