CN112489387B - Power distribution construction site safety early warning method based on weather monitoring - Google Patents

Abstract

The invention relates to the field of weather monitoring, in particular to a safety early warning method for a power distribution construction site based on weather monitoring. The method comprises the following specific steps: a) Deploying a weather monitoring device on site; b) Acquiring field position and environment signals by using a weather monitoring device; c) The weather monitoring device transmits the site position and the environment signal to the server; d) The server inquires local weather information through a network; e) The server combines and analyzes the field environment signal and the local weather information to obtain field weather information and outputs a result of whether the field weather information meets the construction conditions; f) Informing the administrator of the result of whether the on-site weather information meets the construction conditions; g) The server stores the on-site weather information data to enrich the data warehouse. According to the invention, whether the site meets the construction condition or not is not required to be identified by an operator according to the weather condition, the randomness caused by the cognitive level of the operator is reduced, the unified and standard management of an enterprise on the staff is promoted, and the potential safety hazard is reduced.

Description

Power distribution construction site safety early warning method based on weather monitoring

Technical Field

The invention relates to the technical field of weather monitoring, in particular to a safety early warning method for a power distribution construction site based on weather monitoring.

Background

The conventional weather monitoring is to monitor weather in a certain area for a period of time and output a weather prediction result, for ordinary people, only rough knowledge about whether the weather is sunny or rainy and whether the weather is light rain or heavy rain is enough in rainy days is needed, but for operators of power distribution construction, the information is not enough, and the operators need to accurately know whether the weather condition at a specific power distribution construction site at a specific time point meets the construction condition or not, so that personal safety in the construction process is ensured. And different people's safety consciousness level is different, sometimes operating personnel also can have the luck psychology of catching, predict not enough to weather change, cause the potential safety hazard easily, also inconvenient unification and standard management.

A comparison document (publication number CN 204188826U) discloses a weather monitoring system, which can perform weather monitoring on the spot in real time, but cannot perform unified and normative management on operators, and the construction conditions of fuzzy critical states are not defined clearly due to different cognition of each person, so that potential safety hazards exist.

Disclosure of Invention

The invention aims to overcome the defects that the existing weather monitoring method cannot carry out real-time weather monitoring on a construction site and cannot carry out unified management on whether an operator goes to the site to carry out construction or not, and provides a safety early warning method for a power distribution construction site based on weather monitoring.

In order to solve the technical problems, the invention adopts the technical scheme that:

the safety early warning method for the power distribution construction site based on weather monitoring comprises the following specific steps:

a) Deploying a weather monitoring device on site;

b) Sensing field environment temperature and humidity information and acquiring position information at regular time by using a weather monitoring device;

c) The weather monitoring device transmits the temperature and humidity information and the position information of the site environment to the server;

d) The server inquires local weather information through a network;

e) The server combines and analyzes the temperature and humidity information of the site environment and the local weather information to obtain the site weather information, and outputs the result whether the site weather information meets the construction conditions;

f) The server informs the administrator of the result of whether the on-site weather information meets the construction conditions;

g) The server stores the on-site weather information data to enrich the data warehouse.

According to the invention, the field operation environment can be accurately positioned through the weather monitoring device, the safety production and engineering quality is ensured, and the safety quality management level of capital construction is comprehensively improved; and the unified management can be carried out on the operators, the operators are strictly required to carry out site construction under the allowable construction conditions according to the notified instructions, and the construction randomness of the operators is eliminated. Specifically, the method comprises the steps of establishing a weather health model of the power distribution construction site, monitoring the ambient temperature and humidity of the construction site in real time, comparing the weather data with network weather data by using a weather monitoring device, comprehensively analyzing whether the power distribution construction site meets the construction conditions or not by combining actual weather under the requirement of safety regulations on the construction conditions, informing an operator of a result, requiring the operator to uniformly arrange work according to instructions, and giving an alarm to give a strong prompt in a warning mode under the condition that the site weather does not meet the construction conditions. The weather monitoring device can acquire field environment temperature and humidity information and field position information, and is a common device with mature technology.

Preferably, the temperature and humidity information of the site environment is regularly monitored by a temperature and humidity sensor in the weather monitoring device in the step b).

Preferably, the step b) acquires the position information by using a GPS positioning device in the weather monitoring device.

Preferably, in the step c), the wireless transmission module in the weather monitoring device is used for transmitting the temperature and humidity information and the position information of the site environment to the server through a wireless network.

Preferably, the servers in steps d) to g) include an application server, an algorithm server and a data server.

Preferably, the step d) uses the application server to interact with the data of the front end, and queries the local weather information corresponding to the front end GPS through the plug-in.

Preferably, when the data server in the step e) receives the field weather information sent by the application server, the field weather information is imported into the distribution construction field weather health model for analysis, an identification result is obtained and output, and the result is returned to the application server for processing.

Preferably, the step g) stores the original data of the on-site weather information by using a distributed installation database of a data server.

Preferably, the distribution construction site weather health model is obtained by collecting a large amount of site weather information, then performing big data analysis, and then establishing.

Preferably, the application server in the step f) issues the result of whether the on-site weather information meets the construction condition to the APP and/or notifies the administrator through a short message.

Compared with the prior art, the invention has the beneficial effects that:

(1) Operators do not need to identify whether the site meets the construction conditions or not according to weather conditions, randomness caused by cognitive level of the operators is reduced, unified and standard management of enterprises on employees is improved, and potential safety hazards are reduced;

(2) The invention carries out comparison and analysis by monitoring the weather data through the weather monitoring device and inquiring the weather data through the network GPS, and is more accurate than the existing weather monitoring technology.

(3) The present invention uses big data for modeling and analysis. The intelligent analysis distribution job site weather health status and report an emergency and ask for help or increased vigilance through APP and SMS, have the real-time.

Drawings

Fig. 1 is a schematic flow diagram of a safety early warning method for a power distribution construction site based on weather monitoring.

Detailed Description

The present invention will be further described with reference to the following embodiments. The drawings are for illustrative purposes only and are not intended to be limiting of the present patent.

Examples

Fig. 1 shows an embodiment of a safety early warning method for a power distribution construction site based on weather monitoring, which includes the following specific steps:

a) Deploying a weather monitoring device on site;

b) Sensing field environment temperature and humidity information and acquiring position information at regular time by using a weather monitoring device;

c) The weather monitoring device transmits the temperature and humidity information and the position information of the site environment to the server;

d) The server inquires local weather information through a network;

e) The server combines and analyzes the temperature and humidity information of the site environment and the local weather information to obtain the site weather information, and outputs the result of whether the site weather information meets the construction conditions;

f) The server informs the administrator of the result of whether the on-site weather information meets the construction conditions;

g) The server stores the on-site weather information data to enrich the data warehouse.

According to the invention, the field operation environment can be accurately positioned through the weather monitoring device, the safety production and engineering quality is ensured, and the safety quality management level of capital construction is comprehensively improved; and the unified management can be carried out on the operators, the operators are strictly required to carry out site construction under the allowed construction conditions according to the notified instructions, and the construction randomness of the operators is eliminated. Specifically, the method monitors the environmental temperature and humidity of the construction site in real time by establishing a weather health model of the power distribution construction site, compares the weather monitoring device with network weather data, comprehensively analyzes whether the power distribution construction site meets the construction conditions or not by combining actual weather under the requirement of safety specifications on the construction conditions, informs the result to an operator, requires the operator to uniformly arrange work according to instructions, and can give an alarm to give an attention when the site weather does not meet the construction conditions. The weather monitoring device integrates the temperature and humidity sensor, the GPS positioning device and the wireless transmission module, can acquire field environment temperature and humidity information and field position information, and further transmits data through the wireless transmission module, and is a common device with mature technology. During on-site construction, a weather monitoring device is preferentially deployed, and data is acquired early for analysis.

As an embodiment of the present invention, in step b), the temperature and humidity information of the field environment is regularly monitored by using a temperature and humidity sensor in the weather monitoring device. The temperature and the humidity of the environment are main parameters forming the weather, and the temperature and the humidity of the site are monitored by utilizing the temperature and humidity sensor, so that the real-time weather of the site can be obtained. After the temperature and humidity sensor is programmed, the temperature and humidity signal is monitored regularly after the temperature and humidity sensor is electrified. It is within the purview of those skilled in the art to more accurately monitor the weather at the site by capturing lighting information and wind speed information at the site in conjunction with the lighting sensor and the wind speed sensor.

As an embodiment of the present invention, in step c), the wireless transmission module in the weather monitoring device is used to transmit the temperature and humidity information and the location information of the field environment to the server through the wireless network. The server plays a role in overall planning, humiture information and position information that every weather monitoring devices will monitor are transmitted to the server and are gathered, the server can clearly know the weather condition of every scene according to the received information, the follow-up unified planning management to operating personnel of being convenient for, specifically, after the whole programming of weather monitoring devices is accomplished, when temperature and humidity sensor regularly monitors the humiture signal, simultaneously activation GPS positioner acquires GPS information, send to the server through wireless transmission module after two kinds of information merge. The wireless transmission module is used for data transmission, and is more economical and convenient, but the wired transmission module can also be used for data transmission.

As an embodiment of the present invention, the servers in steps d) to g) include an application server, an algorithm server, and a data server. The application server collects and analyzes the temperature and humidity information and the position information monitored by each weather monitoring device to obtain the specific weather condition of each site and form different weather information of construction sites in one area, and the weather conditions of the sites can be intuitively known from the application server and transmitted to the algorithm server; meanwhile, the application server can form a target construction operation data table when obtaining the health analysis result output from the algorithm server; the algorithm server is used for analyzing the combination of the on-site weather condition and the weather health model of the power distribution construction site to obtain an identification result, and outputting a result indicating whether the on-site weather information meets the construction conditions; the data server plays a role in data storage, stores the original data of the on-site weather information, and stores the output result of the algorithm server.

As an embodiment of the present invention, step d) utilizes the application server to interact with the data of the front end, and queries the local weather information corresponding to the front end GPS through the plug-in. Therefore, the application server can acquire the local weather condition on the network, and the weather can be more accurately predicted by combining the temperature and humidity information acquired by the weather monitoring device on the site. Specifically, after the server receives data sent by the weather monitoring device, the GPS data is analyzed to obtain local weather information through the plug-in and the network, and then field temperature and humidity information monitored by the weather monitoring device is extracted and comprehensively sent to the algorithm server.

As an embodiment of the invention, when the data server in the step e) receives the field weather information sent by the application server, the field weather information is imported into the distribution construction field weather health model for analysis, an identification result is obtained and output, and the result is returned to the application server for processing. This provides for unified regulatory management operators. Specifically, a big data analysis environment and a distribution construction site weather health model are installed in the algorithm server.

Step g) stores the original data of the on-site weather information by using a distributed installation database of the data server as an embodiment of the invention. The data server is convenient for gradually perfecting and enriching the weather health model of the power distribution construction site by storing the data, so that the system is more and more complete. Specifically, distributed installation refers to splitting the system and deploying the system on a plurality of servers, and the data servers install the database in a distributed manner and store original data and monitoring data generated during operation. And the algorithm server updates the weather health model of the power distribution construction site at regular time according to the latest data.

According to the embodiment of the invention, the distribution construction site weather health model is obtained by collecting a large amount of site weather information, then performing big data analysis and then establishing. The initial data of distribution job site weather health model is artifical the leading-in, but can all add the weather information raw data to distribution job site weather health model after acquireing weather information each time, like this along with the increase of analysis number of times, distribution job site weather health model can more and more perfect, and whole data system can be more and more abundant, more is favorable to subsequent comparison analysis.

As an embodiment of the present invention, the application server in step f) issues the result of whether the on-site weather information meets the construction condition to the APP and/or notifies the administrator through a short message. The operator can indicate whether to go to the site for construction according to the result published by the APP or notified by the short message, go to the site for construction when showing that the site weather meets the construction conditions and the site construction is allowed, and listen to the arrangement of not going to the construction when showing that the site weather does not meet the construction conditions and the site construction is forbidden; therefore, the method is very convenient and instructive, and operators do not need to judge whether the site meets the construction conditions according to weather, so that the potential safety hazard is reduced, and the unified planning and management of enterprises on employees are promoted. Within the scope of recognition of the skilled person, the displayed content may be varied, or may be directly displayed with a mark or symbol that is customary in the art, as long as the operator can recognize the result at a glance and is not prone to misoperation. Specifically, after the application server obtains the health analysis result, the application server queries the database according to the GPS data to obtain a target construction operation data table record, and then sends a station message and a short message notice to the construction manager. And under the condition that the on-site weather does not accord with the construction conditions, the alarm mode can be used for giving an emphatic prompt.

It should be understood that the above-described embodiments of the present invention are merely examples for clearly illustrating the present invention and are not intended to limit the embodiments of the present invention. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. This need not be, nor should it be exhaustive of all embodiments. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention should be included in the protection scope of the claims of the present invention.

Claims (7)

1. A safety early warning method for a power distribution construction site based on weather monitoring is characterized by comprising the following specific steps:

a) Deploying a weather monitoring device on site;

b) Sensing field environment temperature and humidity information and acquiring position information at regular time by using a weather monitoring device;

c) The weather monitoring device transmits the temperature and humidity information and the position information of the site environment to the server;

d) The server inquires local weather information through a network;

e) The server combines and analyzes the temperature and humidity information of the site environment and the local weather information to obtain the site weather information, and outputs the result of whether the site weather information meets the construction conditions;

when the data server in the step e) receives the field weather information sent by the application server, the field weather information is imported into a power distribution construction field weather health model for analysis, an identification result is obtained and output, and the result is returned to the application server for processing;

the distribution construction site weather health model is obtained by collecting a large amount of site weather information, then performing big data analysis and then establishing;

f) The server informs the administrator of the result of whether the on-site weather information meets the construction conditions;

g) The server stores the on-site weather information data to enrich the data warehouse;

the servers in the steps d) to g) comprise an application server, an algorithm server and a data server.

2. The weather monitoring-based power distribution construction site safety early warning method according to claim 1, wherein in the step b), temperature and humidity information of a site environment is monitored regularly by using a temperature and humidity sensor in a weather monitoring device.

3. The weather monitoring-based power distribution construction site safety early warning method according to claim 1, wherein in the step b), a GPS positioning device in a weather monitoring device is used for acquiring the position information.

4. The weather monitoring-based power distribution construction site safety early warning method according to claim 1, wherein in the step c), the wireless transmission module in the weather monitoring device is used for transmitting the site environment temperature and humidity information and the position information to the server through a wireless network.

5. The weather monitoring-based power distribution construction site safety early warning method as claimed in claim 1, wherein in the step d), the application server is used for interacting with data of the front end, and local weather information corresponding to a front end GPS is inquired through a plug-in.

6. The weather monitoring-based power distribution construction site safety early warning method as claimed in claim 1, wherein the step g) stores the original data of the on-site weather information by using a distributed installation database of data servers.

7. The weather monitoring-based power distribution construction site safety early warning method as claimed in claim 5 or 6, wherein the application server in the step f) issues the result of whether the site weather information meets the construction conditions to the APP and/or notifies an administrator through a short message.

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