CN115994641A - Comprehensive management system for construction engineering progress - Google Patents

Abstract

The invention relates to the technical field of building construction, in particular to a comprehensive management system for the progress of building engineering. The invention relates to a comprehensive management system for building engineering progress, which comprises a total server, a data display module, a database, a progress analysis module, a personnel allocation unit and a plurality of building construction partitions, wherein the total server is used for storing data of a plurality of building construction partitions; the data display module, the database, the progress analysis module and the personnel allocation unit are sequentially connected with the total server. The beneficial effects of the invention are as follows: the comprehensive management system for the construction engineering progress can systematically perform construction partition on the construction, orderly regulate and control constructors, furthest improve the construction efficiency and save the labor cost. In the construction process, the construction site and the construction progress can be detected in real time, the supervision capability of the construction site is improved, and the ordered construction of each construction position is ensured. Compared with the existing construction mode, the whole management system can improve the scientificity and the order of building construction operation.

Description

Comprehensive management system for construction engineering progress

Technical Field

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

Background

Along with the acceleration of the urban process, the construction of the building is normal. The quality and construction safety of the building are also valued.

In the process of implementing construction projects of building engineering, project progress data information is recorded in the form of carriers such as a manual record or input computer by personnel. The efficiency of manually inputting data is low, and the data has serious hysteresis, so that engineering management staff cannot acquire corresponding construction data at the first time, and thus the construction progress cannot be controlled timely.

Disclosure of Invention

Aiming at the technical problems in the prior art, the invention provides a comprehensive management system for the construction progress, which solves the problems of low follow-up efficiency of the construction progress of the construction project and difficult orderly management and control.

The technical scheme for solving the technical problems is as follows: the comprehensive management system for the construction engineering progress comprises a total server, a data display module, a database, a progress analysis module, a personnel allocation unit and a plurality of construction partitions; the data display module, the database, the progress analysis module and the personnel allocation unit are sequentially connected with the total server;

each construction partition is internally provided with a partition personnel management and control unit, a progress acquisition unit and an image acquisition module; the partition personnel management and control unit, the progress acquisition unit and the image acquisition module are sequentially connected with the total server;

the personnel allocation unit is used for dividing constructors according to building construction partitions, and personal information of each constructor is input into the database for storage;

the progress acquisition unit is used for acquiring construction progress information in the corresponding building construction partition, transmitting the construction progress information to the progress analysis module for analysis to acquire real-time construction progress data, and storing the real-time construction progress data into the database; the personnel allocation unit extracts real-time construction progress data to adjust constructors in corresponding building construction partitions;

the partition personnel management and control unit is used for identifying the identity information of constructors entering the building construction partition and recording the working contents of the constructors;

the image acquisition module is used for acquiring real-time construction image data in the corresponding building construction partition and storing the real-time construction image data in the database;

the data display module is used for displaying real-time construction progress data, constructor information and real-time construction images of each building construction partition.

On the basis of the technical scheme, the invention can be improved as follows.

Further, the plurality of building construction partitions are sequentially numbered along the sequence, and the numbers are a, b, c and … … n in sequence; meanwhile, the buildings in each building construction partition are numbered sequentially according to the building, and the numbers are 1,2,3 and … … n in sequence; each building is numbered sequentially according to the corresponding layer numbers, and the numbers are s1, s2, s3 and … … sn.

Further, the partition personnel management and control unit comprises a regional personnel management and control module arranged in each building construction partition, a building personnel management module arranged in each building, and a floor personnel management module arranged in each floor of the building.

Further, the regional personnel management and management module, the building personnel management module and the floor personnel management module all comprise an IC card punch, a face recognition camera and a body temperature detection sensor, and the constructors are provided with IC cards matched with the IC card punch.

Further, the progress acquisition unit comprises a construction progress input module, a building material report module and a construction plan report module which are arranged on each building floor.

Further, the image acquisition module comprises monitoring probes arranged on each building floor, and the monitoring probes are used for acquiring construction images of the building floors.

Further, the image acquisition module further comprises three-dimensional measurement cameras arranged on each building floor and used for acquiring building three-dimensional data of the corresponding building floor; the comprehensive management system for the construction engineering progress also comprises an image analysis module which is used for comparing the construction three-dimensional data with the target three-dimensional model.

Further, the personal information of the constructor includes age information, health degree information, work kind information, and violation record information.

The system further comprises a building material allocation unit, wherein the building material allocation unit is connected with the main server; the detection and allocation unit comprises a building material allowance detection module, a building material ex-warehouse allocation module and a building material rating coordination module; the building material allowance detection module is used for acquiring detection allowance data in real time; the building material warehouse-out allocation module is used for allocating corresponding detection warehouse-out; the building material rating coordination module is used for planning building material data required by corresponding building construction subareas.

Further, the personnel allocation unit sequentially divides the first-level constructors, the second-level constructors, the third-level constructors and the … … N-level constructors according to personal information of constructors.

The beneficial effects of the invention are as follows: the comprehensive management system for the construction engineering progress can systematically perform construction partition on the construction, orderly regulate and control constructors, furthest improve the construction efficiency and save the labor cost. In the construction process, the construction site and the construction progress can be detected in real time, the supervision capability of the construction site is improved, and the ordered construction of each construction position is ensured. Compared with the existing construction mode, the whole management system can improve the scientificity and the order of building construction operation.

Drawings

FIG. 1 is a schematic diagram of a system according to the present invention;

FIG. 2 is a numbered schematic illustration of a plurality of building construction zones according to the present invention;

FIG. 3 is a block diagram of a partition personnel management unit of the present invention;

FIG. 4 is a block diagram of a schedule acquisition unit according to the present invention;

fig. 5 is a block diagram of the detection and deployment unit according to the present invention.

Detailed Description

The principles and features of the present invention are described below with reference to the drawings, the examples are illustrated for the purpose of illustrating the invention and are not to be construed as limiting the scope of the invention.

It should be noted that the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally formed, unless otherwise specifically indicated and defined. The specific meaning of such terms in this patent will be understood by those of ordinary skill in the art as the case may be.

Embodiments of the invention are as follows

As shown in FIG 1, the integrated management system for the construction progress designed by the invention comprises a total server, a data display module, a database, a progress analysis module, a personnel allocation unit and a plurality of construction partitions; the data display module, the database, the progress analysis module and the personnel allocation unit are sequentially connected with the total server.

As shown in fig. 2, the building construction partitions are numbered sequentially in sequence, and the numbers are a, b, c and … … n sequentially; meanwhile, the buildings in each building construction partition are numbered sequentially according to the building, and the numbers are 1,2,3 and … … n in sequence; each building is numbered sequentially according to the corresponding layer numbers, the numbers are s1, s2, s3 and … … sn, corresponding construction partitions, construction buildings and construction floors are divided, so that corresponding construction progress is orderly controlled, and constructors are adjusted according to the corresponding construction progress.

Each construction partition is internally provided with a partition personnel management and control unit, a progress acquisition unit and an image acquisition module; and the partition personnel management and control unit, the progress acquisition unit and the image acquisition module are sequentially connected with the total server.

Specifically, the personnel allocation unit is used for dividing constructors according to building construction partitions, and personal information of each constructor is input into the database for storage. The personnel allocation unit sequentially divides the first-level constructors, the second-level constructors, the third-level constructors and the … … N-level constructors according to personal information of constructors, wherein the first-level constructors serve as direct managers of the second-level constructors, the second-level constructors serve as direct managers of the third-level constructors, and the like, and grades of the constructors are divided according to complexity of corresponding construction environments.

It should be noted that the level of the constructor may be further adjusted according to personal information, including age information, health degree information, work information, and rule violation record information, and ranking is performed by comprehensively evaluating the personal information of each constructor.

Specifically, as shown in fig. 3, the partition personnel management and control unit is used for identifying the identity information of the constructors entering the building construction partition and recording the working contents of the constructors. The regional personnel management and control unit comprises regional personnel management and management modules arranged in each building construction region, building personnel management modules arranged in each building and floor personnel management modules arranged in each floor of the building. Corresponding constructors enter corresponding construction partitions, building structures and building floors and are required to be subjected to identity verification through corresponding regional personnel management and management modules, building structure personnel management modules and floor personnel management modules, and only the constructors with corresponding construction authorities can enter the corresponding construction partitions, building structures and building floors, so that the supervision capacity of construction sites is improved, and orderly construction of each construction position is guaranteed.

Preferably, the regional personnel management module, the building personnel management module and the floor personnel management module all comprise an IC card punch, a face recognition camera and a body temperature detection sensor, and the constructors are provided with IC cards matched with the IC card punch. Each constructor is provided with a dedicated IC card, and the constructor needs to pass through the card punching recognition authority of the IC card punching machine to enter the corresponding construction area; the constructor who corresponds in advance opens the business turn over authority of corresponding position through personnel allocation unit, all needs to verify constructor's construction authority in the in-process of getting into corresponding construction environment to carry out the supplementary verification of face through face recognition camera, in order to guarantee constructor's health degree simultaneously, can detect the constructor's of business turn over body temperature, in case the body temperature is unusual, then can report to the police, guarantee constructor's health.

Specifically, the progress acquisition unit is used for acquiring construction progress information in a corresponding building construction partition, transmitting the construction progress information to the progress analysis module for analysis to acquire real-time construction progress data, and storing the real-time construction progress data into the database; the personnel allocation unit extracts real-time construction progress data to adjust constructors in corresponding building construction partitions.

Preferably, as shown in fig. 4, the progress acquisition unit includes a construction progress input module, a building material report module and a construction plan report module, which are arranged on each building floor. Construction personnel entering corresponding floors need to report construction progress through a construction progress input module after finishing corresponding construction tasks, construction progress data can be transmitted to a total server at first time and analyzed through a progress analysis module, and corresponding real-time construction progress can be shown through a data display module. Building materials required by the construction of the corresponding building floors can be reported in advance through a building material reporting and preparing module, so that the building materials can be supplemented and checked in time, and the normal development of the construction is ensured. After the daily work is finished, construction personnel are required to make a corresponding construction plan through the construction plan reporting and preparing module, and construction standards and construction efficiency are guaranteed.

Specifically, the image acquisition module is used for acquiring real-time construction image data in the corresponding building construction partition and storing the real-time construction image data in the database. The image acquisition module comprises monitoring probes arranged on each building floor, and the monitoring probes are used for acquiring construction images of the building floors, so that construction managers can intuitively acquire images of construction sites, and the construction progress and the construction quality can be checked.

Further, the image acquisition module further comprises three-dimensional measurement cameras arranged on each building floor and used for acquiring building three-dimensional data of the corresponding building floor; the comprehensive management system for the construction engineering progress also comprises an image analysis module which is used for comparing the construction three-dimensional data with the target three-dimensional model. The real three-dimensional data of the construction site restored by the floor arrangement three-dimensional measuring cameras is compared with the data of the building planning early modeling to judge whether the construction building accords with an expected building model, and if the deviation exists, measuring personnel are required to measure the construction site from the first time.

Specifically, as shown in fig. 5, the comprehensive management system for the construction progress is characterized by further comprising a building material allocation unit, wherein the building material allocation unit is connected with a main server; the detection and allocation unit comprises a building material allowance detection module, a building material ex-warehouse allocation module and a building material rating coordination module; the building material allowance detection module is used for acquiring detection allowance data in real time; the building material warehouse-out allocation module is used for allocating corresponding detection warehouse-out; the building material rating coordination module is used for planning building material data required by corresponding building construction subareas.

Specifically, the data display module is used for displaying real-time construction progress data, constructor information and real-time construction images of each building construction partition, so that a construction manager can intuitively acquire corresponding construction progress and comprehensive management data of the whole construction process, corresponding construction strategies can be adjusted in time, and scientificity and orderliness of building engineering construction are improved.

The foregoing description of the preferred embodiments of the invention is not intended to limit the invention to the precise form disclosed, and any such modifications, equivalents, and alternatives falling within the spirit and scope of the invention are intended to be included within the scope of the invention.

Claims (10)

1. The comprehensive management system for the construction engineering progress is characterized by comprising a total server, a data display module, a database, a progress analysis module, a personnel allocation unit and a plurality of construction partitions; the data display module, the database, the progress analysis module and the personnel allocation unit are sequentially connected with the total server;

each construction partition is internally provided with a partition personnel management and control unit, a progress acquisition unit and an image acquisition module; the partition personnel management and control unit, the progress acquisition unit and the image acquisition module are sequentially connected with the total server;

the personnel allocation unit is used for dividing constructors according to building construction partitions, and personal information of each constructor is input into the database for storage;

the progress acquisition unit is used for acquiring construction progress information in the corresponding building construction partition, transmitting the construction progress information to the progress analysis module for analysis to acquire real-time construction progress data, and storing the real-time construction progress data into the database; the personnel allocation unit extracts real-time construction progress data to adjust constructors in corresponding building construction partitions;

the partition personnel management and control unit is used for identifying the identity information of constructors entering the building construction partition and recording the working contents of the constructors;

the image acquisition module is used for acquiring real-time construction image data in the corresponding building construction partition and storing the real-time construction image data in the database;

the data display module is used for displaying real-time construction progress data, constructor information and real-time construction images of each building construction partition.

2. The integrated construction progress management system of claim 1, wherein the plurality of construction partitions are numbered sequentially in sequence, the numbers being a, b, c, … … n sequentially; meanwhile, the buildings in each building construction partition are numbered sequentially according to the building, and the numbers are 1,2,3 and … … n in sequence; each building is numbered sequentially according to the corresponding layer numbers, and the numbers are s1, s2, s3 and … … sn.

3. The integrated management system for progress of construction engineering according to claim 2, wherein the zoned personnel management unit comprises a zoned personnel management module arranged in each construction zone, a building personnel management module arranged in each building, and a floor personnel management module arranged in each floor of the building.

4. The system according to claim 3, wherein the regional personnel management module, the building personnel management module and the floor personnel management module each comprise an IC card punch, a face recognition camera and a body temperature detection sensor, and the constructors are provided with IC cards matched with the IC card punch.

5. The integrated construction progress management system of claim 2, wherein the progress collection unit comprises a construction progress entry module, a building material report module, and a construction plan report module disposed on each building floor.

6. The integrated construction progress management system of claim 2, wherein the image acquisition module comprises a monitoring probe disposed at each building floor for acquiring a construction image of the building floor.

7. The integrated management system of construction progress according to claim 6, wherein the image acquisition module further comprises three-dimensional measurement cameras arranged at each building floor for acquiring building three-dimensional data of the corresponding building floor; the comprehensive management system for the construction engineering progress also comprises an image analysis module which is used for comparing the construction three-dimensional data with the target three-dimensional model.

8. The integrated construction progress management system according to claim 1, wherein the personal information of the constructor includes age information, health degree information, work kind information, and violation record information.

9. The integrated management system for construction progress according to claim 1, further comprising a building material allocation unit connected with the total server; the detection and allocation unit comprises a building material allowance detection module, a building material ex-warehouse allocation module and a building material rating coordination module; the building material allowance detection module is used for acquiring detection allowance data in real time; the building material warehouse-out allocation module is used for allocating corresponding detection warehouse-out; the building material rating coordination module is used for planning building material data required by corresponding building construction subareas.

10. The integrated management system for progress of construction engineering according to any one of claims 1 to 9, wherein the personnel allocation unit sequentially divides the first-level constructor, the second-level constructor, the third-level constructor, and the … … N-level constructor according to personal information of constructors.

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