CN114677117A

CN114677117A - Building engineering management system and device

Info

Publication number: CN114677117A
Application number: CN202210319893.0A
Authority: CN
Inventors: 麻美茜
Original assignee: Guangzhou Huaju Quality Technology Service Co ltd
Current assignee: Guangzhou Huaju Quality Technology Service Co ltd
Priority date: 2022-03-29
Filing date: 2022-03-29
Publication date: 2022-06-28

Abstract

The invention provides a building engineering management system and a device, the building engineering management system comprises: the information management module is used for acquiring project information of a construction project and tracking project progress and financial expenditure of the construction project; the human resource module is used for recording the information of the participators in each construction project and recording attendance of the participators in the construction project; and the project financial module is used for issuing salaries to the participants according to the project process and the attendance record and counting the financial accounts of the construction project. The invention realizes the integrated intelligent management of the project information, the human resource information and the financial information management of the construction project. The invention can also carry out intelligent planning on the construction project to obtain a project planning book, simultaneously realize real-time tracking of the construction project progress and the financial expenditure and ensure that the construction project is completed within a preset construction period.

Description

Building engineering management system and device

Technical Field

The invention relates to the technical field of intelligent management, in particular to a building engineering management system and a building engineering management device.

Background

The traditional building engineering management data is various in types, and various report forms are difficult to manage. With the development of the internet, people increasingly adopt a system network to manage the data of the construction project, the invention provides an intelligent management system which not only saves manpower, reduces data management processes, but also realizes the integrated intelligent management of the construction project information, the human resource information and the financial information management.

The construction engineering management system provided by the invention can also carry out intelligent planning on the construction engineering project to obtain a project planning book, and simultaneously, the real-time tracking of the progress and the financial expenditure of the construction engineering project is realized, and the completion of the construction engineering project in a preset construction period is ensured.

Disclosure of Invention

The invention provides a building engineering management system and a device, which not only save manpower and reduce data management processes, but also realize an integrated intelligent building engineering management system for managing project information, human resource information and financial information of a building engineering project.

The invention provides a construction engineering management system, comprising:

the information management module is used for acquiring project information of a construction project and tracking a project process of the construction project;

the human resource module is used for recording personnel information of each constructional engineering project and recording attendance of personnel participating in the constructional engineering project;

and the project financial module is used for issuing salaries to the participants according to the project process and the attendance record and counting financial accounts of the construction project.

Preferably, the information management module includes:

the information acquisition unit is used for logging in the construction engineering management system by a construction engineering responsible person to record the project information of the construction engineering project into the construction engineering management system;

the first generation unit is used for establishing a corresponding project archive according to the project information, classifying according to the project information and generating a project catalog in the project archive;

the second generation unit is used for generating a plurality of project subclasses under the project catalog according to a construction project infrastructure, acquiring the project information and filling the data of the project subclasses;

meanwhile, judging whether the data filling is complete or not, and if not, sending a data supplement prompt to the construction project responsible person;

and the project tracking unit is used for tracking the progress and the financial expenditure of the construction project and filling tracking information into the project archive according to the project catalog.

Preferably, the human resources module comprises:

the information input unit is used for inputting basic information of all participants of the construction project;

the information processing unit is used for determining a project department corresponding to the participators according to the basic information and adding department labels to the participators according to the project department;

and the attendance recording unit is used for checking attendance on the participators, recording attendance information and generating an attendance report at preset time.

Preferably, the project finance module comprises:

the salary issuing unit is used for performing salary issuing according to attendance records of participants and project contributions;

the report recording unit is used for acquiring various financial reports of the construction project and counting the financial accounts of the construction project;

and the financial summary unit is used for determining the financial expenditure of the current stage of the construction project according to the financial account, judging whether the financial expenditure is in the planning expenditure of the construction project, and if not, sending an overboost notice to a construction project responsible person.

Preferably, a construction engineering management system further comprises: and the supplier service center is used for acquiring and storing the quality detection result of the product used by the current constructional engineering project, recording the supplier information corresponding to the product used by the current constructional engineering project, and establishing a service consultation submodule on the constructional engineering management system.

Preferably, a construction engineering management system further includes: and the service consultation submodule is used for realizing online communication between a responsible person and a supplier of the current constructional engineering project.

Preferably, a construction engineering management system further includes: the project planning module is used for carrying out project architecture network planning on the construction project according to the project information of the construction project collected by the information management module and determining a project planning book of the current construction project, and comprises:

the system comprises a framework network establishing unit, a construction project planning unit and a construction project planning unit, wherein the framework network establishing unit is used for establishing a first engineering framework network of a current construction project according to a basic framework network of the construction project;

the first judgment unit is used for acquiring a second engineering framework network of the same type of construction engineering project born by the current construction engineering enterprise based on the construction engineering management system and the project information;

comparing the first engineering framework network with the second engineering framework network, and judging whether a network link is lost;

if the network link is not missing, taking the first engineering framework network as a target engineering framework network;

if the network link is missing, acquiring a first project planning book of the second engineering framework network, and determining a first project marking task of each engineering execution stage of the similar construction engineering project based on the first project planning book;

judging whether a missing network link is a necessary link or not based on the first project task target, if so, adding the necessary link to the first project framework network to generate a third project framework network, and taking the third project framework network as a target project framework network;

the project planning unit is used for acquiring a first construction period corresponding to the similar construction project and a second construction period of the current construction project;

calculating the time length difference between the first construction period and the second construction period, and taking the first project plan as a target project plan when the time length difference is within the preset range;

when the duration difference is not within the preset range, calculating the engineering cost of the current constructional engineering according to the cost calculation rule of the current constructional engineering enterprise, and adjusting the stage task of the current constructional engineering based on the second construction period to obtain a second target task;

and producing a second project plan according to the engineering cost and the second target task, and taking the second project plan as a target project plan.

Preferably, the item tracking unit is further configured to:

acquiring a project target of a current building engineering project, and establishing a standard three-dimensional model of the current building engineering project according to the project target;

acquiring a first completion progress of the current construction project according to the work log of the current construction project responsible person;

determining a current project phase of the first completion progress based on the target project planning book, and acquiring a third project task of the current project phase;

comparing the first completion progress with the three project tasks, establishing a stage progress pie chart, acquiring the progress starting time and the target completion time of the current project stage, and acquiring the residual completion time of the current project stage;

obtaining the residual completion proportion of the current task according to the progress pie chart, and determining a first task amount to be completed;

meanwhile, acquiring the current construction speed of the current stage of the current construction engineering enterprise, and judging whether the residual completion time can complete the task amount to be completed;

if yes, acquiring various financial expenses of the current construction project, and filling the various financial expenses and the first completion progress into a project file;

if not, judging whether the current construction speed is the first fastest construction speed of the current stage of the current construction engineering enterprise;

when the current construction speed is not the first fastest construction speed and is the first fastest construction speed, and the task volume to be completed can be completed within the time specified by the target project plan, acquiring various financial expenses of the current construction project, and filling the various financial expenses and the first completion progress into a project file;

when the current construction speed is the first fastest construction speed, obtaining a current three-dimensional model for constructing a current construction project based on the first completion progress;

comparing the current three-dimensional model with the standard three-dimensional model to obtain a second to-be-completed task amount of the current construction project;

determining the standard construction speed of each remaining project stage according to the second fastest construction speed and the second slowest construction speed of the remaining project stages in the current constructional engineering project;

and acquiring the remaining construction period of the current construction project, adjusting the target project plan according to the standard construction speed to obtain a remaining construction project plan corresponding to a second to-be-completed task amount, and continuously tracking the progress of the construction project.

Preferably, a construction engineering management system further includes: and the material management module is used for storing a historical acquisition purchase list of the current construction engineering project and monitoring the current residual raw material amount of the current construction engineering project in real time, wherein when the current residual raw material amount is lower than a preset amount, a purchase responsible person is informed to carry out raw material purchase.

The present invention provides a construction engineering management apparatus for realizing the functions performed by the construction engineering management system according to any one of claims 1 to 9.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and claims hereof as well as the appended drawings.

The technical solution of the present invention is further described in detail by the accompanying drawings and embodiments.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic view of a construction management system;

FIG. 2 is a schematic diagram of a construction project management system information management module;

FIG. 3 is a schematic diagram of a human resources module of a construction management system;

FIG. 4 is a schematic diagram of a construction project finance module of a construction project management system;

fig. 5 is a schematic diagram of a project planning module of the construction engineering management system.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are described herein for the purpose of illustration and explanation and not limitation.

Example 1:

the present invention provides a construction engineering management system, as shown in fig. 1, including:

and the project financial module is used for issuing salaries to the participants according to the project process and the attendance record and counting the financial accounts of the construction project.

In this embodiment, the project information includes the scale of the building corresponding to the construction project and the project properties, and the striking properties include private buildings and government buildings.

In this embodiment, the participator information refers to all participator information of the building engineering project, and includes information such as a name, an identification card, and a department to which the participator belongs, and the participator includes both a project management layer and a civil construction worker.

The beneficial effects of the technical scheme are as follows: the invention not only saves manpower and reduces data management processes, but also realizes the integrated intelligent building engineering management system for managing building engineering project information, manpower resource information and financial information.

Example 2:

on the basis of embodiment 1, as shown in fig. 2, the information management module includes:

the information acquisition unit is used for logging in the construction engineering management system by a construction engineering responsible person to record project information of a construction engineering project into the construction engineering management system;

the second generation unit is used for generating a plurality of project subclasses under the project catalog according to the construction project infrastructure, acquiring the project information and filling the data of the project subclasses;

In this embodiment, the project archive refers to an archive dedicated to a construction project, and all data in the archive are related to the construction project.

In this embodiment, the item directory refers to a directory of the item file, and is for convenience of information query.

In this embodiment, the infrastructure refers to a basic department in which the construction project is established, and the project efficiency refers to classification under the basic department, for example, purchasing departments include cement purchasing, gravel purchasing, reinforcing steel bar purchasing, office supplies purchasing, and the like.

The beneficial effects of the technical scheme are as follows: according to the invention, the construction project responsible person logs in the construction project management system to input the project information of the construction project into the construction project management system to establish the corresponding project archive, so that each construction project has an independent archive to realize centralized management of data, meanwhile, a project catalog is generated in the project archive, and a plurality of project subclasses are generated under the project catalog, so that the data is refined, the data is conveniently searched, and convenience is provided for project responsibility pursuit. When the data filling is incomplete, a data supplement prompt is sent to a construction project responsible person, so that the integrity and the accuracy of the data in the project file are ensured; and tracking the progress and financial expenditure of the construction project, and filling tracking information into the project archive according to the project catalog, so that the project progress can be known in time, and meanwhile, the construction project archive can be realized to provide a reference basis for the next project planning.

Example 3:

on the basis of the embodiment 1, the human resource module, as shown in fig. 3, includes:

In this embodiment, the basic information staff includes information such as name, gender, identification number, and affiliated department.

In this embodiment, the attendance report refers to an attendance report of the attendees (including card missing, absence, normal card punching, attendance checking, and the like) automatically generated by the system at preset time intervals (one week or one month).

The beneficial effects of the technical scheme are as follows: the invention records the basic information of all participants in the building engineering management system, realizes the unified management of human resources of the building engineering project, simultaneously checks the attendance of the participants, records the attendance information, and generates an attendance report at the preset time, thereby providing a basis for the salary distribution of a financial department, and leading the participants to know the attendance condition in time and providing a basis for salary check.

Example 4:

on the basis of the embodiment 1, the project finance module, as shown in fig. 4, includes:

the report form recording unit is used for acquiring various financial report forms of the construction engineering project and counting financial accounts of the construction engineering project;

In this embodiment, the project contribution refers to a situation that a building project participant is highlighted during a working process, for example, a certain project team performs an excessive completion of a target task within a target completion time to perform appropriate bonus issue on the project team, so as to stimulate the enthusiasm of other project teams in the building project.

In this embodiment, the financial account includes expenses of the construction project and also includes the fund of the construction project contract enterprise.

The beneficial effects of the technical scheme are as follows: the invention carries out salary distribution according to the attendance records of the participants and the project contribution, thereby ensuring the fairness of the salary distribution; various financial statements of the construction project are obtained, the financial account of the construction project is counted, and unified management and systematic management of the construction project are achieved; and determining the financial expenditure of the current stage of the construction project according to the financial account, judging whether the financial expenditure is in the planning expenditure of the construction project, and if not, sending an over-expenditure notification to a construction project responsible person, so that managers can know the unnecessary expenditure of the construction project in time.

Example 5:

on the basis of embodiment 1, a construction engineering management system further includes: and the supplier service center is used for acquiring and storing the quality detection result of the product used by the current constructional engineering project, recording the supplier information corresponding to the product used by the current constructional engineering project, and establishing a service consultation submodule on the constructional engineering management system.

In this embodiment, the supplier information includes a supply product origin, a supply product category, a supplier contact information, and the like.

The beneficial effects of the technical scheme are as follows: the invention collects and stores the quality detection result of the product used by the current constructional engineering project, simultaneously records the supplier information corresponding to the product used by the current constructional engineering project, and establishes the service consultation submodule on the constructional engineering management system, thereby being convenient for tracing the source of the constructional material.

Example 6:

on the basis of embodiment 5, a construction engineering management system further includes: and the service consultation submodule is used for realizing online communication between a responsible person and a supplier of the current constructional engineering project.

The beneficial effects of the technical scheme are as follows: the invention realizes the on-line communication between the responsible person and the supplier of the current building engineering project.

Example 7:

on the basis of embodiment 1, a construction engineering management system further includes: a project planning module, configured to perform project framework network planning on the building engineering project according to the project information of the building engineering project acquired by the information management module, and determine a project planning book of the current building engineering project, as shown in fig. 5, where the project planning module includes:

if the network link is missing, acquiring a first project planning book of the second project framework network, and determining a first target task of each project execution stage of the similar construction project based on the first project planning book;

judging whether a missing network link is a necessary link or not based on the first target task target, if so, adding the necessary link to the first project framework network to generate a third project framework network, and taking the third project framework network as a target project framework network;

calculating the time difference between the first construction period and the second construction period, and taking the first project plan as a target project plan when the time difference is within the preset range;

In this embodiment, the infrastructure network refers to a basic department of a building engineering project team and an association relationship network among the departments; the first engineering framework network is an incidence relation network of each department of the current construction project team, which is preliminarily determined according to the basic framework network and by combining project information of the current construction project team.

In this embodiment, the second engineering architecture network refers to an association relationship network of each department of the same type of building engineering project team of the current building engineering project.

In this embodiment, the network link missing refers to a different basic department and department association relationship between the first engineering framework network and the second engineering framework network.

In this embodiment, the target engineering framework network refers to an engineering framework network finally adopted by the current construction engineering project.

In this embodiment, the first project plan refers to a project plan of a similar building engineering project of a current building engineering project, and includes project expenditure, project stage tasks, total procurement raw material amount of the project, project construction period, and the like.

In this embodiment, the first target task refers to a task to be completed in each stage of the similar building engineering project in the first project plan.

In this embodiment, the necessary link refers to a necessary department that makes the association relationship network of the current construction project closer, more coordinated and more complete by the second construction network relative to the first construction network.

In this embodiment, the third engineering frame network refers to the first engineering frame network to which necessary links are added.

In this embodiment, the first construction period refers to a construction period of a similar construction project; the second construction period refers to the construction period of the current construction project.

In this embodiment, the target project plan refers to a project plan of a current building engineering project, and includes project expenditure, project stage task, total procurement raw material amount of the project, project construction period, and the like.

In this embodiment, the engineering cost includes expenditure expenses for purchasing office supplies, salaries, purchasing raw materials, renting equipment, renting office places, purchasing safety equipment, and the like.

In this embodiment, the second target task refers to a task target of a stage task of the current construction project.

The beneficial effects of the technical scheme are as follows: according to the invention, the project framework network planning is carried out on the building project according to the project information of the building project collected by the information management module, and the project planning book of the current building project is determined, so that the intelligent project planning is realized, the manpower calculation cost is reduced, and meanwhile, the task in the reasonable formulation stage is beneficial to promoting the effective and rapid completion of the current building project within the preset construction period.

Example 8:

on the basis of embodiment 2, the item tracking unit is further configured to:

determining a current project phase of the first completion progress based on the target project plan, and acquiring a third project task of the current project phase;

In this embodiment, the project objective refers to a building shape of a current building engineering project after completion; the standard three-dimensional model refers to a three-dimensional image of a building after the current construction project is completed completely.

In this embodiment, the first completion schedule refers to a current completion condition of a project objective of a current construction project.

In this embodiment, the current project phase refers to a task phase of the current construction situation of the current architectural engineering project in the target project plan.

In this embodiment, the third project task refers to a final project completion condition corresponding to the current project stage.

In this embodiment, the progress pie chart is used to represent a pie chart of a ratio relationship between a current completion of a project objective of a current construction project and a project completion finally corresponding to a current project stage.

In this embodiment, the schedule starting duration refers to a time length of the current construction project entering the current project stage.

In this embodiment, the remaining completion time refers to a difference between a total duration of a current project phase set on the target project plan and a progress start duration.

In this embodiment, the to-be-completed task amount refers to the remaining construction workload of the current project stage.

In this embodiment, the first fastest construction speed is the fastest construction speed of the current stage of the same type of construction project under the condition that the size of the construction team of the current construction project enterprise is not changed.

In this embodiment, the current three-dimensional model is a three-dimensional image of a current building of the current architectural engineering project.

In this embodiment, the second to-be-completed task amount refers to a remaining project task amount between the current building and the completed building of the current construction project.

In this embodiment, the remaining project phases include the current phase and other phases that are not completed after the current phase.

In this embodiment, the second fastest construction speed refers to the fastest construction speed of the current stage and other unfinished stages after the current stage of the similar construction project under the condition that the size of the construction team of the current construction project enterprise is not changed.

In this embodiment, the second slowest construction speed refers to the slowest construction speed of the current stage and other stages that are not completed after the current stage of the similar construction project under the condition that the size of the construction team of the current construction project enterprise is not changed.

In this embodiment, the standard building speed is determined according to the fastest building speed and the slowest building speed of each stage, and is specifically calculated as follows:

acquiring the actual task engineering quantity corresponding to the longest construction period and the actual task engineering quantity corresponding to the shortest construction period in the jth stage from all the similar construction projects, and respectively calculating the fastest construction speed and the slowest construction speed of the jth stage based on the following formulas:

wherein, V_1,jRepresents the fastest build speed for the jth stage; v_2,jRepresents the slowest build speed for the jth stage; q_1,jRepresenting the actual task engineering quantity corresponding to the longest construction period of the jth stage; q_2,jRepresenting the actual task engineering quantity corresponding to the shortest construction period of the jth stage; rho_jRepresenting the actual task work load floating rate of the jth stage, and taking (0, 0.5); beta is a_1,jRepresenting the equipment damage rate of the longest construction period pair in the jth stage, and taking (0, 0.3); beta is a beta_2,jRepresenting the equipment damage rate corresponding to the shortest construction period of the jth stage, and taking (0, 0.3); n is a radical of_1,jRepresenting the shortest construction period corresponding to the jth stage; n is a radical of_2,jRepresenting the longest construction period corresponding to the jth stage;

based on the fastest building speed and the slowest building speed, calculating a standard building speed at the j stage by using the following formula:

wherein V represents a standard construction speed of a jth stage of a current construction project; m represents the number of construction-incapable days predicted in the jth stage of the current construction project; m represents the total period of the j stage of the current construction project; gamma represents the failure rate of weather prediction, and is taken as (0, 0.12); beta is a beta₀And (0, 0.3) is taken as the equipment damage rate of the jth stage of the current construction project.

In this embodiment, the remaining project plan indicates a project plan of the remaining project task amount compared to the completed project for the current building of the current construction project.

The beneficial effects of the technical scheme are as follows: the invention intuitively reflects the task completion condition of the current stage by establishing a stage progress pie chart; meanwhile, a three-dimensional model established according to the project target of the current construction project is clearly and objectively understood about the construction target of the project.

Meanwhile, when the task at the current stage cannot be completed, the project planning books corresponding to the residual to-be-completed task amount are adjusted in time according to the construction speed of each stage, the construction project is ensured to be completed within the preset construction period, the progress and the financial expenditure of the construction project are tracked in real time, a clear project progress report and a financial report are provided for the current construction project enterprise, and remote project monitoring can be realized.

Example 9:

on the basis of embodiment 1, a construction engineering management system further includes: and the material management module is used for storing a historical acquisition purchase list of the current constructional engineering project and monitoring the current residual raw material quantity of the current constructional engineering project in real time, wherein when the current residual raw material quantity is lower than a preset quantity, a purchase responsible person is informed to purchase the raw materials.

The beneficial effects of the technical scheme are as follows: the invention stores the historical acquisition purchase list of the current construction project, monitors the current residual raw material quantity of the current construction project in real time, and informs a purchase responsible person to purchase the raw material when the current residual raw material quantity is lower than the preset quantity, thereby providing a basis for the raw material purchase of a purchase department and avoiding the delay of the construction period caused by the problem of insufficient raw material.

Example 10:

The beneficial effects of the technical scheme are as follows: the invention saves manpower, reduces data management processes, and simultaneously realizes integrated intelligent management of construction engineering project information, human resource information and financial information management. The invention can also carry out intelligent planning on the construction project to obtain a project planning book, simultaneously realize real-time tracking of the construction project progress and the financial expenditure and ensure that the construction project is completed within a preset construction period.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.

Claims

1. A construction engineering management system, comprising:

the human resource module is used for recording the information of the participators in each construction project and recording attendance of the participators in the construction project;

2. A construction project management system according to claim 1, wherein said information management module comprises:

3. A construction project management system according to claim 1, wherein said human resources module comprises:

4. A construction project management system according to claim 1, wherein said project finance module comprises:

5. A construction project management system according to claim 1, further comprising: and the supplier service center is used for acquiring and storing the quality detection result of the product used by the current constructional engineering project, recording the supplier information corresponding to the product used by the current constructional engineering project, and establishing a service consultation submodule on the constructional engineering management system.

6. A construction engineering management system according to claim 5, wherein: and the service consultation submodule is used for realizing online communication between a responsible person and a supplier of the current constructional engineering project.

7. A construction project management system according to claim 1, further comprising: the project planning module is used for carrying out project architecture network planning on the construction project according to the project information of the construction project collected by the information management module and determining a project planning book of the current construction project, and comprises:

the system comprises a frame network establishing unit, a construction network establishing unit and a construction network establishing unit, wherein the frame network establishing unit is used for establishing a first engineering frame network of the current construction engineering project according to a basic frame network of the construction engineering project;

8. A construction project management system according to claim 2, wherein said item tracking unit is further adapted to:

meanwhile, acquiring the current construction speed of the current stage of the current architectural engineering enterprise, and judging whether the residual completion time can complete the task amount to be completed;

9. A construction project management system according to claim 1, further comprising: and the material management module is used for storing a historical acquisition purchase list of the current constructional engineering project and monitoring the current residual raw material quantity of the current constructional engineering project in real time, wherein when the current residual raw material quantity is lower than a preset quantity, a purchase responsible person is informed to purchase the raw materials.

10. A construction work management apparatus for carrying out the functions performed by the construction work management system according to any one of claims 1 to 9.