CN212160879U - Electric power fire monitoring system - Google Patents

Abstract

The utility model discloses an electric power fire monitored control system, including receiving terminal, wisdom power consumption monitoring platform, wisdom gateway, electric fire detector, earth leakage mutual-inductor, load end and earth leakage protection switch, earth leakage protection switch's live wire L1 output electric connection has first temperature sensor's input, and first temperature sensor's output electric connection has first current transformer's input, earth leakage protection switch's live wire L2 output electric connection has second temperature sensor's input, and second temperature sensor's output electric connection has second current transformer's input, earth leakage protection switch's live wire L3 output electric connection has third temperature sensor's input. The utility model discloses can carry out automatic investigation to electric power system's electric fire, the effectual emergence of preventing the conflagration to can give the person in charge with electric power system's abnormal data real-time propelling movement, be favorable to carrying out in time maintenance.

Description

Electric power fire monitoring system

Technical Field

The utility model relates to an electric power conflagration control technical field especially relates to an electric power conflagration monitored control system.

Background

The building power system is mainly used for meeting the power consumption of daily life, production, education and the like, and electric energy is dispersedly transmitted to each office building, production workshop and dormitory through a transformer and each stage of distribution box; in the transmission process, due to the reasons of interference of different load equipment, line aging, overlarge load, lightning stroke and the like, electrical fire hazards are easily caused, and most of electrical fires are caused by distribution boxes at all levels.

At present, most of buildings still stop manual investigation and post investigation (namely a mode of processing after problems appear) for the fire hazard investigation of each distribution box in an electric power system, the investigation on the electrical fire hazard is not comprehensive enough, the response time is not fast enough, and labor and time are wasted, so that the electric power fire monitoring system is provided.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the shortcomings existing in the prior art and providing an electric power fire monitoring system.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides an electric power fire monitoring system, includes receiving terminal, wisdom power consumption monitoring platform, wisdom gateway, electric fire detector, earth leakage mutual-inductor, load end and earth leakage protection switch, earth leakage protection switch's live wire L1 output electric connection has first temperature sensor's input, first temperature sensor's output electric connection has first current transformer's input, earth leakage protection switch's live wire L2 output electric connection has second temperature sensor's input, second temperature sensor's output electric connection has second current transformer's input, earth leakage protection switch's live wire L3 output electric connection has third temperature sensor's input, third temperature sensor's output electric connection has third current transformer's input, first current transformer's output, second current transformer's output and third current transformer's output respectively with earth leakage mutual-inductor's corresponding live wire L1 input, The input end of a live wire L2 is electrically connected with the input end of a live wire L3, the input end of a zero line N of the leakage mutual inductor is electrically connected with the output end of a zero line N of the leakage protection switch, and the output ends of the live wire L1, the L2, the L3 and the N of the zero line of the leakage mutual inductor are respectively electrically connected with the input ends of a live wire L1, a live wire L2, a live wire L3 and the N of a zero line corresponding to the load ends;

the current monitoring data output end of the first current transformer, the current monitoring data output end of the second current transformer and the current monitoring data output end of the third current transformer are electrically connected with the same electric fire detector, the electric fire detector is also electrically connected with the temperature data output end of the first temperature sensor, the temperature data output end of the second temperature sensor and the temperature data output end of the third temperature sensor, the electric fire detector is electrically and data-connected with the intelligent gateway through a network cable, the electric fire detector is in bidirectional data transmission with the intelligent power consumption monitoring platform through the intelligent gateway, and the intelligent power consumption monitoring platform is electrically connected with a receiving end through the network cable or a 4G network;

the intelligent power consumption monitoring platform comprises an online monitoring module used for receiving data transmitted by an electrical fire detector, the online monitoring module is electrically connected with an implementation data module used for displaying and regularly acquiring electrical fire monitoring data, the implementation data module is electrically connected with a historical data module, the historical data module is used for conveniently filtering the required electrical fire historical monitoring data through query conditions and supporting that the query result is led out of Excel for storage, multi-dimensional flexible configuration query is supported, the implementation data module is also electrically connected with a trend analysis module, the trend analysis module is used for drawing a comparison curve graph according to the real-time data transmitted by the implementation data module and supporting that a curve and a histogram are directly switched and checked, the online monitoring module is also electrically connected with a synchronous transmitting module and is electrically connected with an implementation warning module and a historical warning module through the synchronous transmitting module, the implementation warning module is electrically connected with an information pushing module, the information pushing module is electrically connected with a trend analysis module, the history warning module can conveniently filter required electric fire history alarm data through a query condition, in addition, the support that the query result is exported to Excel for storage is realized, the support of multidimensional flexible configuration query is realized, the history warning module is electrically connected with an information calling module, the information calling module is also electrically connected with a history data module, in addition, the information calling module is wirelessly connected and controlled by a receiving end, and the receiving end is also wirelessly connected with the output end of the information pushing module.

Preferably, the receiving end is a mobile phone end or a PC end.

Preferably, the receiving end calls the data of the history warning module through the information calling module and displays the data at the receiving end, and the receiving end calls the data of the history data module through the information calling module and displays the data at the receiving end.

Preferably, the curve generated by the trend analysis module is sent to the receiving end through the information push module, and is displayed at the receiving end.

Preferably, the implementation warning module receives the abnormal information sent by the online monitoring module, that is, the information pushing module adds the total number of electrical fire alarms on the page of the mobile phone terminal, and displays specific alarm content and performs classified statistics on the alarm information on the real-time alarm page.

Preferably, the history warning module is used for storing the abnormal information sent by the online monitoring module.

The utility model discloses can carry out automatic investigation to electric power system's electric fire, the effectual emergence of preventing the conflagration to can give the person in charge with electric power system's abnormal data real-time propelling movement, be favorable to carrying out in time maintenance.

Drawings

Fig. 1 is a system block diagram of an electric fire monitoring system according to the present invention;

fig. 2 is the utility model provides a system block diagram of intelligent power consumption monitoring platform among electric power fire monitored control system.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

Referring to fig. 1-2, an electric power fire monitoring system, including the receiving terminal, wisdom power consumption monitoring platform, wisdom gateway, electric fire detector, the earth leakage mutual inductor, load end and earth leakage protection switch, the live wire L1 output electric connection of earth leakage protection switch has the input of first temperature sensor, the output electric connection of first temperature sensor has the input of first current transformer, the live wire L2 output electric connection of earth leakage protection switch has the input of second temperature sensor, the output electric connection of second temperature sensor has the input of second current transformer, the live wire L3 output electric connection of earth leakage protection switch has the input of third temperature sensor, the output electric connection of third temperature sensor has the input of third current transformer, the output of first current transformer, the output of second current transformer and the output of third current transformer are respectively with the live wire L1 power transmission that the earth leakage mutual inductor corresponds The input end, live wire L2 input and live wire L3 input electric connection, and the zero line N input of earth leakage mutual-inductor and the zero line N output electric connection of earth leakage protection switch, the live wire L1 output of earth leakage mutual-inductor, live wire L2 output, live wire L1 input that live wire L3 output and zero line N output correspond with the load end respectively, live wire L2 input, live wire L3 input and zero line N input electric connection, wherein first temperature sensor, second temperature sensor and third temperature sensor are used for respectively monitoring the live wire L1 output temperature of earth leakage protection switch, the live wire L2 output temperature of earth leakage protection switch and the live wire L3 output temperature of earth leakage protection switch, first current transformer, second current transformer and third current transformer are used for respectively monitoring the live wire L1 output end current of earth leakage protection switch, the live wire L2 output end current of earth leakage protection switch and the live wire L3 output end current of earth leakage protection switch carry out monitoring (ii) a

The current monitoring data output end of the first current transformer, the current monitoring data output end of the second current transformer and the current monitoring data output end of the third current transformer are electrically connected with the same electric fire detector, the electric fire detector is also electrically connected with the temperature data output end of the first temperature sensor, the temperature data output end of the second temperature sensor and the temperature data output end of the third temperature sensor, the electric fire detector is electrically and data-connected with the intelligent gateway through a network cable, the electric fire detector is in bidirectional data transmission with the intelligent power consumption monitoring platform through the intelligent gateway, and the intelligent power consumption monitoring platform is electrically connected with the receiving end through the network cable or a 4G network;

the intelligent power consumption monitoring platform comprises an online monitoring module for receiving data transmitted by an electrical fire detector, the online monitoring module is electrically connected with an implementation data module for displaying regularly acquired electrical fire monitoring data, the implementation data module is electrically connected with a historical data module, the historical data module is used for conveniently filtering the required electrical fire historical monitoring data through query conditions and supporting the query result to be exported to Excel for storage, multi-dimensional flexible configuration query is supported, the implementation data module is also electrically connected with a trend analysis module, the trend analysis module is used for drawing a comparison curve graph according to the real-time data transmitted by the implementation data module and supporting the curve and histogram to be directly switched and checked, the online monitoring module is also electrically connected with a synchronous transmitting module and is electrically connected with an implementation warning module and a historical warning module through the synchronous transmitting module, implement warning module electric connection and have information push module, and information push module still with trend analysis module electric connection, history warning module can be convenient the electric fire history alarm data that the filtration wanted through the inquiry condition, and support to derive Excel with the inquiry result and preserve, support the nimble configuration inquiry of multidimension degree, history warning module electric connection has information retrieval module, information retrieval module still with history data module electric connection, and information retrieval module passes through wireless connection and is controlled by the receiving terminal, the receiving terminal is the output wireless connection of information push module in addition, the utility model discloses can carry out automatic investigation to electric power system's electric fire, the effectual emergence of having prevented the conflagration, and can give responsible person with electric power system's unusual data real-time propelling movement, be favorable to carrying out timely maintenance.

In the utility model, the receiving end is a mobile phone end or a PC end, the receiving end retrieves the data of the history warning module through the information retrieval module and displays the data at the receiving end, the receiving end retrieves the data of the history data module through the information retrieval module and displays the data at the receiving end, the curve generated by the trend analysis module is sent to the receiving end through the information pushing module and is displayed at the receiving end, the implementation warning module receives the abnormal information sent by the online monitoring module, namely, the total number of electric fire alarms is increased on the page of the mobile phone end through the information pushing module, and the page displays the specific alarm content and the classified statistic alarm information at the real-time alarm, the history warning module is used for storing the abnormal information sent by the online monitoring module, the utility model can automatically check the electric fire of the electric power system, the fire disaster is effectively prevented, the abnormal data of the power system can be pushed to a responsible person in real time, and timely maintenance is facilitated.

In the utility model, because the first temperature sensor and the first current transformer are electrically connected in proper order between the live wire L1 output of earth leakage protection switch and the live wire L1 input of earth leakage mutual inductor, the first temperature sensor is used for monitoring the temperature data between the live wire L1 output of earth leakage protection switch and the live wire L1 input of earth leakage mutual inductor, and send the monitoring data to the electric fire detector, the first current mutual inductor is used for monitoring the current data between the live wire L1 output of earth leakage protection switch and the live wire L1 input of earth leakage mutual inductor, and send the monitoring data to the electric fire detector;

because a second temperature sensor and a second current transformer are sequentially and electrically connected between the output end of the live wire L2 of the leakage protection switch and the input end of the live wire L2 of the leakage transformer, the second temperature sensor is used for monitoring temperature data between the output end of the live wire L2 of the leakage protection switch and the input end of the live wire L2 of the leakage transformer and sending the monitoring data to the electrical fire detector, and the second current transformer is used for monitoring current data between the output end of the live wire L2 of the leakage protection switch and the input end of the live wire L2 of the leakage transformer and sending the monitoring data to the electrical fire detector;

because a third temperature sensor and a third current transformer are sequentially and electrically connected between the output end of the live wire L3 of the leakage protection switch and the input end of the live wire L3 of the leakage transformer, the third temperature sensor is used for monitoring the temperature data between the output end of the live wire L3 of the leakage protection switch and the input end of the live wire L3 of the leakage transformer and sending the monitoring data to the electrical fire detector, the third current transformer is used for monitoring the current data between the output end of the live wire L3 of the leakage protection switch and the input end of the live wire L3 of the leakage transformer and sending the monitoring data to the electrical fire detector, the electrical fire detector sends the received data to the online monitoring module through the intelligent gateway for processing, if the online monitoring module judges the data transmitted by the electrical fire detector to be normal, the online monitoring module sends the data to the implementation data module, the implementation data module is used for displaying the range (lower than a normal range, normal direction and higher than a normal range) of the monitoring data in three different areas according to the electrical fire monitoring data sent by the online monitoring module through an instrument panel, supporting multi-dimensional flexible configuration, switching and checking, transmitting the implementation data module to the historical data module for storage on one hand and to the trend analysis module on the other hand according to the electrical fire monitoring data sent by the online monitoring module, drawing a comparison curve graph according to real-time data transmitted by the implementation data module by the trend analysis module, transmitting the generated curve to a receiving end by the trend analysis module through the information pushing module, and transmitting the data to the implementation warning module by the online monitoring module through the synchronous transmitting module if the online monitoring module judges the data transmitted by the electrical fire detector to be abnormal, the implementation warning module increases the total number of electric fire alarms on a page of a mobile phone end through the information pushing module according to the abnormal information sent by the online monitoring module, displays specific alarm content and classifies and counts the alarm information on a real-time alarm page, and sends data to the historical warning module for storage through the synchronous sending module;

the responsible person utilizes the receiving terminal, and it can call the data of historical warning module through information calling module to show at the receiving terminal, and it can call the data of historical data module through information calling module to show at the receiving terminal.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (6)

1. The utility model provides an electric power fire monitored control system, includes receiving terminal, wisdom power consumption monitoring platform, wisdom gateway, electric fire detector, earth leakage mutual-inductor, load end and earth leakage protection switch, a serial communication port, earth leakage protection switch's live wire L1 output electric connection has first temperature sensor's input, and first temperature sensor's output electric connection has first current transformer's input, earth leakage protection switch's live wire L2 output electric connection has second temperature sensor's input, and second temperature sensor's output electric connection has second current transformer's input, earth leakage protection switch's live wire L3 output electric connection has third temperature sensor's input, and third temperature sensor's output electric connection has third current transformer's input, and first current transformer's output, second current transformer's output and third current transformer's output correspond with earth leakage mutual-inductor respectively and correspond the input of earth leakage mutual-inductor The input end of the live wire L1, the input end of the live wire L2 and the input end of the live wire L3 are electrically connected, the input end of the zero line N of the leakage mutual inductor is electrically connected with the output end of the zero line N of the leakage protection switch, and the output ends of the live wire L1, the live wire L2, the live wire L3 and the zero line N of the leakage mutual inductor are respectively electrically connected with the input end of the live wire L1, the input end of the live wire L2, the input end of the live wire L3 and the input end of the zero line N corresponding;

the current monitoring data output end of the first current transformer, the current monitoring data output end of the second current transformer and the current monitoring data output end of the third current transformer are electrically connected with the same electric fire detector, the electric fire detector is also electrically connected with the temperature data output end of the first temperature sensor, the temperature data output end of the second temperature sensor and the temperature data output end of the third temperature sensor, the electric fire detector is electrically and data-connected with the intelligent gateway through a network cable, the electric fire detector is in bidirectional data transmission with the intelligent power consumption monitoring platform through the intelligent gateway, and the intelligent power consumption monitoring platform is electrically connected with a receiving end through the network cable or a 4G network;

the intelligent power consumption monitoring platform comprises an online monitoring module used for receiving data transmitted by an electrical fire detector, the online monitoring module is electrically connected with an implementation data module used for displaying and regularly acquiring electrical fire monitoring data, the implementation data module is electrically connected with a historical data module, the historical data module is used for conveniently filtering the required electrical fire historical monitoring data through query conditions and supporting that the query result is led out of Excel for storage, multi-dimensional flexible configuration query is supported, the implementation data module is also electrically connected with a trend analysis module, the trend analysis module is used for drawing a comparison curve graph according to the real-time data transmitted by the implementation data module and supporting that a curve and a histogram are directly switched and checked, the online monitoring module is also electrically connected with a synchronous transmitting module and is electrically connected with an implementation warning module and a historical warning module through the synchronous transmitting module, the implementation warning module is electrically connected with an information pushing module, the information pushing module is electrically connected with a trend analysis module, the history warning module can conveniently filter required electric fire history alarm data through a query condition, in addition, the support that the query result is exported to Excel for storage is realized, the support of multidimensional flexible configuration query is realized, the history warning module is electrically connected with an information calling module, the information calling module is also electrically connected with a history data module, in addition, the information calling module is wirelessly connected and controlled by a receiving end, and the receiving end is also wirelessly connected with the output end of the information pushing module.

2. The system according to claim 1, wherein the receiving end is a mobile phone end or a PC end.

3. An electric fire monitoring system according to claim 1, wherein the receiving end retrieves the data of the historical warning module through the information retrieval module and displays the data at the receiving end, and the receiving end retrieves the data of the historical data module through the information retrieval module and displays the data at the receiving end.

4. The electric fire monitoring system according to claim 1, wherein the curve generated by the trend analysis module is sent to a receiving end through an information push module and displayed at the receiving end.

5. The electric power fire monitoring system according to claim 1, wherein the implementation warning module receives the abnormal information sent by the online monitoring module, that is, the information pushing module adds the total number of electric fire alarms on the page of the mobile phone, and displays specific alarm contents and classified statistical alarm information on the real-time alarm page.

6. The electric fire monitoring system according to claim 1, wherein the history warning module is configured to store the abnormality information sent by the online monitoring module.

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