CN111428999A - Shield project construction scheduling and worker capability evaluation system - Google Patents

Abstract

The invention discloses a construction scheduling and worker capability evaluation system for a shield project, which comprises a project module, a project scheduling module and a worker capability evaluation module, wherein the project module is used for importing project data of the shield project to obtain initialization information; the manual module is used for importing the staff data and calculating a working capacity reference table of the staff; the planning module is used for planning the work tasks of the shield project according to the initialization information, the worker data and the work capacity reference table to obtain a task reference table; the regulation and control module is used for regulating the task reference table to obtain a task execution table; the evaluation module is used for evaluating the working capacity of the staff according to the task reference table and the task execution table; and the storage module is used for forming a project database so as to construct a production plan for other shield projects. The invention aims to provide a shield construction scheduling and worker capability evaluation system, which guides the progress of a new project by mining historical data and realizes the automation of task allocation and production scheduling.

Description

Shield project construction scheduling and worker capability evaluation system

Technical Field

The invention relates to the field of production management of shield construction sites, in particular to a construction scheduling and worker capability evaluation system for a shield project.

Background

In the traditional building field including the shield construction industry, the current production management (production scheduling) is to make production orderly carried out, and ensure that project production is completed according to a plan target, and the general production management mode is as follows:

firstly, splitting the engineering quantity into an engineering list according to the contract requirements of an owner;

drawing up a production plan according to the project list and the progress requirement;

the production plan is divided into various work tasks in a refining mode;

assigning tasks and various indexes for personnel at all posts of the project;

the related responsible persons feed back the task condition;

and adjusting or re-issuing the task according to the task and the progress condition to meet the planned progress.

And then the process is circulated, and the process is realized by a traditional manual scheduling mode and an information system (related task scheduling system). However, the prior art can not solve the following problems:

(1) the actual production disjointing can occur when the work task is split and distributed, and because the capability of field workers is not well evaluated when the task is distributed, the task distribution is unbalanced and unreasonable, and finally, the expected work progress can not be achieved after the feedback of the work task is completed.

(2) Under the condition that the job schedule does not keep up, in order to accelerate the progress again can blindly give down new task arrangement or other schemes (for example increase personnel, means such as overtime), this again can lead to the scene to appear the quality safety hidden danger for catching up with the progress to increase personnel, increase the scheduling even can keep up with the progress, but will increase the direct cost of construction certainly.

(3) More results are collected for the completion condition of the tasks, the condition of the task execution process is not clear, so that the production scheduling timeliness is poor, scheduling and task adjustment are often performed after the problems are exposed, the predictability of the production scheduling is lacked, the condition of the future production schedule of the project under construction cannot be accurately evaluated, and the deviation between the planned schedule and the actual schedule is large.

(4) After the work task is executed, an objective evaluation and constraint mechanism is lacked, the field personnel work not actively, and the productivity is low.

(5) The construction process of shield construction is relatively fixed under a specific shield process, but the traditional mode and the prior art have insufficient data mining degree for completed projects, and are difficult to draw up a production plan and schedule according to historical projects, so people with abundant field management experience are required to complete the work, and the workload of project managers is increased undoubtedly.

Disclosure of Invention

The invention aims to provide a shield construction scheduling and worker capability evaluation system, which can reduce repeated work by mining historical data of a finished project, and can guide the progress of a new project through data standardization to realize task allocation and production scheduling automation.

The invention is realized by the following technical scheme:

a shield project construction scheduling and worker capability assessment system comprises a project module, a manual module, a planning module, a regulation and control module, an assessment module and a storage module;

the project module is used for importing project data of the shield project to obtain initialization information of the shield project;

the manual module is used for importing the worker data of the shield project and calculating a working capacity reference table of the worker according to the worker data;

the planning module is used for planning the work tasks of the shield project according to the initialization information, the worker data and the work capacity reference table to obtain a task reference table corresponding to the workers;

the regulation and control module is used for regulating the task reference table to obtain an actual task execution table corresponding to the staff;

the evaluation module is used for evaluating the working capacity of the staff according to the task reference table and the task execution table;

the storage module is used for storing the contents in the project module, the manual module, the planning module, the regulation and control module and the evaluation module to form a project database so as to quickly construct a production plan for other shield projects.

The system is used for carrying out systematic analysis and planning on the construction progress of a project based on project information (including technical drawings, a project amount list, process steps and construction progress requirements of an owner) of the shield project, and establishing the construction progress requirements, procedures, tasks, resource requirements and the like of the shield project at each time stage to obtain a rough production plan reference table. And then, the working capacity of the shield project worker and the production plan reference table are combined, and respective tasks are distributed to the worker, so that the shield project can complete corresponding construction tasks according to time nodes on the production plan reference table. If an accident (such as leave, rain or advanced completion of a construction task) occurs, the relevant responsible person of the project can also manually adjust the production schedule according to the actual production condition, so that the project can be completed according to the construction progress requirement of the owner. In addition, after the construction progress is completed, the working capacity of the workers is updated according to the respective task completion conditions of the workers, so that the follow-up task allocation process is more reasonable, the accuracy of the production task completion time is improved, and the shield construction scheduling and worker capacity measurement evaluation system is formed finally.

Further, the item module comprises a first item unit, a second item unit, a third item unit and a fourth item unit;

the first project unit is used for importing the technical drawings of the shield project;

the second project unit is used for importing a project amount list of the shield project;

the third project unit is used for importing the process steps of the shield project;

and the fourth project unit is used for leading in the construction progress of the shield project.

Further, the manual module comprises an entry unit, a calculation unit and a summary unit;

the input unit is used for inputting basic information of the staff, including name, age, post, responsibility, project experience, working age and academic calendar;

the computing unit is used for computing the working capacity of the staff according to the basic information of the staff;

and the summarizing unit is used for corresponding the working personnel and the working capacity one to form the working capacity reference table.

According to the personal information of the staff, the working capacity of the staff is preliminarily judged so as to carry out reasonable task distribution on the staff.

Further, the planning module comprises an allocation unit and a matching unit;

the distribution unit is used for constructing a production schedule according to the initialization information and the staff information;

and the matching unit is used for distributing the work tasks of the workers according to the production schedule and the work capacity reference table to obtain a task reference table corresponding to the workers.

According to the working capacity of the workers, the tasks are reasonably distributed, the construction progress can be guaranteed to be completed as expected, the workers can reasonably arrange the working time according to the task amount, and the working intensity of the workers is reduced.

Furthermore, the scheduling module comprises a task unit, a feedback unit, an analysis unit and a correction unit;

the task unit is used for sending the task reference table to corresponding staff;

the feedback unit is used for feeding back the completion condition of the work task of the worker to obtain an actual task execution table;

the analysis unit is used for calculating according to the task reference table and the task execution table to obtain the task completion amount of the workers in unit time;

and the correction unit is used for modifying the working capacity reference table according to the task completion amount of the workers in unit time to obtain a working capacity table, and dynamically modifying the task reference table according to the working capacity table and the task execution table.

Further, the feedback unit comprises a first feedback unit and a second feedback unit;

the first feedback unit is used for automatically acquiring the production data of the worker from a sensor on a shield machine, a storage battery car or an excavator; the workload does not need to be counted again by the workers, and the working intensity of the workers is reduced. Meanwhile, data are prevented from being manufactured by workers, and the task execution table is more accurate.

And the second feedback unit is used for manually inputting production data by the staff. When the data collected by the first feedback unit are inaccurate, a manager can modify the production data according to actual conditions to ensure the accuracy of the production data, so that the construction progress of the project can be accurately known.

Further, the evaluation module is used for calculating an evaluation total value according to the task completion amount of the staff in unit time, and the calculation mode is as follows:

PA＝(UC*WT)/TQ*100；

wherein, PA represents the total evaluation value, UC represents the task completion amount of personnel per unit time, WT represents the working duration, and TQ represents the total task amount.

Compared with the prior art, the invention has the following advantages and beneficial effects:

the system solves the problems that the shield construction industry is out of order from production plan and actual production, field scheduling is not timely, the task completion process is not clear, the predictability of tasks and progress conditions is lacked, the capability of a task executor is not known, scheduling and task allocation are unreasonable, and objective evaluation and constraint mechanisms are lacked for the executor after the task is executed, so that field personnel often work inactively, and productivity is low.

Drawings

The accompanying drawings, which are included to provide a further understanding of the embodiments of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the principles of the invention. In the drawings:

FIG. 1 is a schematic view of the structure of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail below with reference to examples and accompanying drawings, and the exemplary embodiments and descriptions thereof are only used for explaining the present invention and are not meant to limit the present invention.

Examples

A shield project construction scheduling and worker capability assessment system is shown in figure 1 and comprises a project module, a manual module, a planning module, a regulation and control module, an assessment module and a storage module;

in this embodiment, the item module includes a first item unit, a second item unit, a third item unit, and a fourth item unit. The first project unit is used for importing technical drawings of shield projects; the second project unit is used for importing a project amount list of the shield project; the third project unit is used for leading in the process steps of the shield project; and the fourth project unit is used for leading in the construction progress of the shield project. The construction progress of the shield project is analyzed and planned systematically based on the imported technical drawing, the engineering quantity list, the process steps and the construction progress requirement of an owner, the construction progress requirement, the working procedures, the tasks, the resource requirement and the like of the shield project at each time stage are created, and a rough production schedule is obtained.

The manual module comprises an entry unit, a calculation unit and a summary unit. The input unit is used for the manager to input the basic information of the staff, including the information of the staff such as name, age, job position, job duty, project experience, working age and academic calendar; and the computing unit is used for computing the working capacity of the worker on the working post according to the working post, the working responsibility, the working age and the academic calendar of the worker.

In this embodiment, the calculation method of the working capacity is as follows:

wherein A is_nRepresenting the capacity quota corresponding to a specific work duty library of a certain post; b is_nIndicating the presence of a worker at A_nCorresponding to the actual capacity of the previous day of the post. It should be noted that, in order to make the working ability statistics more accurate, during the statistics, the study history, the work age, the project experience, the sex and the age may be arbitrarily combined, and the workers in the combination may be used as a sample set to calculate the working ability of the workers in the sample set, so as to more truly reflect the respective working ability of the workers under the same conditions.

And the summarizing unit is used for corresponding the working personnel and the working capacity one to form a working capacity reference table. The management personnel have a preliminary judgement to staff's working ability according to the working ability reference table to carry out reasonable distribution to staff's work task under the condition of guaranteeing the project progress.

The planning module comprises an allocation unit and a matching unit. And the distribution unit is used for distributing the quantity of the workers and the construction materials required by each stage of the shield project according to the technical drawing of the shield project, the project amount list, the construction process, the construction progress required by an owner and the information of the workers to obtain a production schedule. And the matching unit is used for distributing the work tasks of the workers according to the production schedule and the work capacity reference table to obtain a task reference table corresponding to the workers. According to respective working capacity of workers, task allocation is reasonably carried out, the construction progress can be guaranteed to be completed as expected, the workers can reasonably arrange working time according to own task amount, and the working intensity of the workers is reduced.

The scheduling module comprises a task unit, a feedback unit, an analysis unit and a correction unit. The task unit is used for sending the task reference table to corresponding workers, so that the workers can clearly know the work task amount of the workers and the corresponding time nodes, and the workers can conveniently and reasonably arrange the work time of the workers; if the staff has a doubt about the work tasks of the staff or can not complete the work task amount on time, the feedback and the adjustment can be carried out as early as possible. And the feedback unit is used for feeding back the completion condition of each work task by the working personnel to obtain an actual task execution table, so that the management personnel can accurately master the construction progress of the shield project. And the analysis unit is used for calculating the working efficiency of the workers according to the task reference table and the task execution table to obtain the task completion amount of the workers in unit time so that managers can know the actual working capacity of the workers. And the correcting unit is used for modifying the working capacity reference table according to the task completion amount of the working personnel in unit time to obtain the working capacity table and dynamically modifying the task reference table according to the working capacity table and the task execution table. And the manager adjusts the distributed work tasks or distributes subsequent construction tasks according to the actual work capacity and the completion condition of the work tasks of the worker so as to ensure that the construction progress of the shield project is completed according to the requirements of an owner.

In addition, in the present embodiment, the feedback module includes a first feedback unit and a second feedback unit. The first feedback unit is used for automatically acquiring the production data of the worker from a sensor on a shield machine, a storage battery car or an excavator; in this feedback unit, need not the staff and count work load repeatedly, reduced staff's working strength. Meanwhile, data are prevented from being manufactured by workers, so that the accuracy of the task execution table is higher. And the second feedback unit is used for manually inputting production data by a worker. When the data collected by the first feedback unit are inaccurate, the worker feeds back the data to the manager, and the manager can modify the production data according to the actual production condition, so that the accuracy of the production data is guaranteed, and the construction progress of the shield project is accurately known.

The evaluation module is used for calculating an evaluation total value according to the task completion amount of the staff in unit time, and the calculation mode is as follows:

PA＝(UC*WT)/TQ*100；

wherein, PA represents the total evaluation value, UC represents the task completion amount of personnel per unit time, WT represents the working duration, and TQ represents the total task amount.

The storage module is used for storing the contents in the project module, the manual module, the planning module, the regulation and control module and the evaluation module to form a project database, and when a production plan needs to be constructed for other shield projects, a production plan similar to the shield project is called from the project database and is adjusted according to actual conditions, so that the production plan A suitable for the shield project can be quickly obtained.

The above-mentioned embodiments are intended to illustrate the objects, technical solutions and advantages of the present invention in further detail, and it should be understood that the above-mentioned embodiments are merely exemplary embodiments of the present invention, and are not intended to limit the scope of the present invention, and any modifications, equivalent substitutions, improvements and the like made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (7)

1. A shield project construction scheduling and worker capability assessment system is characterized by comprising a project module, a manual module, a planning module, a regulation and control module, an assessment module and a storage module;

the project module is used for importing project data of the shield project to obtain initialization information of the shield project;

the manual module is used for importing the worker data of the shield project and calculating a working capacity reference table of the worker according to the worker data;

the planning module is used for planning the work tasks of the shield project according to the initialization information, the worker data and the work capacity reference table to obtain a task reference table corresponding to the workers;

the regulation and control module is used for regulating the task reference table to obtain an actual task execution table corresponding to the staff;

the evaluation module is used for evaluating the working capacity of the staff according to the task reference table and the task execution table;

the storage module is used for storing the contents in the project module, the manual module, the planning module, the regulation and control module and the evaluation module to form a project database so as to quickly construct a production plan for other shield projects.

2. The system for construction scheduling and worker capability assessment of a shield project according to claim 1, wherein said project modules comprise a first project unit, a second project unit, a third project unit and a fourth project unit;

the first project unit is used for importing the technical drawings of the shield project;

the second project unit is used for importing a project amount list of the shield project;

the third project unit is used for importing the process steps of the shield project;

and the fourth project unit is used for leading in the construction progress of the shield project.

3. The system for construction scheduling and worker capability assessment of a shield project according to claim 1 or 2, wherein the manual module comprises an entry unit, a calculation unit and a summary unit;

the input unit is used for inputting basic information of the staff, including name, age, post, responsibility, project experience, working age and academic calendar;

the computing unit is used for computing the working capacity of the staff according to the basic information of the staff;

and the summarizing unit is used for corresponding the working personnel and the working capacity one to form the working capacity reference table.

4. The system for construction scheduling and worker capability assessment of a shield project according to claim 3, wherein said planning module comprises a distribution unit and a matching unit;

the distribution unit is used for constructing a production schedule according to the initialization information and the staff information;

and the matching unit is used for distributing the work tasks of the workers according to the production schedule and the work capacity reference table to obtain a task reference table corresponding to the workers.

5. The system for construction scheduling and worker capability assessment of a shield project according to claim 4, wherein the scheduling module comprises a task unit, a feedback unit, an analysis unit and a correction unit;

the task unit is used for sending the task reference table to corresponding staff;

the feedback unit is used for feeding back the completion condition of the work task of the worker to obtain an actual task execution table;

the analysis unit is used for calculating according to the task reference table and the task execution table to obtain the task completion amount of the workers in unit time;

and the correction unit is used for modifying the working capacity reference table according to the task completion amount of the workers in unit time to obtain a working capacity table, and dynamically modifying the task reference table according to the working capacity table and the task execution table.

6. The system for construction scheduling and worker capability assessment of a shield project according to claim 5, wherein said feedback unit comprises a first feedback unit and a second feedback unit;

the first feedback unit is used for automatically acquiring the production data of the worker from a sensor on a shield machine, a storage battery car or an excavator;

and the second feedback unit is used for manually inputting production data by the staff.

7. The system for construction scheduling and worker capability assessment of a shield project according to any one of claims 1-2 or 4-6, wherein the assessment module is configured to calculate an assessment total value according to the task completion amount of the worker per unit time in a manner that:

PA＝(UC*WT)/TQ*100；

wherein, PA represents the total evaluation value, UC represents the task completion amount of personnel per unit time, WT represents the working duration, and TQ represents the total task amount.

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