CN113222259A - Progress management system for construction cost - Google Patents

Abstract

The invention discloses a progress management system for engineering cost, which relates to the technical field of engineering management, and is characterized in that a method for marking and tracking engineering tools is adopted to determine the problem of punching a card by a worker, confirm the working state of the worker, avoid the occurrence of the situation of careless work after punching the card by adopting the traditional mode, track and prevent the loss of tool individuals, and realize the punching work of the worker; a material management module is arranged to monitor engineering materials, comprehensively judge a construction process by combining a card punching progress and a material loss progress, and manage and display the construction progress according to task division; the application provides a progress management system for engineering cost combines engineering personnel's progress that the whole engineering was overall planned to the analysis of loss of material, and the directly perceived and accurate engineering progress that reflects.

Description

Progress management system for construction cost

Technical Field

The invention relates to the technical field of engineering management, in particular to a progress management system for engineering cost.

Background

Project Costs (PC) refer to the construction Costs expected or actually paid out during the construction period of a component Project. With the soaring of real estate market in China and the rise of social infrastructure construction, the engineering cost consultation industry with abundant local resources, human veins and policy resources develops rapidly, the service types of the engineering cost consultation industry are gradually improved, the engineering investigation and design capability is rapidly improved, and good economic benefit and social benefit are obtained.

The visual progress of the project is the visual position and the total progress of the construction project reached at a certain time point (usually the end of the term) by the percentage of the text or the real project quantity according to the main components of the project. Under certain construction technical conditions, the construction progress of each project can be generally indicated by the completion condition of the main part of the project. The progress is checked for lead or lag as compared to the plan compiled in the construction organization design to guide the scheduling of subsequent work. However, in the prior art, a management system for overall project progress is not provided, the progress is estimated by manpower, the accuracy is not high, and manpower is wasted.

To this phenomenon, this application provides a progress management system for engineering cost, combines engineering personnel's progress that the overall project of overall analysis was worked out to material loss, and the directly perceived and accurate project progress that reflects.

Disclosure of Invention

The invention aims to provide a progress management system for construction cost, which is used for comprehensively analyzing the progress of the whole project by combining the attendance of engineering personnel and material loss and reflecting the progress of the project intuitively and accurately.

The invention provides a progress management system for construction cost, which comprises:

the employee card punching module: marking and tracking engineering tools, acquiring the time of taking corresponding tools by employees of different work types and the time of returning the tools, recording the time length of using the tools, performing card punching and total returning according to dates, and sending total returning information to a construction planning module;

the material management module: setting material types, monitoring price data of materials in the market in real time, monitoring the material allowance in real time, purchasing trading materials according to requirements, and sending a trading record to a construction planning module;

a construction planning module: and establishing a construction task, dividing progress, planning construction budget including material transaction, summarizing construction current progress according to employee card punching results and material loss, and comparing and displaying the construction current progress with a preset progress.

Further, the employee card punching module comprises:

staff information input module: the system is used for inputting and storing personal information of employees;

staff position classification module: dividing functions and positions according to the conditions of the staff, and setting appliance use authorities of different positions;

the appliance use recording module: marking and tracking engineering appliances, taking and returning the appliances by the staff who obtains the corresponding authority, and recording the time for taking and returning;

a card punching progress summarizing module: and carrying out timed summarization according to the taking and returning records of the daily appliances, and sending the summarized summary to a construction planning module.

Further, engineering apparatus includes computer, machinery and instrument, two-dimensional code is all posted on engineering apparatus's surface, confirms work start time, work deadline and uses staff's information through scanning the two-dimensional code.

Further, the material management module comprises:

material class management module: the system is used for setting the engineering material types, managing the materials and monitoring the allowance of the materials in real time;

material price monitoring module: acquiring the historical floating trend of the material price, and monitoring the preset material price in real time;

the material supply management module: inputting the price of the material according to the price monitoring result to search for the supplier;

the material transaction processing module: and after a supplier is selected, purchasing the corresponding material, and sending the transaction record to a construction planning module.

Further, the construction planning module includes:

a construction task establishing module: the method is used for establishing a construction task;

a construction task dividing module: dividing the construction tasks, and definitely dividing the tasks which should be completed every quarter, every month, every week and every day;

the construction budget planning module: budget planning is carried out according to the construction tasks, construction expenses are collected and recorded in real time, actual expenses are compared with budgets, and comparison results are sent and displayed;

construction progress display module: and comprehensively displaying the employee card punching condition, the material consumption condition, the current construction progress and the expense consumption condition, and comparing and displaying each result with a preset value.

Furthermore, the construction task dividing module internally comprises a radius particle swarm optimization module, a judger module and a reverse learning module;

the radius particle swarm optimization module designs an adaptive function of a particle swarm algorithm according to the construction task partitioning request and the task attributes thereof, dynamically calculates the optimal task partitioning scheme of the region in regions, selects the overall optimal task partitioning scheme from the optimal values of the region, and outputs the overall optimal task partitioning scheme to the judger module;

the judger module judges whether the optimal partitioning scheme falls into a local limit value or not according to the optimal partitioning scheme, if yes, the reverse learning module is triggered, otherwise, the reverse learning module is not triggered, and the radius particle swarm optimization module continues to carry out radius particle swarm optimization;

the reverse learning module adopts a reverse learning mechanism to degrade the partitioning scheme to enable the partitioning scheme to jump out of a local limit value, and feeds back a degradation result to the radius particle swarm optimization module, and the radius particle swarm optimization module continues to solve and output the task partitioning scheme according to the fed-back degradation result.

Compared with the prior art, the invention has the following remarkable advantages:

the invention provides a progress management system for engineering cost, which adopts a method of marking and tracking engineering tools to determine the problem of punching a card by a staff and confirm the working state of the staff, thereby avoiding the occurrence of the situation of working carelessly after punching the card by adopting the traditional mode, tracking and preventing the loss of tool individuals and realizing the punching work of the staff; a material management module is arranged to monitor engineering materials, comprehensively judge a construction process by combining a card punching progress and a material loss progress, and manage and display the construction progress according to task division; the application provides a progress management system for engineering cost combines engineering personnel's progress that the whole engineering was overall planned to the analysis of loss of material, and the directly perceived and accurate engineering progress that reflects.

Drawings

Fig. 1 is a system composition diagram of a progress management system for construction cost according to an embodiment of the present invention.

Detailed Description

The technical solutions of the embodiments of the present invention are clearly and completely described below with reference to the drawings in the present invention, and it is obvious that the described embodiments are some embodiments of the present invention, but not all embodiments. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, shall fall within the scope of protection of the present invention.

Referring to fig. 1, the present invention provides a progress management system for construction costs, including:

the employee card punching module: setting a special two-dimensional code for the engineering tool to mark and track, scanning the two-dimensional code on the surface of the received engineering tool by the staff to obtain background authentication, completing the work of punching a card, obtaining the time of receiving the corresponding tool by the staff of different work types and the time of returning the tool, recording the time length of using the tool, punching the card according to the date and summarizing, sending the summarizing information to a construction planning module, and completing the work of punching the card;

the material management module: setting material types according to the requirements of construction tasks, monitoring price data of materials in the market in real time, and sending the price data to a display module for displaying and reminding when the market price is close to a lower threshold value of price fluctuation; monitoring the material allowance in real time, sending the material allowance to a display module for displaying and reminding when the allowance reaches a preset threshold value, comprehensively considering the purchase of transaction materials according to the demand and the transaction amount, sending transaction records to a construction planning module, and summarizing construction cost;

a construction planning module: the method comprises the steps of establishing a construction task, carrying out progress division by adopting a radius particle swarm optimization method, carrying out construction budget planning including material transaction, reasonably carrying out cost monitoring, allocating money in due time, summarizing construction current progress according to employee card punching results and material loss, and comparing and displaying the construction current progress with a preset progress.

Example 1

The employee card punching module comprises:

staff information input module: the system is used for inputting and storing personal information of staff and carrying out standardized staff management;

staff position classification module: dividing functions and positions according to the conditions of the staff, setting appliance use authorities of different positions, and dividing the staff into clerks of clerical staff, mechanical staff and tool staff, wherein the clerical staff endows computer use authorities, the mechanical staff endows mechanical use authorities and the tool staff endows tool use authorities;

the appliance use recording module: marking and tracking engineering appliances, taking and returning the appliances by the staff who obtains the corresponding authority, and recording the time for taking and returning;

a card punching progress summarizing module: and performing timed summarization according to the taking and returning records of the daily appliances, acquiring the working conditions of every day, every week, every month and every quarter, and sending the working conditions to the construction planning module.

The engineering tool comprises a computer, machinery and tools, wherein two-dimensional codes are posted on the surfaces of the engineering tool, and the work starting time, the work ending time and the information of the used staff are determined by scanning the two-dimensional codes.

Example 2

The material management module comprises:

material class management module: the system is used for setting the engineering material types, managing the materials and monitoring the allowance of the materials in real time;

material price monitoring module: acquiring the historical floating trend of the material price, and monitoring the preset material price in real time;

the material supply management module: inputting the price of the material according to the price monitoring result to search for the supplier;

the material transaction processing module: and after a supplier is selected, purchasing the corresponding material, and sending the transaction record to a construction planning module.

Example 3

The construction planning module comprises:

a construction task establishing module: the method is used for establishing a construction task;

a construction task dividing module: dividing the construction tasks, and definitely dividing the tasks which should be completed every quarter, every month, every week and every day;

the construction budget planning module: budget planning is carried out according to the construction tasks, construction expenses are collected and recorded in real time, actual expenses are compared with budgets, and comparison results are sent and displayed;

construction progress display module: and comprehensively displaying the employee card punching condition, the material consumption condition, the current construction progress and the expense consumption condition, and comparing and displaying each result with a preset value.

Furthermore, the construction task dividing module internally comprises a radius particle swarm optimization module, a judger module and a reverse learning module;

the radius particle swarm optimization module designs an adaptive function of a particle swarm algorithm according to the construction task partitioning request and the task attributes thereof, dynamically calculates the optimal task partitioning scheme of the region in regions, selects the overall optimal task partitioning scheme from the optimal values of the region, and outputs the overall optimal task partitioning scheme to the judger module;

the judger module judges whether the optimal partitioning scheme falls into a local limit value or not according to the optimal partitioning scheme, if yes, the reverse learning module is triggered, otherwise, the reverse learning module is not triggered, and the radius particle swarm optimization module continues to carry out radius particle swarm optimization;

the reverse learning module adopts a reverse learning mechanism to degrade the partitioning scheme to enable the partitioning scheme to jump out of a local limit value, and feeds back a degradation result to the radius particle swarm optimization module, and the radius particle swarm optimization module continues to solve and output the task partitioning scheme according to the fed-back degradation result.

The above disclosure is only for a few specific embodiments of the present invention, however, the present invention is not limited to the above embodiments, and any variations that can be made by those skilled in the art are intended to fall within the scope of the present invention.

Claims (6)

1. A progress management system for construction costs, comprising:

the employee card punching module: marking and tracking engineering tools, acquiring the time of taking corresponding tools by employees of different work types and the time of returning the tools, recording the time length of using the tools, performing card punching and total returning according to dates, and sending total returning information to a construction planning module;

the material management module: setting material types, monitoring price data of materials in the market in real time, monitoring the material allowance in real time, purchasing trading materials according to requirements, and sending a trading record to a construction planning module;

a construction planning module: and establishing a construction task, dividing progress, planning construction budget including material transaction, summarizing construction current progress according to employee card punching results and material loss, and comparing and displaying the construction current progress with a preset progress.

2. A schedule management system for construction costs according to claim 1 wherein said employee card module comprises:

staff information input module: the system is used for inputting and storing personal information of employees;

staff position classification module: dividing functions and positions according to the conditions of the staff, and setting appliance use authorities of different positions;

the appliance use recording module: marking and tracking engineering appliances, taking and returning the appliances by the staff who obtains the corresponding authority, and recording the time for taking and returning;

a card punching progress summarizing module: and carrying out timed summarization according to the taking and returning records of the daily appliances, and sending the summarized summary to a construction planning module.

3. The progress management system for construction costs according to claim 2, wherein the construction equipment comprises a computer, a machine and a tool, and the surface of the construction equipment is pasted with a two-dimensional code, and the work start time, the work end time and the information of the staff are determined by scanning the two-dimensional code.

4. A schedule management system for construction costs according to claim 1 wherein said materials management module comprises:

material class management module: the system is used for setting the engineering material types, managing the materials and monitoring the allowance of the materials in real time;

material price monitoring module: acquiring the historical floating trend of the material price, and monitoring the preset material price in real time;

the material supply management module: inputting the price of the material according to the price monitoring result to search for the supplier;

the material transaction processing module: and after a supplier is selected, purchasing the corresponding material, and sending the transaction record to a construction planning module.

5. A progress management system for construction costs according to claim 1, wherein the construction planning module comprises:

a construction task establishing module: the method is used for establishing a construction task;

a construction task dividing module: dividing the construction tasks, and definitely dividing the tasks which should be completed every quarter, every month, every week and every day;

the construction budget planning module: budget planning is carried out according to the construction tasks, construction expenses are collected and recorded in real time, actual expenses are compared with budgets, and comparison results are sent and displayed;

construction progress display module: and comprehensively displaying the employee card punching condition, the material consumption condition, the current construction progress and the expense consumption condition, and comparing and displaying each result with a preset value.

6. The progress management system for construction cost according to claim 5, wherein the construction task dividing module comprises a radius particle swarm optimization module, a judger module and a reverse learning module;

the radius particle swarm optimization module designs an adaptive function of a particle swarm algorithm according to the construction task partitioning request and the task attributes thereof, dynamically calculates the optimal task partitioning scheme of the region in regions, selects the overall optimal task partitioning scheme from the optimal values of the region, and outputs the overall optimal task partitioning scheme to the judger module;

the judger module judges whether the optimal partitioning scheme falls into a local limit value or not according to the optimal partitioning scheme, if yes, the reverse learning module is triggered, otherwise, the reverse learning module is not triggered, and the radius particle swarm optimization module continues to carry out radius particle swarm optimization;

the reverse learning module adopts a reverse learning mechanism to degrade the partitioning scheme to enable the partitioning scheme to jump out of a local limit value, and feeds back a degradation result to the radius particle swarm optimization module, and the radius particle swarm optimization module continues to solve and output the task partitioning scheme according to the fed-back degradation result.

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