CN115423446A

CN115423446A - Building engineering construction operation environment intelligent monitoring system based on big data

Info

Publication number: CN115423446A
Application number: CN202211144775.7A
Authority: CN
Inventors: 黄志刚; 陈梦华; 谭景腾; 姜红华; 岑毅; 李承耀; 姜雄雁; 陈熙林; 张和思
Original assignee: Guangxi Liancheng Construction Group Co ltd
Current assignee: Guangxi Liancheng Construction Group Co ltd
Priority date: 2022-09-20
Filing date: 2022-09-20
Publication date: 2022-12-02

Abstract

The invention discloses a building engineering construction operation environment intelligent monitoring system based on big data, which relates to the technical field of building engineering monitoring systems and comprises an engineering scheduling unit, a field data monitoring unit, a weather query unit and an engineering planning unit; the engineering scheduling unit is used for storing the air pressure, humidity, temperature and dust emission degree information acquired by the field data monitoring unit and the weather information acquired by the weather inquiry unit; according to the intelligent monitoring system for the construction work environment of the building engineering based on the big data, through the matched use of the engineering scheduling unit, the field data monitoring unit, the weather query unit and the engineering planning unit, the weather forecast information of the construction local can be obtained, the big data analysis is carried out by combining the air pressure, the humidity and other information detected by the construction field, the weather forecast information with a smaller construction field range and more accuracy is calculated, the construction plan is adjusted according to the calculated weather forecast information, and the construction is facilitated.

Description

Building engineering construction operation environment intelligent monitoring system based on big data

Technical Field

The invention relates to the technical field of building engineering monitoring systems, in particular to a building engineering construction operation environment intelligent monitoring system based on big data.

Background

Big data is information assets which have stronger decision-making power, insight discovery power and flow optimization capability and are suitable for mass, high growth rate and diversification only by needing a new processing mode, and the big data attracts more and more attention along with the coming of the cloud era.

When the big data is applied to a system for monitoring the construction working environment of the building engineering, the weather and the environment of construction can be monitored and analyzed in real time, corresponding early warning is given to a construction plan or corresponding adjustment is carried out, and construction is facilitated.

Disclosure of Invention

The invention aims to provide an intelligent monitoring system for construction work environment of building engineering based on big data, which aims to overcome the defects in the prior art.

In order to achieve the above purpose, the invention provides the following technical scheme: a building engineering construction work environment intelligent monitoring system based on big data comprises an engineering scheduling unit, a field data monitoring unit, a weather query unit and an engineering planning unit;

the engineering scheduling unit is used for storing the air pressure, humidity, temperature and dust emission degree information acquired by the field data monitoring unit and the weather information acquired by the weather query unit, analyzing the air pressure, humidity and temperature of the construction site on the basis of the acquired weather information, acquiring more accurate weather environment information of the construction site after analysis, and correspondingly adjusting the construction plan in the construction plan unit according to the weather environment information acquired by analysis;

the field data monitoring unit is used for acquiring the air pressure, the humidity, the temperature and the dust flying degree of a construction field;

the weather inquiry unit is used for acquiring the weather information of a construction local place through a network;

the project planning unit is used for recording a construction plan and a construction progress;

the system also comprises a signal transmission module, wherein the signal transmission module is used for transmitting the acquired construction site environment information, the construction plan and the construction progress information to a mobile phone terminal of a user, and remotely inputting and modifying the construction progress and the construction plan through a mobile phone.

Furthermore, the engineering scheduling unit comprises a data storage module, a data comparison module and a data analysis module; the output end of the data storage module is connected with the input end of the data comparison module, the output end of the data comparison module is connected with the input end of the data analysis module and used for sending the acquired data to the data comparison module for comparison and sending the data to the data analysis module for analysis after comparison, because under normal conditions, the ground continuously carries out long-wave effective radiation to the atmosphere, and meanwhile, the atmosphere continuously carries out reverse radiation to the ground, and in a fine day, the heat of the ground can be smoothly transported outwards through the effective radiation and the upwards radial motion of a convection current layer, and in a cloudy day, the cloud layer reduces the outwards radial motion of the atmosphere of a convection layer, so that the atmosphere in the cloudy day area expands more severely, and the atmosphere in the cloudy day area transversely diffuses outwards to reduce the density of the air, and meanwhile, the humidity of the atmosphere in the cloudy day area is greatly reduced, namely, the area with relatively high air pressure on the ground is often a fine day, and the area with relatively low air pressure on the ground is often a cloudy day. Due to the influence of the two factors, the atmospheric pressure on a cloudy day is lower than that on a sunny day, and on the same horizontal plane, the atmospheric pressure is lower when the air temperature is high, and the atmospheric pressure is higher when the air temperature is low. According to the situation, the data comparison module compares the weather, temperature and humidity data acquired by the weather query module with the temperature and humidity data of the construction site acquired by the site data monitoring unit, and then performs data analysis on the compared data by combining the historical weather, temperature and humidity data acquired by the weather query module through the data analysis module, so as to deduce a weather situation;

the system also comprises a construction adjusting module, and the construction adjusting module adjusts the construction plan according to the weather information obtained by analyzing the data analyzing module.

Furthermore, the field data monitoring unit comprises an air pressure monitoring module, a humidity monitoring module, an air temperature monitoring module and a dust monitoring module; the output ends of the air pressure monitoring module, the humidity monitoring module, the air temperature monitoring module and the dust monitoring module are connected with the input end of the data storage module.

Furthermore, the weather inquiry unit comprises a satellite positioning module and a weather inquiry module, wherein the output end of the satellite positioning module is connected with the input end of the weather inquiry module, and is used for automatically positioning the position of a construction site and acquiring corresponding weather information through the weather inquiry module.

Furthermore, the project planning unit comprises a construction planning module and a construction progress module, wherein the output end of the construction progress module is connected with the input end of the construction planning module, the construction planning module is bidirectionally connected with a construction adjustment module, and the construction adjustment module is used for acquiring a construction plan in the construction planning module and automatically adjusting the project sequence in the construction plan according to the weather condition.

Furthermore, the input ends of the construction plan module and the construction progress module are connected with an external input terminal and used for manually inputting the construction plan and the construction progress.

Furthermore, the construction plan module and the construction progress module are connected with the signal transmission module in a bidirectional mode.

Furthermore, the output end of the data storage module is connected with the input end of the signal transmission module.

Furthermore, an early warning module is arranged in the construction adjusting module, the input end of the early warning module is connected with the construction adjusting module, the output end of the early warning module is connected with the input end of the signal transmission module, and when the early warning module detects that the construction adjusting module adjusts the project sequence of the construction plan, early warning prompt information is pushed to a user through the signal transmission module; and when the early warning module detects that the construction adjusting module does not adjust the project sequence of the construction plan, the early warning module does not actively push early warning prompt information to a user through the signal transmission module.

1. Compared with the prior art, the intelligent monitoring system for the construction work environment of the building engineering based on the big data can acquire the local weather forecast information of construction by arranging the engineering scheduling unit, the field data monitoring unit, the weather inquiry unit and the engineering planning unit for cooperative use, analyze the big data by combining the air pressure, the humidity and other information detected at the construction site, calculate the weather forecast information with smaller and more accurate construction site range, adjust the construction plan according to the calculated weather forecast information, and is more favorable for construction.

2. Compared with the prior art, the intelligent monitoring system for the construction work environment of the building engineering based on the big data, provided by the invention, has the advantages that through the mutual matching of the signal transmission module, the data storage module, the early warning module and the engineering planning unit, a user can remotely check the weather, the construction plan, the construction progress and other information of a construction site, and can remotely modify the construction plan and the construction progress information, and the early warning module can automatically push an early warning information user when the construction plan is adjusted, so that the user is reminded of the adjustment of the construction plan, and the user can make corresponding construction preparation in advance.

Drawings

In order to more clearly illustrate the embodiments of the present application or technical solutions in the prior art, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments described in the present invention, and other drawings can be obtained by those skilled in the art according to the drawings.

Fig. 1 is a schematic diagram of a system framework according to an embodiment of the present invention.

Description of reference numerals:

11. a data storage module; 12. a data comparison module; 13. a data analysis module; 14. a construction adjustment module; 21. a gas pressure monitoring module; 22. a humidity monitoring module; 23. an air temperature monitoring module; 24. a dust monitoring module; 31. a satellite positioning module; 32. a weather query module; 41. a construction plan module; 42. a progress module; 51. and a signal transmission module.

Detailed Description

In order to make the technical solutions of the present invention better understood, those skilled in the art will now describe the present invention in further detail with reference to the accompanying drawings.

The first embodiment is as follows:

referring to fig. 1, an intelligent monitoring system for construction work environment of building engineering based on big data comprises an engineering scheduling unit, a field data monitoring unit, a weather query unit and an engineering planning unit;

the engineering scheduling unit is used for storing the air pressure, humidity, temperature and dust emission degree information acquired by the field data monitoring unit and the weather information acquired by the weather query unit, analyzing the air pressure, humidity and temperature of the construction site on the basis of the acquired weather information, acquiring more accurate weather environment information of the construction site after analysis, and correspondingly adjusting the construction plan in the construction plan unit according to the weather environment information acquired by analysis; the engineering scheduling unit comprises a data storage module 11, a data comparison module 12 and a data analysis module 13;

the output end of the data storage module 11 is connected with the input end of the data comparison module 12, the output end of the data comparison module 12 is connected with the input end of the data analysis module 13, so that the data storage module 11 stores the air pressure, humidity, temperature and dust raising degree data of the construction site acquired by the site data monitoring unit and the weather data inquired by the weather inquiry unit, then the stored air pressure, humidity and temperature data of the construction site and the inquired weather data are sent to the data comparison module 12 for comparison, and then sent to the data analysis module 13 for analysis. Due to the influence of the two factors, the atmospheric pressure on a cloudy day is lower than that on a sunny day, and on the same horizontal plane, the atmospheric pressure is lower when the air temperature is high, and the atmospheric pressure is higher when the air temperature is low. According to the situation, the data comparison module 12 compares the weather, temperature and humidity data acquired by the weather query module 32 with the temperature and humidity data of the construction site acquired by the site data monitoring unit, and then performs data analysis on the compared data by combining the historical weather, temperature and humidity data acquired by the weather query module 32 through the data analysis module 13, so as to deduce a weather situation.

The project scheduling unit further includes a construction adjusting module 14, and the construction adjusting module 14 adjusts the construction plan according to the weather information analyzed by the data analyzing module 13.

The field data monitoring unit comprises an air pressure monitoring module 21, a humidity monitoring module 22, an air temperature monitoring module 23 and a dust monitoring module 24; the output ends of the air pressure monitoring module 21, the humidity monitoring module 22, the air temperature monitoring module 23 and the dust monitoring module 24 are all connected with the input end of the data storage module 11 and are respectively used for acquiring the air pressure, the humidity, the temperature and the dust flying degree of a construction site;

the weather inquiry unit comprises a satellite positioning module 31 and a weather inquiry module 32, wherein the output end of the satellite positioning module 31 is connected with the input end of the weather inquiry module 32, and is used for automatically positioning the position of a construction site and acquiring weather information and weather forecast information of a construction local area through the weather inquiry module 32.

The engineering planning unit is used for recording a construction plan and a construction progress, and comprises a construction plan module 41 and a construction progress module 42, wherein the output end of the construction progress module 42 is connected with the input end of the construction plan module 41, and the input ends of the construction plan module 41 and the construction progress module 42 are connected with an external input terminal and used for manually inputting the construction plan and the construction progress; the construction plan module 41 is bidirectionally connected with the construction adjusting module 14, the construction adjusting module 14 is used for obtaining the construction plan in the construction plan module 41, and the construction plan is divided into a plurality of projects according to the difficulty and safety degree of construction in rainy weather during input, so that the construction adjusting module 14 can automatically adjust the project sequence in the construction plan according to the weather condition;

example two:

referring to fig. 1, the present embodiment provides a technical solution based on the first embodiment: the engineering scheduling unit further comprises a signal transmission module 51, the construction plan module 41 and the construction progress module 42 are in bidirectional connection with the signal transmission module 51, so that the signal transmission module 51 can send a construction plan and a construction progress to a mobile phone terminal of a user, the user can check the construction site environment information, the construction plan and the construction progress information which can be acquired by the signal transmission module 51 through the mobile phone terminal, and can remotely input and modify the construction progress and the construction plan through the mobile phone terminal; the output end of the data storage module 11 is connected with the input end of the signal transmission module 51, so that a user can inquire the current and historical air pressure, humidity, temperature, dust raising degree and weather information of a construction site through a mobile phone terminal; the construction adjustment module 14 is internally provided with an early warning module, the input end of which is connected with the construction adjustment module, and the output end of which is connected with the input end of the signal transmission module 51, and when the early warning module detects that the construction adjustment module 14 adjusts the project sequence of the construction plan, the early warning module 51 pushes early warning prompt information to a user; when the early warning module detects that the construction adjusting module 14 does not adjust the project sequence of the construction plan, the early warning module does not actively push early warning prompt information to the user through the signal transmission module 51.

While certain exemplary embodiments of the present invention have been described above by way of illustration only, it will be apparent to those of ordinary skill in the art that the described embodiments may be modified in various different ways without departing from the spirit and scope of the present invention. Accordingly, the drawings and description are illustrative in nature and should not be construed as limiting the scope of the invention.

Claims

1. The utility model provides a building engineering construction operation environment intelligent monitoring system based on big data which characterized in that: the system comprises an engineering scheduling unit, a field data monitoring unit, a weather query unit and an engineering planning unit;

the weather inquiry unit is used for acquiring weather information of a construction local through a network;

the system further comprises a signal transmission module (51), wherein the signal transmission module (51) is used for sending the acquired construction site environment information, the construction plan and the construction progress information to a mobile phone terminal of a user, and remotely inputting and modifying the construction progress and the construction plan through a mobile phone.

2. The building engineering construction work environment intelligent monitoring system based on big data according to claim 1, characterized in that: the engineering scheduling unit comprises a data storage module (11), a data comparison module (12) and a data analysis module (13);

the output end of the data storage module (11) is connected with the input end of the data comparison module (12), the output end of the data comparison module (12) is connected with the input end of the data analysis module (13) and used for sending the acquired data to the data comparison module (12) for comparison, and sending the data to the data analysis module (13) for analysis after comparison, so that more accurate weather information of a construction site is obtained;

the construction planning system further comprises a construction adjusting module (14), wherein the construction adjusting module (14) analyzes according to the data analyzing module (13) to obtain weather information so as to adjust the construction plan.

3. The building engineering construction work environment intelligent monitoring system based on big data according to claim 2, characterized in that: the field data monitoring unit comprises an air pressure monitoring module (21), a humidity monitoring module (22), an air temperature monitoring module (23) and a dust monitoring module (24);

the output ends of the air pressure monitoring module (21), the humidity monitoring module (22), the air temperature monitoring module (23) and the dust monitoring module (24) are connected with the input end of the data storage module (11).

4. The building engineering construction work environment intelligent monitoring system based on big data according to claim 2, characterized in that: the weather inquiry unit comprises a satellite positioning module (31) and a weather inquiry module (32), wherein the output end of the satellite positioning module (31) is connected with the input end of the weather inquiry module (32) and used for automatically positioning the position of a construction site and acquiring corresponding weather information through the weather inquiry module (32).

5. The building engineering construction work environment intelligent monitoring system based on big data according to claim 2, characterized in that: the engineering planning unit comprises a construction planning module (41) and a construction progress module (42), wherein the output end of the construction progress module (42) is connected with the input end of the construction planning module (41), the construction planning module (41) is in bidirectional connection with a construction adjusting module (14), and the construction adjusting module (14) is used for obtaining a construction plan in the construction planning module (41) and automatically adjusting project sequence in the construction plan according to weather conditions.

6. The building engineering construction operation environment intelligent monitoring system based on big data according to claim 5, characterized in that: and the input ends of the construction plan module (41) and the construction progress module (42) are connected with an external input terminal and used for manually inputting a construction plan and a construction progress.

7. The building engineering construction operation environment intelligent monitoring system based on big data according to claim 5, characterized in that: the construction planning module (41) and the construction progress module (42) are connected with the signal transmission module (51) in a bidirectional mode.

8. The building engineering construction operation environment intelligent monitoring system based on big data according to claim 2, characterized in that: the output end of the data storage module (11) is connected with the input end of the signal transmission module (51).

9. The building engineering construction operation environment intelligent monitoring system based on big data according to claim 2, characterized in that: and an early warning module with an input end connected with the construction adjusting module (14) and an output end connected with the input end of the signal transmission module (51) is arranged in the construction adjusting module.