CN114022125A - Engineering quantity calculation method, storage medium, and apparatus - Google Patents

Abstract

The application relates to the field of building construction, and discloses an engineering quantity calculation method, a storage medium and a device, wherein the method comprises the following steps: acquiring input login operation information; based on the login operation information, linking to an engineering project search page; acquiring an engineering project name input on the engineering project search page; based on the input project name, linking to a corresponding project amount calculation page; if the project name at least comprises two sub-projects, respectively calling a preset calculation program to calculate the project amount of all the sub-projects; and acquiring the engineering quantity calculation results of all the sub-projects, and generating an engineering project summary list. The method and the device have the effect of reducing manpower when the engineering quantity of the engineering project is calculated.

Description

Engineering quantity calculation method, storage medium, and apparatus

Technical Field

The invention relates to the field of building construction, in particular to a method, a storage medium and a device for calculating engineering quantity.

Background

The building construction generally comprises three construction stages, which are respectively: a construction preparation stage, a construction stage and a completion stage; the construction preparation stage comprises project construction project reporting, construction entrusting supervision, bid inviting and bidding and construction contract signing; the construction stage comprises construction project construction license acquisition and construction; the completion stage is divided into completion acceptance and in-term maintenance.

Generally, in a construction stage, a plurality of engineering projects are included, each engineering project performs different construction operations according to construction requirements, the completion progress of each engineering project is the engineering quantity, and in the construction process, calculating the engineering quantity of each engineering project is a very important step.

For the related technologies, the inventor thinks that each project generally summarizes the progress manually, which is troublesome and requires a lot of manpower.

Disclosure of Invention

In order to reduce manpower when calculating the engineering quantity of an engineering project, the application provides an engineering quantity calculating method, a storage medium and a device.

In a first aspect, the present application provides a method for calculating an engineering quantity, which adopts the following technical scheme:

a method of engineering quantity calculation, comprising:

acquiring input login operation information;

based on the login operation information, linking to an engineering project search page;

acquiring an engineering project name input on the engineering project search page;

based on the input project name, linking to a corresponding project amount calculation page;

if the project name at least comprises two sub-projects, respectively calling a preset calculation program to calculate the project amount of all the sub-projects;

and acquiring the engineering quantity calculation results of all the sub-projects, and generating an engineering project summary list.

By adopting the technical scheme, when the engineering quantity of the engineering project needs to be calculated, the system is logged in according to the login operation information, then the engineering project with the engineering quantity needing to be calculated is input into the search box, then the step of calculating the engineering quantity is carried out according to the engineering project, some engineering projects comprise at least two sub-projects, the construction types of each sub-project are inconsistent, therefore, the engineering quantity of each sub-project is calculated by utilizing a calculation program respectively, then the calculation results of the sub-projects are gathered into a list, the sub-projects do not need to be checked manually one by one, and the engineering quantities of different sub-projects are calculated simultaneously; therefore, the working efficiency can be improved and the labor can be saved.

Optionally, the step of acquiring the input login operation information includes:

acquiring a login account and a login password input by a user;

acquiring the identity type of a user based on the login account and the login password input by the user, wherein the identity type of the user comprises an internal user and an external user;

if the identity category of the user belongs to the internal user, linking to an engineering project search page based on the login operation information;

the step of acquiring the project item name input on the project item search page includes:

acquiring an input project name; if the project name belongs to the range of a preset project list, successfully linking to a corresponding project amount calculation page based on the input project name; and if the project name does not belong to the range of the preset project list and cannot be successfully linked to the corresponding project amount calculation page, re-acquiring the input project name.

By adopting the technical scheme, when the engineering quantity of the engineering project needs to be calculated, the engineering quantity enters the system through the account and the password of the user, but because the system comprises an internal user and an external user, the internal user is an internal person related to the engineering project, the external person is a client or a person unrelated to the engineering project, the engineering quantity of the engineering project is looked up and belongs to a relatively private operation behavior, and only the internal person is provided with service, so that after the account and the password are matched, when the external user is identified to log in, the interception is needed, and the account and the password which are suitable for the internal person are matched again; meanwhile, when the project name is inquired, whether the inquired project name is in the project list which is in the construction state at the same time or not is identified, whether the next calculation of the project amount can be continued or not is considered, if the inquired project name is not in the project list, the project amount cannot be calculated, and even if the calculated project amount is not in accordance with the expected result to be inquired, the labor can be saved, and the work efficiency of calculating the project amount is improved.

Optionally, the step of determining that the project name does not belong to the preset project list range includes:

marking the project names which do not belong to the preset project list range;

and updating the project list based on the marked project name.

By adopting the technical scheme, when the inquired project name does not belong to the interior of the project list, the project name is marked and the project list is updated, when the project name is searched next time and the same project name is input by a user, the system can judge that the project name does not belong to the project list through the previous characters through the search history, so that the search time can be saved, and the efficiency can be further improved.

Optionally, the step of obtaining the calculation results of the engineering quantities of all the sub-projects includes:

obtaining the comparison results of the actual project quantities of the sub projects and the preset expected project quantities respectively;

if the difference value between the actual sub-project engineering quantity and the preset expected engineering quantity does not reach the preset difference value threshold value, the sub-project is determined to be in a construction state of normal progress; if the difference value between the actual project amount of the sub project and the preset expected project amount reaches a preset difference value threshold value, determining that the sub project is in a construction state of delayed progress;

when the project amount of the sub project is calculated, the times of the sub project in normal progress are obtained from historical data;

and if the times of the sub-project in the normal progress reach the time threshold, the engineering quantity of the sub-project does not need to be calculated from the next time, and the engineering quantity calculation result is the construction state of the sub-project in the normal progress.

By adopting the technical scheme, as one project has a longer construction period, more times can be checked when the project amount is checked by project supervision personnel, if the project is in the progress of completing the project up to the standard in more times, the credit degree representing the completion of the project is higher, in order to save the calculation steps, the project can be determined to be completed up to the standard in the subsequent check by default, so that the calculation time can be saved, and the work efficiency of calculating the project amount is further improved.

Optionally, the step of generating the engineering project summary list includes:

acquiring the total finished engineering quantity of the engineering project based on the engineering project summary list;

obtaining a comparison result of the total finished engineering quantity and a preset engineering quantity to be finished based on the total finished engineering quantity;

the comparison results are graphically displayed on the summary list.

By adopting the technical scheme, when the calculation of the engineering quantity of the engineering project is finished each time, the calculation result of the engineering project is displayed in a chart form, so that the calculation result can be conveniently consulted, and the visual effect is good.

Optionally, the step of obtaining a comparison result between the total finished engineering quantity and a preset engineering quantity to be finished includes:

and if the total finished engineering quantity of the engineering project does not reach the quantity of the project to be finished, giving a preset warning and construction suggestion.

By adopting the technical scheme, under the condition that the engineering quantity is not completed in time, warning and construction suggestions need to be given, and the work is reminded to coordinate the work progress in time so as to avoid influencing subsequent work.

Optionally, after the step of determining that the total engineering quantity of the engineering project does not reach the engineering quantity to be completed, the method includes:

based on historical data, if the total finished engineering quantity of the engineering project for N times does not reach the engineering quantity to be finished, sending a checking instruction to a computer, and the computer self-checking whether a calculation program has a fault or not;

and calling a standby preset calculation program to calculate the engineering quantities of all the sub-items.

By adopting the technical scheme, if the project quantity is not up to the standard when the project quantity is checked every time, and the continuous times are more, whether the fault of the calculation program occurs needs to be judged, if the fault of the calculation program occurs, the self-checking program is needed, and therefore the situation that the deviation of the calculation result occurs due to the fault of the calculation program can be reduced.

Optionally, the step of obtaining the calculation results of the engineering quantities of all the sub-projects includes:

when the project amount of the sub project is calculated, acquiring the proportion condition of the sub project in the delay progress from the historical data;

and if the proportion condition in the delay progress reaches the proportion threshold, acquiring the engineering personnel corresponding to the sub-project, and adding the engineering personnel to the credit blacklist.

By adopting the technical scheme, according to the total project name, if the proportion of the condition of progress delay is large when the project quantity of the same sub project is calculated, the engineering personnel responsible for the sub project construction is disqualified, the engineering personnel needs to be driven into a blacklist, a reference basis is provided for distributing the engineering personnel in the subsequent construction process, and therefore the high-efficiency completion of the whole construction process is facilitated.

In a second aspect, the present application provides a storage medium for calculating an engineering quantity, which adopts the following technical solution:

an engineering volume calculation storage medium comprising: a calculation program applied to an engineering quantity calculation method of the above claims.

By adopting the technical scheme, when the engineering quantity of the engineering project needs to be calculated, the system is logged in according to the login operation information, then the engineering project with the engineering quantity needing to be calculated is input into the search box, then the step of calculating the engineering quantity is carried out according to the engineering project, some engineering projects comprise at least two sub-projects, the construction types of each sub-project are inconsistent, therefore, the engineering quantity of each sub-project is calculated by utilizing a calculation program respectively, then the calculation results of the sub-projects are gathered into a list, the sub-projects do not need to be checked manually one by one, the engineering quantities of different sub-projects are calculated simultaneously, the working efficiency can be improved, and the labor is saved.

In a third aspect, the present application provides an engineering quantity calculation apparatus, which adopts the following technical solution:

an engineering quantity calculation apparatus comprising: the engineering quantity calculation storage medium, the controller, the login module, the search module, the calculation module and the list module of the above claims;

the engineering quantity calculation storage medium stores a calculation program required for calculating engineering quantity;

the controller is used for executing a calculation program required by calculating the engineering quantity of the engineering project;

the login module is used for providing a login entry when the project amount of the project needs to be calculated;

the search module is used for providing a search channel of the project name when logging in the project amount calculation device;

the calculation module is used for calculating the engineering quantities of all the sub-projects by calling a preset calculation program;

and the list module is used for generating an engineering project summary list according to the engineering quantity calculation results of all the sub projects.

By adopting the technical scheme, when the engineering quantity of the engineering project needs to be calculated, the system is logged in according to the login operation information, then the engineering project with the engineering quantity needing to be calculated is input into the search box, then the step of calculating the engineering quantity is carried out according to the engineering project, some engineering projects comprise at least two sub-projects, the construction types of each sub-project are inconsistent, therefore, the engineering quantity of each sub-project is calculated by utilizing a calculation program respectively, then the calculation results of the sub-projects are gathered into a list, the sub-projects do not need to be checked manually one by one, the engineering quantities of different sub-projects are calculated simultaneously, the working efficiency can be improved, and the labor is saved.

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

1. when the engineering quantity of the engineering project needs to be calculated, firstly, the system is logged in according to the login operation information, then the engineering project which needs to calculate the engineering quantity is input into the search box, the step of calculating the engineering quantity is carried out according to the engineering project, some engineering projects comprise at least two sub-projects, and the construction types of each sub-project are inconsistent, so that the engineering quantity of each sub-project is calculated by utilizing a calculation program respectively, then the calculation results of the sub-projects are gathered into a list, the sub-projects do not need to be checked manually one by one, the engineering quantities of different sub-projects are calculated at the same time, the working efficiency can be improved, and the labor is saved;

2. because a project has a longer construction period, the project supervision personnel can check more times when checking the project quantity, if the project supervision personnel is in the process of completing the project according to the standard each time in more times, the credibility representing the completion of the project is higher, in order to save the calculation steps, the project supervision personnel can be acquiescent to complete the project according to the standard in the subsequent check, thereby saving the calculation time and further improving the work efficiency of calculating the project quantity.

Drawings

Fig. 1 is a hardware architecture diagram of an engineering quantity calculation apparatus according to an embodiment of the present application.

Fig. 2 is a flowchart of an engineering quantity calculation method according to an embodiment of the present application.

Detailed Description

The present application is described in further detail below with reference to figures 1-2.

The embodiment of the application discloses an engineering quantity calculation device. Referring to fig. 1, the system comprises an engineering quantity calculation storage medium, a controller, a login module, a search module, a calculation module and a list module; the engineering quantity calculation storage medium is in communication connection with the controller, and the login module, the search module, the calculation module and the list module are all in communication connection with the controller.

The engineering quantity calculation storage medium is a storage product comprising one of a memory, a flash memory card and a hard disk and is used for storing a calculation program of a calculation engineering project, and when the calculation program fails, whether the calculation program fails or not needs to be checked through a computer.

The controller comprises hardware for program operation of one of a CPU, a chip and the like, and is used for operating a calculation program for calculating engineering projects; and the system is also used for judging whether the engineering project comprises at least two sub-projects according to the input engineering project name.

The login module is provided with a login entrance, and when a user needs to login the system, the user needs to log in and verify through the form of an account number and a password to enter the system.

The search module is provided with a search box, the search box supports various input methods such as voice input, handwriting input, pinyin input and the like, engineering project names needing to be inquired are input in the search box, the corresponding calculation pages can be skipped to, and different calculation pages can exist for different sub-projects.

And the calculation module is in communication connection with the engineering quantity calculation storage medium, calculates the engineering quantity according to a calculation program, and if the same engineering project comprises different sub-projects, drawings and models of the different sub-projects are different, so that the engineering quantity needs to be separately calculated for all the sub-projects by using the calculation program in different calculation modes respectively, and calculation results are generated and expressed in percentage.

And the list module is used for summarizing the calculation results of different sub-items and displaying the calculation results in a list form after the summary.

The implementation principle of the engineering quantity calculation device in the embodiment of the application is as follows: when the engineering quantity calculation device is used, firstly, a system is logged in on the device through a user account and a user password, then a calculated engineering project name which is required to be input is input in a search box, then, the engineering quantities of different sub projects are calculated respectively according to a calculation program on a calculation page, and then, the calculation is summarized in a list form.

Referring to fig. 2, based on the hardware architecture, the embodiment of the present application further discloses a method for calculating engineering quantity, which includes steps S100 to S600:

step S100: and acquiring the input login operation information.

When the engineering quantity of the engineering project needing to be inquired needs to be calculated, login operation information is input through a login module, wherein the login operation information comprises a user account, a user password, account verification information and the like.

Wherein the step S100 includes steps S110 to S130.

Step S110: and acquiring a login account and a login password input by a user.

For example, the login account number is 123456789, and the login password is abc 123.

Step S120: and acquiring the identity types of the users based on the login account and the login password input by the users, wherein the identity types of the users comprise internal users and external users.

The system comprises an internal user and an external user, wherein the internal user is an internal person related to the engineering project, the external person is a client or a person unrelated to the engineering project, the amount of the searched engineering project belongs to a more private operation behavior, and only the internal person is provided with service.

Step S130: and if the identity category of the user belongs to the internal user, linking to an engineering project search page based on the login operation information.

Therefore, after the account number and the password are matched, the account number belonging to the internal user can enter the process of calculating the engineering quantity, when the external user is identified to log in, the account number and the password which are suitable for internal staff need to be intercepted, and the account number and the password which are suitable for the internal staff are matched again, and the login can be successful until the input account number belongs to the account number of the internal user, so that a certain confidentiality effect can be achieved.

Step S200: and linking to an engineering project search page based on the login operation information.

When the account number is in accordance with the type of the internal user, the user can successfully log in and enter a search interface.

Step S300: and acquiring the project name input on the project search page.

The step S300 includes steps S310 to S320.

Step S310: and acquiring the input project name.

For example, the project item name to be inquired is input in the search box by input modes such as voice input, handwriting input, pinyin input and the like, and then the corresponding calculation page can be skipped.

Step S320: if the project name belongs to the range of a preset project list, successfully linking to a corresponding project amount calculation page based on the input project name; and if the project name does not belong to the range of the preset project list and cannot be successfully linked to the corresponding project amount calculation page, re-acquiring the input project name.

Because the construction of each engineering project is periodic, and some engineering projects are already completed, the object to be inquired can only be the engineering project in the construction state, and the engineering project list contains the names of the engineering projects in the construction state.

Step S330: marking the project names which do not belong to the preset project list range; and updating the project list based on the marked project name.

If the searched engineering project does not belong to the engineering project list, marking is carried out, the engineering project list is updated, when the engineering project name is searched next time and the same engineering project name is input by a user, the system can judge that the project name does not belong to the engineering project list through the first characters through the search history, the search time can be saved, and meanwhile, the efficiency is further improved.

Step S400: and linking to a corresponding engineering quantity calculation page based on the input engineering project name.

And entering a process of calculating the engineering quantity if the engineering project name is in accordance with the engineering project list after the engineering project name is input by the user.

Step S500: and if the project name at least comprises two sub-projects, respectively calling a preset calculation program to calculate the project amount of all the sub-projects.

Some engineering projects comprise a plurality of sub-projects, for example, the piling progress and the wiring progress, the construction progress of engineering personnel and other delivery parameters are used for separately calculating the engineering quantity of the two sub-projects.

Step S600: and acquiring the engineering quantity calculation results of all the sub-projects, and generating an engineering project summary list.

Wherein the step S600 includes the following steps S610-S640:

step S610: and obtaining the comparison results of the actual project quantities of the sub projects and the preset expected project quantities respectively.

Step S620: if the difference value between the actual sub-project engineering quantity and the preset expected engineering quantity does not reach the preset difference value threshold value, the sub-project is determined to be in a construction state of normal progress; and if the difference value between the actual project amount of the sub project and the preset expected project amount reaches a preset difference value threshold value, determining that the sub project is in a construction state of delayed progress.

For example, when the construction period is half, the corresponding work amount should be 50% completed, if the currently calculated work amount reaches 50%, the progress reaches the standard, and belongs to the normal progress, and if the currently calculated work amount does not reach 50%, the progress belongs to the delayed progress.

Step S630: and when the engineering quantity of the sub project is calculated, acquiring the number of times that the sub project is in normal progress from the historical data.

Step S640: and if the times of the sub-project in the normal progress reach the time threshold, the engineering quantity of the sub-project does not need to be calculated from the next time, and the engineering quantity calculation result is the construction state of the sub-project in the normal progress.

For example, in the historical data, the work load of the sub-project is calculated 10 times in total, and the 10 calculation results are all in normal progress, so that the credibility of the construction progress of the sub-project is proved to be high, and the progress can be completed almost every time, therefore, in the subsequent process of calculating the work load, in order to save time, the sampling inspection can be omitted, and the work efficiency is improved.

The step of generating the engineering project summary list in the step S600 comprises the following steps S6A 0-S6C 0:

step S6a 0: and acquiring the total finished engineering quantity of the engineering project based on the engineering project summary list.

Step S6B 0: and acquiring a comparison result of the total finished engineering quantity and a preset to-be-finished engineering quantity based on the total finished engineering quantity.

And if the total finished engineering quantity of the engineering project does not reach the quantity of the project to be finished, giving a preset warning and construction suggestion.

For example, the construction recommendations are as follows:

in the quality aspect:

firstly, strengthening the guiding function of the technology. A special construction scheme is compiled before construction, a construction scheme which has great influence on engineering quality and safe production is reported to a construction scheme organization expert argumentation discussion of major safety risks of verification and approval of branch companies and companies according to relevant regulations of the companies strictly, and quality and safety are ensured. Before implementation, technical charge persons organize the technology to make a return, and technical and quality persons follow up the duty to check and guide in the operation process, find problems and correct and eliminate the problems in time.

And II, implementing a quality responsibility system and a reward and penalty system. Before the start of a job, a relatively complete quality responsibility system and a relatively complete reward and penalty system are formulated, tracking inspection is organized in time, the quality problem is found, reason analysis is immediately carried out, and corresponding penalty is given to a responsible person; instead, a good standard is achieved, giving equal rewards to the team.

And thirdly, implementing three detection systems and strengthening the detection process. And (4) organizing self-inspection after the team component project is finished, handing over to next procedure team inspection after the team component project is qualified, and timely tracking inspection is required for special inspection. And (4) checking and inspecting the raw materials and the semi-finished products according to the standard requirements after the raw materials and the semi-finished products enter a field, stopping unqualified products from being used in engineering, and executing a two-stage rechecking system by elevation and displacement.

In the aspect of safe production:

firstly, a safety management system is perfected, and a safety management system is perfected. The project manager takes the lead organization, the engineering department, the material and equipment department and the like to participate, and organizes security inspection and security special meetings every week to strengthen the security management consciousness of people.

Secondly, the safe production investment is increased, and the idea of establishing safety is also the benefit concept. According to the construction period and the characteristics of a working surface, special safety production is realized, and safety protection articles are prepared in time; safety helmet, safety belt, safety net and labour protection articles for use are in time purchased, and four mouths five face the limit and strictly establish the protection railing according to the standard requirement to hang the security propaganda warning sign in escape way department.

Thirdly, strengthening the special safety improvement. For the operations with larger potential safety hazards such as temporary power utilization, overhead operation, large-scale component hoisting and the like, a professional security officer can patrol and inspect at any time to prevent illegal and disciplined behaviors. Can carry out fine when necessary, achieve the purpose of educating the staff.

And fourthly, strictly executing a safety reward and penalty system. In order to stop various violation behaviors, a safe production rewarding and punishing system is established, violation first criticizing education and violation second punishment second criticizing law is firmly realized by adopting a method of penalty; meanwhile, the reward is redeemed for the individual or the team who eliminates the potential safety hazard.

Fifthly, field fire control management is enhanced. Arrange the special messenger to act as fire control inspector, be equipped with fire-fighting equipment, organize the workman and study fire control knowledge, strengthen fire control propaganda work.

And (4) civilization standardization:

civilized construction and CI coverage: the project department organizes various works according to the standard requirements of X-level civilized construction sites all the time from the beginning of the construction day, various labels are basically complete and are supplemented and perfected in time in the construction process, the temporary construction arrangement is reasonable, and the construction waste is piled at fixed points and is organized to be transported outside regularly. The CI coverage is basically manufactured according to the unified planning standard of the company, and the aim of publicizing the company is achieved.

Meanwhile, based on historical data, if the total finished engineering quantity of the engineering project for N times does not reach the engineering quantity to be finished, sending a checking instruction to a computer, and the computer self-checking whether a computer program fails or not; and calling a standby preset calculation program to calculate the engineering quantities of all the sub-items.

Step S6C 0: the comparison results are graphically displayed on the summary list.

For example, the summary list includes the engineering quantity calculation results of the engineering project, including the following: and displaying the comparison result of the total finished engineering quantity and the preset engineering quantity to be finished in the forms of bar graphs, bar graphs or sector graphs and the like.

The step of obtaining the engineering quantity calculation results of all the sub-items in the step S600 comprises the following steps S6a 0-S6 b 0:

step S6a 0: and when the engineering quantity of the sub project is calculated, acquiring the proportion condition of the sub project in the delayed progress from the historical data.

Step S6b 0: and if the proportion condition in the delay progress reaches the proportion threshold, acquiring the engineering personnel corresponding to the sub-project, and adding the engineering personnel to the credit blacklist.

If the project amount of the same sub-project is sampled and checked each time, the project amount belongs to the delay progress, the proportion of the delay progress times is calculated, and if the proportion of the delay progress times reaches the proportion threshold (for example, 80%), the lack of responsibility of the engineer in charge of the sub-project can be reflected, the progress is not facilitated to be completed by the whole project amount, and the engineer needs to be pulled into a credit blacklist to provide a reference basis for selecting a proper engineer subsequently.

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 method for calculating an engineering quantity, characterized by: the method comprises the following steps:

acquiring input login operation information;

based on the login operation information, linking to an engineering project search page;

acquiring an engineering project name input on the engineering project search page;

based on the input project name, linking to a corresponding project amount calculation page;

if the project name at least comprises two sub-projects, respectively calling a preset calculation program to calculate the project amount of all the sub-projects;

and acquiring the engineering quantity calculation results of all the sub-projects, and generating an engineering project summary list.

2. An engineering quantity calculation method according to claim 1, characterized in that:

the step of acquiring the input login operation information includes:

acquiring a login account and a login password input by a user;

acquiring the identity type of a user based on the login account and the login password input by the user, wherein the identity type of the user comprises an internal user and an external user;

if the identity category of the user belongs to the internal user, linking to an engineering project search page based on the login operation information;

the step of acquiring the project item name input on the project item search page includes:

acquiring an input project name;

if the project name belongs to the range of a preset project list, successfully linking to a corresponding project amount calculation page based on the input project name; and if the project name does not belong to the range of the preset project list and cannot be successfully linked to the corresponding project amount calculation page, re-acquiring the input project name.

3. An engineering quantity calculation method according to claim 2, characterized in that: the step of judging whether the project name does not belong to the preset project list range comprises the following steps:

marking the project names which do not belong to the preset project list range;

and updating the project list based on the marked project name.

4. A method of engineering quantity calculation according to claim 3, characterized by: the step of obtaining the calculation results of the engineering quantities of all the sub-projects comprises the following steps:

obtaining the comparison results of the actual project quantities of the sub projects and the preset expected project quantities respectively;

if the difference value between the actual sub-project engineering quantity and the preset expected engineering quantity does not reach the preset difference value threshold value, the sub-project is determined to be in a construction state of normal progress; if the difference value between the actual project amount of the sub project and the preset expected project amount reaches a preset difference value threshold value, determining that the sub project is in a construction state of delayed progress;

when the project amount of the sub project is calculated, the times of the sub project in normal progress are obtained from historical data;

and if the times of the sub-project in the normal progress reach the time threshold, the engineering quantity of the sub-project does not need to be calculated from the next time, and the engineering quantity calculation result is the construction state of the sub-project in the normal progress.

5. An engineering quantity calculation method according to claim 1, characterized in that: the step of generating a summary list of engineering projects comprises:

acquiring the total finished engineering quantity of the engineering project based on the engineering project summary list;

obtaining a comparison result of the total finished engineering quantity and a preset engineering quantity to be finished based on the total finished engineering quantity;

the comparison results are graphically displayed on the summary list.

6. An engineering quantity calculation method according to claim 5, characterized in that: the step of obtaining the comparison result of the total finished engineering quantity and the preset engineering quantity to be finished comprises the following steps:

and if the total finished engineering quantity of the engineering project does not reach the quantity of the project to be finished, giving a preset warning and construction suggestion.

7. An engineering quantity calculation method according to claim 6, characterized in that: if the total finished engineering quantity of the engineering project does not reach the step of the engineering quantity to be finished, the method comprises the following steps:

based on historical data, if the total finished engineering quantity of the engineering project for N times does not reach the engineering quantity to be finished, sending a checking instruction to a computer, and the computer self-checking whether a calculation program has a fault or not;

and calling a standby preset calculation program to calculate the engineering quantities of all the sub-items.

8. An engineering quantity calculation method according to claim 1, characterized in that: the step of obtaining the calculation results of the engineering quantities of all the sub-projects comprises the following steps:

when the project amount of the sub project is calculated, acquiring the proportion condition of the sub project in the delay progress from the historical data;

and if the proportion condition in the delay progress reaches the proportion threshold, acquiring the engineering personnel corresponding to the sub-project, and adding the engineering personnel to the credit blacklist.

9. An engineering quantity calculation storage medium characterized by: the method comprises the following steps: a calculation program applied to a method of calculating an engineering quantity according to claims 1 to 8.

10. An engineering quantity calculation apparatus characterized by: the method comprises the following steps: the workload computation storage medium, the controller, the login module, the search module, the computation module, and the manifest module of claim 9;

the engineering quantity calculation storage medium stores a calculation program required for calculating engineering quantity;

the controller is used for executing a calculation program required by calculating the engineering quantity of the engineering project;

the login module is used for providing a login entry when the project amount of the project needs to be calculated;

the search module is used for providing a search channel of the project name when logging in the project amount calculation device;

the calculation module is used for calculating the engineering quantities of all the sub-projects by calling a preset calculation program;

and the list module is used for generating an engineering project summary list according to the engineering quantity calculation results of all the sub projects.

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