CN113269521A - Multifunctional later-period service system for constructional engineering - Google Patents

Abstract

The invention discloses a multifunctional post-service system for construction engineering, which comprises a camera monitoring unit, a data acquisition unit, a data processing unit, a central processing unit, a field personnel database, a construction engineering information model module, an engineering equipment RFID recognizer, a field personnel RFID recognizer and a plurality of client sides, wherein a three-dimensional modeling system is further connected to the central processing unit, a signal output end of the three-dimensional modeling system is connected with a signal input end of an image processing unit, a signal output end of the image processing unit is connected with a signal input end of a display system, a signal output end of the central processing unit is further connected with a cloud server, and a signal output end of the cloud server is connected with a cloud storage. The invention realizes the electronic data acquisition and real-time processing of the construction building, greatly improves the supervision level of the safety construction informatization of the construction engineering, can effectively monitor the construction factory and is convenient for the later service of the construction engineering.

Description

Multifunctional later-period service system for constructional engineering

Technical Field

The invention belongs to the technical field of constructional engineering, and particularly relates to a multifunctional later-period service system for constructional engineering.

Background

The building engineering is an engineering entity which performs various technical works and completions such as planning, surveying, designing, constructing, completing and the like for newly building, reconstructing or extending building buildings and affiliated structures and installation engineering of lines, pipelines and equipment matched with the engineering entity. Also refers to the construction of various houses and buildings, also known as the construction workload. The investment amount of the part can be realized only by the construction activities with the need of carrying out the work and the material movement.

When construction of building engineering is carried out, various service systems are equipped for auxiliary construction, few systems for later service exist in the existing service systems, and meanwhile, the existing monitoring mode for the construction site of the building engineering is video monitoring generally, namely, a plurality of cameras are installed on the construction site, and real-time images of the site can be checked at the background. However, many engineering requirements understand the real-time environment of the engineering site, the existing mode is manual collection, the efficiency is low, meanwhile, the existing construction engineering management system is more mechanized to the management of data, the aspect of manual information input is not perfect, the formed graphs are mostly plane graphs, the display effect is not good, and the above problems are all to be solved urgently.

Disclosure of Invention

The invention aims to provide a multifunctional later service system for construction engineering, which aims to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a multifunctional post-service system for construction engineering comprises a camera monitoring unit, a data acquisition unit, a data processing unit, a central processing unit, a field personnel database, a construction engineering information model module, an engineering equipment RFID recognizer, a field personnel RFID recognizer and a plurality of clients, wherein the input end of the data processing unit is respectively connected with the camera monitoring unit and the data acquisition unit, the output end of the data processing unit is connected with the central processing unit, the central processing unit is respectively connected with the field personnel database, the construction engineering information model module, the engineering equipment RFID recognizer and the field personnel RFID recognizer, the engineering equipment RFID recognizer is matched with engineering equipment RFID tags installed on different engineering equipment, the field personnel RFID recognizer is matched with field personnel RFID tags hung on different construction personnel, the central processing unit is also connected with a three-dimensional modeling system, the signal input end of the three-dimensional modeling system is connected with the signal output end of the central processing unit, the central processing unit transmits an electric signal to the three-dimensional modeling system, the signal output end of the three-dimensional modeling system is connected with the signal input end of the image processing unit, the signal output end of the image processing unit is connected with the signal input end of the display system, the signal output end of the central processing unit is further connected with the cloud server, and the signal output end of the cloud server is connected with the cloud storage.

Preferably, in order to facilitate a display effect of the display system, in this embodiment, preferably, the display system is an LED display, and the LED display is divided into a display area and a control area, where the control area includes an angle adjustment button and a scaling adjustment button.

Preferably, the signal output end of the central processing unit is further connected with a storage unit. The storage unit is different from a cloud storage, and can store data in the system in a hard disk, so that the data loss when the cloud cannot log in is avoided.

Preferably, the signal output end of the central processing unit is further connected with a data conversion unit, and the signal output end of the data conversion unit is connected with a data sharing unit. The data sharing unit meets a wireless network service protocol, a Bluetooth service protocol and a 4G network service protocol, the data sharing unit can share information in the client received in the central processing unit in real time, and the data conversion unit can convert the information in the central processing unit, so that the information is prevented from being copied and stored in the data sharing unit to cause information leakage.

Preferably, the client is connected with a building engineering information model module through a concurrency control access module, a user authority management module is arranged in each client, the user authority management module in each client is respectively connected with a user management database, a field personnel database and the user management database are both connected with a human resource management server, the building engineering information model module is used for digitally expressing physical and functional characteristics of a building engineering project, an engineering design management unit is arranged in the building engineering information model module, the output end of the engineering design management unit is connected with an engineering database, and the engineering design management unit is used for coordinating engineering project personnel and project group members, realizing unified management of engineering construction and storing related data in the engineering database; the user authority management module in each client is respectively connected with the user management database, the field personnel database and the user management database are also connected with the human resource management server, when personnel in an enterprise flow or leave the enterprise, the human resource management server can update the personnel in the enterprise into the field personnel database and the user management database in time, so that the personnel leaving the enterprise can not log in the system any more, and the use safety of the construction information of the building engineering is ensured; after the field personnel database is changed, the field personnel RFID identifier and the field personnel RFID tag are matched, the in-place situation of the implementation work of the field personnel can be monitored in real time, the construction work can be completed on time according to the quantity, the use data of the engineering equipment can be uploaded in real time through the matching of the engineering equipment RFID tag and the engineering equipment RFID identifier, and the construction management personnel can conveniently and reasonably arrange the construction work.

Preferably, the camera monitoring unit is used for installing a plurality of cameras distributed on a construction engineering construction site and shooting and recording important monitoring parts of the construction engineering construction site in real time, the data acquisition unit is respectively a smoke concentration detection sensor, a gas concentration detection sensor, a temperature detection sensor, a humidity detection sensor and a rock and soil detection sensor, and the rock and soil detection sensor is an inclinometer, a stress gauge, a strain gauge or a water level gauge. The data acquisition unit is matched with the camera monitoring unit and used for acquiring stress, strain, displacement, settlement, environmental temperature, environmental humidity, site real-time image and other data of a construction site of the building engineering, the data processing unit receives the data uploaded by the data acquisition unit and the camera monitoring unit, calculates various digitally expressed data and converts the data into computer visual data which can be identified by the central processing unit, the central processing unit generates corresponding control signals according to the received visual data and sends the control signals to the building engineering information model module for modeling, models of various related information of engineering projects are built on the basis of the design and construction scheme of the building engineering, the constructed construction scheme is detected at the later stage of construction, detailed analysis and comparison are carried out on the construction scheme, and optimization simulation is carried out, so that the safety performance of the construction site of the building engineering is greatly improved, if a design leak or a construction leak is found in the detection process, the design leak or the construction leak can be timely made up and improved, and the increase of the manufacturing cost due to the design change in the later period is avoided.

Preferably, the user authority management module presets a system administrator, a project manager, a construction progress administrator, a construction material administrator, an equipment administrator, a quality safety administrator and a field administrator. The system administrator appoints the user role when establishing the account number for each user, and when the user holds the corresponding user name, real name and password to log in, the system gives corresponding operation authority. In the concurrent control access module, when a conflict occurs in the authority, for example: the two users need to modify the schedule, the system authorizes the operation of the users according to the priority of the users, the authorized users can continue to operate and complete the modification, the unauthorized users cannot operate, and at the moment, the system also generates a prompt message to the unauthorized users to prompt the reason why the current operation cannot be performed, so that the reliability and the consistency of system data are ensured.

The engineering database is stored on a remote server, and the remote server is connected with an alarm device and a display unit. When the monitored data exceeds a certain threshold value, the alarm device can send an alarm to related personnel, so that the safe operation of site construction work is ensured.

The engineering design management unit comprises an engineering content design management unit, an engineering project management unit, a design process management unit, a production management unit and a construction safety management unit.

Preferably, the client is a mobile terminal and comprises a wireless communication module, a display screen and an input module, and the client is connected with the concurrency control access module through the wireless communication module, so that each user can conveniently log in the system.

Compared with the prior art, the invention has the beneficial effects that: the invention can acquire the environmental parameters and real-time monitoring images of the construction site of the building engineering in real time, acquire the position information of engineering equipment and the arrival condition of field workers, bring convenience to the engineering monitoring management, improve the efficiency and comprehensiveness of the monitoring information, connect the field personnel database and the user management database with the human resource management server, update the field personnel database and the user management database in time through the human resource management server, facilitate the construction management of field personnel, ensure the use safety of the building engineering information, simultaneously share and store the information stored in the system in the later period, realize the network cloud storage and local storage when the cloud can not log in, ensure the later integrity of the information, and provide convenience for the later service of the building engineering, the invention realizes the electronic data acquisition and real-time processing of the construction building, greatly improves the supervision level of the safety construction informatization of the construction engineering, can effectively monitor the construction factory and is convenient for the later service of the construction engineering.

Drawings

FIG. 1 is a system diagram of a multifunctional post-service system for construction engineering according to the present invention;

in the figure: 1. a camera monitoring unit; 2. a data acquisition unit; 3. a data processing unit; 4. a central processing unit; 5. a field personnel database; 6. a building engineering information model module; 7. an engineering equipment RFID recognizer; 8. a field personnel RFID identifier; 9. engineering equipment RFID tags; 10. a field personnel RFID tag; 11. a three-dimensional modeling system; 12. an image processing unit; 13. a display system; 14. a storage unit; 15. a cloud server; 16. a cloud storage; 17. a data conversion unit; 18. a data sharing unit; 19. a client; 20. a concurrency control access module; 21. a human resources management server; 22. a user management database; 23. an engineering design management unit; 24. an engineering database; 25. a user authority management module; 26. a project content design management unit; 27. an engineering project management unit; 28. designing a process management unit; 29. a production management unit; 30. and a construction safety management unit.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

Referring to fig. 1, the present invention provides the following technical solutions: a multifunctional later service system for construction engineering comprises a camera monitoring unit 1, a data acquisition unit 2, a data processing unit 3, a central processing unit 4, a field personnel database 5, a construction engineering information model module 6, an engineering equipment RFID recognizer 7, a field personnel RFID recognizer 8 and a plurality of client terminals 19, wherein the input end of the data processing unit 3 is respectively connected with the camera monitoring unit 1 and the data acquisition unit 2, the output end of the data processing unit 3 is connected with the central processing unit 4, the central processing unit 4 is respectively connected with the field personnel database 5, the construction engineering information model module 6, the engineering equipment RFID recognizer 7 and the field personnel RFID recognizer 8, the engineering equipment RFID recognizer 7 is matched with a plurality of engineering equipment RFID tags 9 installed on different engineering equipment, the field personnel RFID recognizer 8 is matched with a plurality of field personnel RFID tags 10 hung on different construction personnel, the engineering equipment RFID recognizer 7 and the field personnel RFID recognizer 8 can be arranged at an inlet or an outlet of a construction field; the central processing unit 4 is further connected with a three-dimensional modeling system 11, a signal input end of the three-dimensional modeling system 11 is connected with a signal output end of the central processing unit 4, the central processing unit 4 transmits an electric signal to the three-dimensional modeling system 11, the three-dimensional modeling system 11 connects coordinate points of the input electric signal through three-dimensional coordinates to form a three-dimensional model, a signal output end of the three-dimensional modeling system 11 is connected with a signal input end of an image processing unit 12, the image processing unit 12 processes a three-dimensional graph established by the three-dimensional modeling system 11, a signal output end of the image processing unit 12 is connected with a signal input end of a display system 13, the display system 13 displays the three-dimensional graph model processed by the image processing unit 12, the signal output end of the central processing unit 4 is further connected with a cloud server 15, and the cloud server 15 provides a medium for data transmission of the central processing unit 4, the signal output end of the cloud server 15 is connected with a cloud storage 16, and the cloud storage 16 stores the electric signal and the three-dimensional model.

In order to facilitate the display effect of the display system 13, in this embodiment, preferably, the display system 13 is an LED display, and the LED display is divided into a display area and a control area, where the control area includes an angle adjustment button and a scaling adjustment button.

In order to enable the information of the system to be stored integrally, in this embodiment, preferably, a storage unit 14 is further connected to the signal output end of the central processing unit 4. The storage unit 14 is different from the cloud storage 16, and can store data inside the system in a hard disk, so that data loss when the cloud cannot log in is avoided.

In order to enable the system to conveniently implement real-time data sharing, in this embodiment, preferably, the signal output end of the central processing unit 4 is further connected to a data conversion unit 17, and the signal output end of the data conversion unit 17 is connected to a data sharing unit 18. The data sharing unit 18 meets the wireless network service protocol, the bluetooth service protocol and the 4G network service protocol, the data sharing unit 18 can share the information in the client 19 received in the central processing unit 4 in real time, and the data converting unit 17 can convert the information in the central processing unit 4, so as to avoid the information leakage caused by copying and storing from the data sharing unit 18.

In order to enable the system to realize real-time monitoring and safety, in this embodiment, preferably, the client 19 is connected to the building engineering information model module 6 through a concurrency control access module 20, a user right management module 25 is provided in each client 19, the user right management module 25 in each client 19 is respectively connected to a user management database 22, the field personnel database 5 and the user management database 22 are both connected to the human resource management server 21, the building engineering information model module 6 is used for digitally expressing physical and functional characteristics of a building engineering project, an engineering design management unit 23 is provided in the building engineering information model module 6, an output end of the engineering design management unit 23 is connected to an engineering database 24, the engineering design management unit 23 is used for coordinating engineering project personnel and project group members to realize unified management of engineering construction, and stores the relevant data in the engineering database 24; the user authority management module 25 in each client 19 is respectively connected with the user management database 22, the field personnel database 5 and the user management database 22 are also connected with the human resource management server 21, when personnel in an enterprise flow or leave, the human resource management server 21 can update the personnel in the enterprise to the field personnel database 5 and the user management database 22 in time, so that the personnel leaving can not log in the system any more, and the use safety of the construction information of the building engineering is ensured; after the field personnel database 5 is changed, the field personnel RFID identifier 8 and the field personnel RFID tag 10 are matched, the in-place situation of the implementation work of the field personnel can be monitored in real time, the construction work can be guaranteed to be completed on time and quantitatively, the use data of the engineering equipment can be uploaded in real time through the matching of the engineering equipment RFID tag 9 and the engineering equipment RFID identifier 7, and the construction management personnel can conveniently and reasonably arrange the construction work.

In order to make the data processing unit 3 realize better data processing, in this embodiment, preferably, the camera monitoring unit 1 is a plurality of cameras installed on the construction site of the architectural engineering, and shoots and records important monitored parts on the construction site of the architectural engineering in real time, and the data acquisition unit 2 is a smoke concentration detection sensor, a gas concentration detection sensor, a temperature detection sensor, a humidity detection sensor and a geotechnical detection sensor respectively, and the geotechnical detection sensor is an inclinometer, a stress gauge, a strain gauge or a water level gauge. The data acquisition unit 2 is matched with the camera monitoring unit 1 and used for acquiring stress, strain, displacement, settlement, environment temperature, environment humidity, site real-time image and other data of a construction site of the building engineering, the data processing unit 3 receives the data uploaded by the data acquisition unit 2 and the camera monitoring unit 1, calculates various digitally expressed data and converts the data into computer visual data which can be identified by the central processing unit 4, the central processing unit 4 generates corresponding control signals according to the received visual data and sends the control signals to the building engineering information model module 6 for modeling, models of various related information of engineering projects are established on the basis of the design and construction scheme of the building engineering, the constructed construction scheme is detected, detailed analysis and comparison are carried out on the constructed construction scheme and optimized simulation are carried out at the later stage of construction, and therefore the safety performance of the construction site of the building engineering is greatly improved, if a design leak or a construction leak is found in the detection process, the design leak or the construction leak can be timely made up and improved, and the increase of the manufacturing cost due to the design change in the later period is avoided.

In order to avoid conflict when the concurrent control access module 20 performs system login, in this embodiment, it is preferable that the user right management module 25 is preset to include a system administrator, a project manager, a construction progress manager, a construction material manager, a device manager, a quality safety manager, and a site manager. The system administrator appoints the user role when establishing the account number for each user, and when the user holds the corresponding user name, real name and password to log in, the system gives corresponding operation authority. In the concurrency control access module 20, when a conflict occurs in the authority, for example: the two users need to modify the schedule, the system authorizes the operation of the users according to the priority of the users, the authorized users can continue to operate and complete the modification, the unauthorized users cannot operate, and at the moment, the system also generates a prompt message to the unauthorized users to prompt the reason why the current operation cannot be performed, so that the reliability and the consistency of system data are ensured.

In order to make the field construction work safer, in the embodiment, it is preferable that the engineering database 24 is stored on a remote server, and the remote server is connected with an alarm device and a display unit. When the monitored data exceeds a certain threshold value, the alarm device can send an alarm to related personnel, so that the safe operation of site construction work is ensured.

In order to make the engineering design management unit 23 more clear, in the present embodiment, the engineering design management unit 23 preferably includes an engineering content design management unit 26, an engineering project management unit 27, a design flow management unit 28, a production management unit 29, and a construction safety management unit 30.

In order to facilitate the login of the client 19, in this embodiment, preferably, the client 19 is a mobile terminal and includes a wireless communication module, a display screen and an input module, and the client 19 is connected to the concurrency control access module 20 through the wireless communication module, so as to facilitate each user to log in the system.

The invention can acquire the environmental parameters and real-time monitoring images of the construction site of the building engineering in real time, acquire the position information of engineering equipment and the arrival condition of site workers, bring convenience to the engineering monitoring management, improve the efficiency and comprehensiveness of the monitoring information, connect the site personnel database 5 and the user management database 22 with the human resource management server 21, update the site personnel database 5 and the user management database 22 in time through the human resource management server 21, facilitate the construction management of the site personnel, simultaneously ensure the use safety of the building engineering information, simultaneously can share and store the information stored in the system in the later period, the storage can realize the network cloud storage, can also realize the local storage when the cloud can not log in, ensure the later period of the information, and the data sharing unit 18 arranged in the system can ensure the sharing and disclosure of the internal information, the invention realizes the electronic data acquisition and real-time processing of the construction building, greatly improves the supervision level of the safety construction informatization of the construction engineering, can effectively monitor the construction factory and is convenient for the later service of the construction engineering.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides a multi-functional later stage service system of building engineering which characterized in that: the system comprises a camera monitoring unit (1), a data acquisition unit (2), a data processing unit (3), a central processing unit (4), a field personnel database (5), a building engineering information model module (6), an engineering equipment RFID recognizer (7), a field personnel RFID recognizer (8) and a client (19), wherein the input end of the data processing unit (3) is respectively connected with the camera monitoring unit (1) and the data acquisition unit (2), the output end of the data processing unit (3) is connected with the central processing unit (4), the central processing unit (4) is respectively connected with the field personnel database (5), the building engineering information model module (6), the engineering equipment RFID recognizer (7) and the field personnel RFID recognizer (8), the engineering equipment RFID recognizer (7) is matched with engineering equipment RFID tags (9) installed on different engineering equipment, on-site personnel RFID recognizer (8) is matched with on-site personnel RFID label (10) hung on different constructors, still be connected with three-dimensional modeling system (11) on central processing unit (4), the signal input part of three-dimensional modeling system (11) is connected with the signal output part of central processing unit (4), central processing unit (4) is with signal transmission to three-dimensional modeling system (11), the signal output part of three-dimensional modeling system (11) is connected with the signal input part of image processing unit (12), the signal output part of image processing unit (12) is connected with the signal input part of display system (13), the signal output part of central processing unit (4) still is connected with cloud server (15), the signal output part of cloud server (15) is connected with cloud memory (16).

2. The multifunctional post-service system for construction engineering according to claim 1, characterized in that: the display system (13) is an LED display, the LED display is divided into a display area and a regulation and control area, and the regulation and control area comprises an angle regulation button and a scaling regulation button.

3. The multifunctional post-service system for construction engineering according to claim 2, characterized in that: the signal output end of the central processing unit (4) is also connected with a storage unit (14).

4. The multifunctional post-service system for construction engineering of claim 3, wherein: the signal output end of the central processing unit (4) is also connected with a data conversion unit (17), and the signal output end of the data conversion unit (17) is connected with a data sharing unit (18).

5. The multifunctional post-service system for construction engineering of claim 4, wherein: the client (19) is connected with the building engineering information model module (6) through the concurrency control access module (20), a user authority management module (25) is arranged in each client (19), the user authority management module (25) in each client (19) is respectively connected with a user management database (22), the field personnel database (5) and the user management database (22) are both connected with the human resource management server (21), an engineering design management unit (23) is arranged in the building engineering information model module (6), and the output end of the engineering design management unit (23) is connected with an engineering database (24).

6. The multifunctional post-service system for construction engineering of claim 5, wherein: the camera shooting monitoring unit (1) is provided with a plurality of cameras distributed on the construction site of the building engineering, the data acquisition unit (2) is respectively provided with a smoke concentration detection sensor, a gas concentration detection sensor, a temperature detection sensor, a humidity detection sensor and a rock soil detection sensor, and the rock soil detection sensor is an inclinometer, a stress gauge, a strain gauge or a water level gauge.

7. The multifunctional post-service system for construction engineering of claim 6, wherein: the user authority management module (25) comprises a system manager, a project manager, a construction progress manager, a construction material manager, an equipment manager, a quality safety manager and a field manager in a preset mode.

8. The multifunctional post-service system for construction engineering of claim 7, wherein: the engineering database (24) is stored in a remote server, and an alarm device and a display unit are connected to the remote server.

9. The multifunctional post-service system for construction engineering of claim 8, wherein: the engineering design management unit (23) comprises an engineering content design management unit (26), an engineering project management unit (27), a design process management unit (28), a production management unit (29) and a construction safety management unit (30).

10. The multifunctional post-service system for construction engineering of claim 9, wherein: the client (19) is a mobile terminal and comprises a wireless communication module, a display screen and an input module, and the client (19) is connected with the concurrency control access module (20) through the wireless communication module.

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