WO2017219357A1

WO2017219357A1 - Method and system for monitoring power supply and distribution safety

Info

Publication number: WO2017219357A1
Application number: PCT/CN2016/087064
Authority: WO
Inventors: 李光煌; 罗辉; 郭琳; 苏明珠; 莫伟雄; 韩仲亮; 李刘海; 李耀军; 钟志威
Original assignee: 深圳市赛亿科技开发有限公司
Priority date: 2016-06-24
Filing date: 2016-06-24
Publication date: 2017-12-28
Also published as: CN108028548A

Abstract

The invention discloses a method and system for monitoring power supply and distribution safety. The method comprises: communicating with a sensing terminal distributed in an electrical cabinet on an electrical circuit to obtain monitoring data of the electrical circuit transmitted by the sensing terminal, and integrating and processing the monitoring data of the electrical circuit to obtain operation data of the electrical circuit; monitoring the operation data of the electrical circuit, and generating a risk index and an alarm notification of the electrical circuit; and obtaining a notification manner according to a risk level of the risk index, and transmitting, according to the notification manner, the alarm notification to a user terminal monitoring the electrical circuit. The system for monitoring power supply and distribution safety matches the method. According to the method and the system, a user is notified in a different manner according to the severity of a risk, so that the user can quickly obtain the risk severity of an alarm when receiving an alarm notification.

Description

Power supply and distribution safety monitoring method and system

Technical field

The present invention relates to the field of Internet application technologies, and in particular, to a power supply and distribution security monitoring method and system.

Background technique

Each power plant transmits electricity to each household through electrical lines. In order to ensure the safety of electricity, each power plant needs to conduct safety monitoring of electrical circuits. The existing monitoring method generally sets an intelligent module in an electrical cabinet on an electric line, and the intelligent module performs an alarm in the event of a fire or other danger. However, the function of the intelligent module is relatively simple, and the alarm mode is relatively simple. For example, when the leakage current of the electrical circuit is detected, regardless of the leakage current, the same alarm mode is used for alarming, and the severity of the leakage current cannot be notified to the monitoring. The personnel, lack of pertinence, makes it impossible for the monitoring personnel to quickly know the severity of the dangerous situation after receiving the alarm, and it is unable to effectively take targeted measures.

Summary of the invention

Based on this, the present invention provides a power supply and power security monitoring method, which can notify a user in different notification manners according to the severity of the risk, so that the user can quickly know the severity of the alarm when receiving the alarm notification.

Based on this, the present invention further provides a power distribution security monitoring system, which can notify the user in different notification manners according to the severity of the risk, so that the user can quickly know the severity of the alarm when receiving the alarm notification. .

The invention provides a security monitoring method for power supply and distribution, comprising:

Obtaining electrical line monitoring data transmitted by the sensing terminal by communicating with the sensing terminal distributed in the electrical cabinet on the electrical line, and integrating the processing of the electrical line monitoring data to obtain operating data of the electrical line;

Monitoring the operational data of the electrical circuit to generate a risk index and an alarm notification for the electrical line;

Obtaining the notification manner according to the risk level in which the risk index is located, and transmitting the alarm notification to the user terminal monitoring the electrical line according to the notification manner.

Further, after the step of integrating the electrical line monitoring data to obtain operational data of the electrical circuit, the method includes:

The operational data of the electrical line is transmitted to a user terminal monitoring the electrical line, and the operational data is displayed at the user terminal by transmission of the operational data.

Further, after the step of monitoring the operational data of the electrical circuit to generate a risk index and an alert notification of the electrical circuit, the method includes:

Obtaining an item display content of the electrical line according to a level of the risk index, and displaying a content formation list by an entry of the electrical line;

A communication identifier is added to the entry of the electrical line in the list, and the communication identifier is linked to a corresponding communication address according to a notification manner corresponding to the communication identifier, the communication address corresponding to a user terminal monitoring the electrical line.

Further, after the step of obtaining the item display content of the electric circuit according to the high and low order of the risk index, after the step of displaying the content forming list by the item of the electric line, the method includes:

Selecting an entry by an entry selection operation triggered by the list;

The risk index of the corresponding electrical line is obtained according to the historical period of the selected item configuration, and displayed.

Further, the step of obtaining the notification manner according to the risk level in which the risk index is located, and sending the alarm notification to the user terminal monitoring the electrical line according to the notification manner includes:

According to the corresponding relationship between the risk level and the risk index, the risk level at which the risk index is located is obtained from a preset plurality of risk levels;

Obtaining a notification manner according to the correspondence between the risk level and the notification mode and the risk level at which the risk index is located;

The alert notification is sent to the user terminal monitoring the electrical line using the notification method.

The invention further provides a power supply and safety monitoring system, comprising:

a data platform, which communicates with a sensing terminal distributed in an electrical cabinet on the electrical line, obtains electrical line monitoring data transmitted by the sensing terminal, and integrates processing the electrical line monitoring data to obtain operating data of the electrical line;

a monitoring station that monitors operational data of the electrical circuit to generate a risk index and an alarm notification of the electrical line;

The notification platform sends the alert notification to the user terminal that monitors the electrical line according to the notification mode according to the risk level at which the risk index is located.

Further, the system further includes a sensing terminal, and the sensing terminal includes:

a plurality of sensors for collecting electrical parameters of the electrical circuit;

a controller electrically coupled to the plurality of sensors and controlling the sensing terminal to communicate with the data platform;

A communication module is configured to communicate with the data platform and transmit electrical line monitoring data collected by the sensor to the data platform.

Further, the data platform is further configured to send operation data of the electrical line to a user terminal that monitors the electrical line, and display the operation data on the user terminal by sending the operation data.

Further, the monitoring station is further used to:

And adding, in the list, a communication identifier to an entry of the electrical line, and linking the communication identifier to a corresponding communication address according to a notification manner corresponding to the communication identifier, where the communication address corresponds to a user terminal that monitors the electrical line.

Further, the monitoring station is further used to:

Selecting an entry by an entry selection operation triggered by the list;

Further, the notification platform is further used to:

Compared with the prior art, the present invention has the following beneficial effects:

The technical solution of the invention obtains the operation data of the electric line by obtaining the electric line monitoring data and processing the electric line monitoring data, monitoring the operation data of the electric line and generating the electric line The risk index and the alert notice of the road are notified according to the risk level at which the risk index is located, and the alert notification is sent to the user terminal monitoring the electrical line according to the notification manner, and the technical solution of the present invention can be based on the level of the risk level. Different notification methods inform the user that the user can quickly know the severity of the alarm when receiving the alarm notice, so as to take corresponding measures as soon as possible to release the danger.

DRAWINGS

1 is a schematic illustration of an implementation environment in accordance with the present invention.

2 is a flow chart of a method for monitoring power supply and distribution security according to an embodiment of the present invention.

3 is a flow chart of a method for monitoring power supply and distribution security in another embodiment of the present invention.

4 is a flow chart of a method for monitoring power supply and distribution security in another embodiment of the present invention.

FIG. 5 is a flowchart of a method for transmitting an alert notification to a user terminal of a monitoring electrical line according to a notification manner according to a hierarchical notification manner in which the risk index is located.

FIG. 6 is a schematic structural diagram of a power supply and distribution safety monitoring system according to an embodiment of the present invention.

FIG. 7 is a schematic structural diagram of a power supply and distribution safety monitoring system according to another embodiment of the present invention.

Figure 8 is a block diagram showing the structure of a power supply and distribution safety monitoring system in a specific embodiment.

detailed description

Exemplary embodiments embodying the features and advantages of the present invention will be described in detail in the following description. It is to be understood that the invention is capable of various modifications in the various embodiments and this invention.

1 is a schematic illustration of an implementation environment in accordance with the present invention. The implementation environment includes a sensing terminal 110, at least one server 120, and a user terminal 130. The sensing terminal 110 communicates with the server 120 via the mobile internet. The user terminal 130 communicates with the server 120 via the mobile internet or the Internet.

It should be noted that the server 120 is used to construct a platform for interacting with the sensing terminal 110 and the user terminal 130 respectively. The server 120 may be a single server device or a server cluster composed of a plurality of server devices, which is not limited herein and will be set up according to actual operation requirements.

The number of the sensing terminals 110 may be multiple, and are respectively disposed in the electrical circuit for power supply and distribution. Each electrical circuit may also be divided into multiple segments by the electrical cabinet, and each of the electrical circuits is also provided with the sensing terminal 110. .

Specifically, a plurality of sensors are disposed in the electrical cabinet of the electrical circuit for monitoring parameters such as residual current, current, temperature, and power consumption of the electrical circuit. 2 is a flow chart of a method for monitoring power supply and distribution security according to an embodiment of the present invention. The scope of application and the execution subject of the power distribution security monitoring method may be the server 120 of the implementation environment as shown in FIG. 1. As shown in FIG. 2, the power distribution security monitoring method is performed by the server 120, and may include the following steps:

Step 210: Obtain electrical line monitoring data transmitted by the sensing terminal by communicating with the sensing terminal distributed in the electrical cabinet on the electrical circuit, and integrate the processing of the electrical line monitoring data to obtain the operating data of the electrical circuit.

As mentioned above, the electrical terminals are distributed with sensing terminals, and a plurality of electrical cabinets are arranged on the electrical lines to divide the electrical circuits into multiple segments.

A plurality of electrical cabinets distributed over the electrical lines are used to distribute, control, meter, and protect the electrical components disposed in the cabinet, for example, to protect the electrical cabinets disposed in the electrical cabinet as shown in FIG. Sensing terminals in the environment.

Each sensing terminal includes a plurality of sensors, controllers, and communication modules, which may include leakage current sensors, current sensor temperature sensors, and digital sensors.

Among them, the leakage current sensor is used to monitor the residual current of the electric line in real time; the current sensor is used to monitor the electric line current in real time; the temperature sensor is used to monitor the temperature in real time; and the digital sensor is used to obtain the power consumption.

Through the process as described above, the sensing terminal can obtain the electric line monitoring data, and then transmit the electric line monitoring data through the mobile internet.

It should be noted that monitoring the data through the electrical circuit can realize the monitoring of the electrical circuit and even a certain electrical circuit.

The server 120 receives the electrical line monitoring data transmitted by the sensing terminal through the mobile internet, and integrates the electrical line monitoring data to obtain the operating data of the electrical circuit. The electrical line monitoring data is the original data collected by each sensor. The operation data is an electrical parameter and a temperature of an electrical circuit obtained by processing the original data, and the electrical parameter may include parameters such as current, residual current, and electric quantity. The user knows the operating status of the electrical line through the operational data.

In step 230, the operational data of the electrical line is monitored to generate a risk index and an alarm notification for the electrical line.

The execution body of the step 230 may be the execution body of the step 210, or may be an execution body different from the step 210. That is to say, the server performing step 230 may be the same as the server performing step 210, and vice versa.

When the execution body of step 230 is different from the execution body of step 210, the two execution bodies may communicate in a wireless or wired manner.

The risk index is based on operational data and is used to measure the severity of the electrical line risk. The higher the risk index, the greater the risk. Conversely, the lower the risk.

The alarm notification is generated when the abnormality of the operation data of the electric circuit is detected, and is content information for notifying the user of the alarm condition of the terminal. The alert notification can be text information or voice information.

Through this step 230, the operating condition of the electrical line can be monitored, and the risk index of the electrical line is generated based on the operational data, and when an abnormality is detected, a corresponding alarm notification is generated.

Step 250: Obtain a notification manner according to the risk level where the risk index is located, and send an alarm notification to the user terminal that monitors the electrical line according to the notification manner.

The execution body of the step 250 may be the same as the execution body of step 210 or step 230, or may be different, that is, the foregoing three steps may be performed by the same server or by three different servers.

The risk level is the level used to indicate the severity of the risk. The higher the risk level, the greater the risk, the lower the risk level, and the lower the risk.

Each risk level corresponds to a notification method. The higher the risk level, the corresponding relationship between the risk level and the notification method can be determined according to the importance degree of the notification method. For example, the notification method includes a telephone notification method, a short message notification method, an email notification method, and The notification method of the system pop-up window, wherein the telephone notification method is of the highest importance, the short message notification method is second, the mail notification method is the third, and the system pop-up window has the lowest notification method.

If the risk index reaches a certain risk level, a corresponding warning notice is generated according to the risk level at which the risk index is located.

As described above, the alert notification can be text information or voice information. The content form of the alert notification can be appropriately changed according to the notification method, for example, when the risk index is located When the risk level is the highest, the user terminal is notified by telephone notification, and the alarm notification is voice information.

Through the above step 250, the user terminal can be notified according to the risk level at which the risk index is located by using a corresponding notification manner.

In summary, the technical solution of the present invention obtains the operation data of the electric line by obtaining the electric line monitoring data and processing the electric line monitoring data, monitors the operation data of the electric line, and generates the risk index and the alarm notice of the electric line, according to the risk. The risk level at which the index is located is notified by the notification method, and the alarm notification is sent to the user terminal monitoring the electrical line according to the notification manner. The technical solution of the present invention can notify the user in different notification manner according to the level of the risk level, so that the user receives When the police notice is notified, the risk severity of the police can be quickly learned, so as to take corresponding measures as soon as possible to relieve the danger.

In addition, because the preset risk level is multi-layered, different levels represent different risk severity, so that when the electrical line risk is at low risk and has not developed to high risk, the user has received the warning notice. Play a role in early warning, reducing the chance of security risks.

In one embodiment, the power distribution security monitoring method is used in the server 120 of the implementation environment as shown in FIG. After step 210, the power distribution security monitoring method may include the following steps:

The operational data of the electrical line is transmitted to the user terminal monitoring the electrical line, and the operational data is displayed on the user terminal by the transmission of the operational data.

The server 120 transmits the obtained operation data to the user terminal, and the user terminal receives the operation data and displays it. This operational data can be displayed in the form of a list or chart.

In addition, the server 120 may also generate a periodic list based on the operational data and send the periodic list to the user terminal.

3 is a flow chart of a method for monitoring power supply and distribution security in another embodiment of the present invention. After step 230, the above power supply and distribution security monitoring method may include the following steps:

Step 310: Obtain an item display content of the electric line according to the order of the risk index, and display the content formation list through the item of the electric line.

The execution body of this step 310 is the same as the execution body of the above step 210.

The item display content refers to the identifier used to indicate the identity information of the electric line, and the identifier may be the name of the electric line or the name of the power plant to which the electric line belongs, that is, the power plant where the electric cabinet is located. Each electrical line corresponds to an item display content.

The list includes a plurality of entries, each of which includes an entry display content.

In this step, the obtained item display contents of each electric line are formed into a list in the order of the risk index, that is, the identification of each electric line is arranged in the order of the risk index in the corresponding item in the list.

Step 330: Add a communication identifier to the entry of the electrical line in the list, and link the communication identifier to the corresponding communication address according to the notification manner corresponding to the communication identifier, the communication address corresponding to the user terminal monitoring the electrical line.

The execution body of this step 330 is the same as the execution body of the above step 210.

Under each entry in the list, a corresponding communication identifier is added such that each entry includes an entry display content and a communication identifier.

The communication identifier may be an icon indicating a communication mode. For example, when the communication identifier is a small icon of the telephone landline, the communication identifier corresponds to a telephone notification manner. Each icon corresponds to a notification method.

The communication address may be an email address for the email notification method, a telephone number for the telephone or short message notification method, or a network access address for the system pop-up notification method. The user terminal corresponding to the communication address that monitors the electrical line corresponds to the display content of the entry under the entry of the communication identifier.

Through this step 330, communication with the user terminal can be achieved when the corresponding communication identifier is triggered.

4 is a flow chart of a method for monitoring power supply and distribution security according to still another embodiment of the present invention. After step 310, the above power supply and distribution security monitoring method may include the following steps:

Step 410: Obtain a selected item by an item selection operation triggered by a trigger in the list.

The list includes a plurality of entries, and the user selects the corresponding entry by the item selection operation to trigger the risk index of the corresponding electrical line.

Step 430: Acquire a risk index of the corresponding electrical line according to a historical period of the selected item configuration, and display it.

The configured historical period refers to the length of the historical period preset by the system, for example, the length of one month.

The risk index of the obtained electrical line is the risk index generated by the electrical line corresponding to the selected item during the historical period.

These risk indices can be displayed on a chart with time on the horizontal axis. For example, the chart may be a histogram having a horizontal axis of time and a vertical axis of risk index.

Further, the execution bodies of the

above steps

410 and 430 may be identical to the execution body of step 230.

FIG. 5 is a flowchart of a method for transmitting an alert notification to a user terminal of a monitoring electrical line according to a notification manner according to a hierarchical notification manner in which the risk index is located. According to the level at which the risk index is obtained, the step of sending an alert notification to the user terminal of the monitoring electrical line according to the notification mode includes the following steps:

Step 351: Acquire a risk level at which the risk index is located from a preset plurality of risk levels according to the correspondence between the risk level and the risk index.

As mentioned above, the risk level includes multiple levels, and the levels are arranged in high and low levels. The higher the level, the greater the risk.

The risk level is preset, each risk level corresponds to a minimum risk index, and the corresponding relationship between the risk level and the risk index is determined according to whether the risk index reaches the minimum risk index corresponding to the risk level. For example, the risk level is divided into four layers, namely the first layer, the second layer, the third layer and the fourth layer. The risk of the first layer is the highest, the risk of the second layer is second, and the risk of the third layer is the third, fourth. The risk of the layer is the lowest. If the risk index reaches the minimum risk index of the third layer and is smaller than the minimum risk index of the second layer, the corresponding relationship between the risk index and the second level of risk is established.

It should be noted that when the risk index needs to reach the minimum risk index of the lowest risk level, the corresponding risk level can be obtained. In other words, when the value of the risk index is low, indicating that the electrical line is in normal operation, this situation does not require an alarm.

When the risk index exceeds the minimum risk index of one of the risk levels, the risk level corresponding to the risk index is obtained. Generally speaking, the higher the risk index, the higher the corresponding risk level.

Step 352: Obtain a notification manner according to the correspondence between the risk level and the notification mode and the risk level at which the risk index is located.

As described above, each risk level corresponds to a notification mode, and a notification manner corresponding to the risk level is obtained according to the corresponding relationship between the risk level and the risk index.

Step 353, using the notification mode to send an alarm notification to the user terminal monitoring the electrical line.

FIG. 6 is a schematic structural diagram of a power supply and distribution security monitoring system according to an embodiment of the present invention. The power distribution security monitoring system structure includes a data platform 610, a monitoring station 630, and a notification platform. 650, the data platform 610, the monitoring station 630, and the notification platform 650 can each be the server 120 of the implementation environment as shown in FIG. 1, that is, the data platform 610, the monitoring station 630, and the notification platform 650 can each be a single server. The data platform 610 is connected to the monitoring station 630 by wire or wirelessly, and the monitoring station 630 is connected to the notification platform 650 by wire or wirelessly.

As shown in FIG. 6, the system includes, but is not limited to, a data platform 610, a monitoring station 630, and a notification platform 650, where:

a data platform 610, which communicates with a sensing terminal distributed in an electrical cabinet on an electrical line, obtains electrical line monitoring data transmitted by the sensing terminal, and integrates processing of the electrical line monitoring data to obtain operational data of the electrical line;

Monitoring station 630, which monitors the operational data of the electrical line to generate a risk index and an alarm notification of the electrical line;

The notification platform 650 obtains the notification manner according to the level at which the risk index is located, and sends an alarm notification to the user terminal of the monitoring electrical line according to the notification manner.

FIG. 7 is a schematic structural diagram of a power supply and distribution security monitoring system in another embodiment of the present invention. The power distribution security monitoring system further includes a sensing terminal 110 including a plurality of sensors 111, a controller 113, and a communication module 115. Only three sensors are exemplarily shown in FIG. 7, but are not Limited to Figure 7, the number of sensors can be more, of which:

As described above, the plurality of sensors 111 may be a leakage current sensor, a current sensor, a temperature sensor, and a digital sensor for acquiring power consumption for collecting electrical parameters of the electrical circuit.

The controller 113 can be a microcontroller, a DSP, or the like.

The communication module 115 can be a GSM module, a GPRS module, a CDMA module, a WCDMA module, or the like.

The controller 113 is electrically connected to each of the sensors 111 and the communication module 115, respectively, and controls the communication module 115 to communicate.

The communication module 115 communicates with the data platform 610 and transmits the monitoring data collected by each sensor 111 to the data platform 610.

In an embodiment, the data platform is further configured to transmit operational data of the electrical circuit to the user terminal monitoring the electrical line, and display the operational data at the user terminal by transmitting the operational data.

In an embodiment, the monitoring station is further configured to:

Obtain the contents of the entry of the electrical line according to the order of the risk index, through the electrical line The entry shows a list of content formations;

A communication identifier is added to the entry of the electrical line in the list, and the communication identifier is linked to the corresponding communication address according to the notification manner corresponding to the communication identifier, and the communication address corresponds to the user terminal of the monitoring electrical line.

In an embodiment, the monitoring station is further configured to:

The selected entry is obtained by an entry selection operation triggered by a list;

Obtain the risk index of the corresponding electrical line according to the historical period of the selected item configuration and display it.

In an embodiment, the notification platform is further used to:

According to the corresponding relationship between the risk level and the notification method and the risk level at which the risk index is located, the notification method is obtained;

The above-mentioned power supply and distribution safety monitoring system will be described in detail below in conjunction with a specific embodiment. As shown in FIG. 8, it is a schematic structural diagram of a power supply and safety monitoring system in a specific embodiment. In this embodiment, the power distribution security monitoring system includes a sensing terminal 110, a power security management platform 600, and a user terminal 130. The sensor terminal 110 is connected to the power security management platform 600 via the mobile Internet, and the power security management platform 600 is connected to the user terminal 130 via the Internet or the mobile Internet.

The sensing terminal 110 includes a sensor 111 for monitoring the electrical safety condition of the electrical line 114, a digital meter 116 for obtaining power usage, and a communication component 112.

In FIG. 8, only one sensor 111 is exemplarily shown, but is not limited to FIG. 8. The sensor 111 may be plural. As described above, the sensor includes a leakage current sensor, a current sensor, and a temperature. Sensors, etc., which are typically placed in electrical cabinets. These sensors monitor the operating conditions of the electrical lines in real time and transmit the collected residual current, current, temperature and other monitoring data to the communication component 112.

The digital electricity meter 116 obtains power consumption (i.e., electrical energy consumed on the electrical line) by a digital sensor disposed therein, and transmits the power consumption to the communication component 112.

In addition, the above temperature sensor can adopt a wireless temperature sensor, and the wireless temperature sensor is installed at a temperature measurement point in the electrical cabinet, and the temperature value is contact-contacted, and converted into a digital signal, and the data is wirelessly transmitted to the electric safety management platform 600.

Through the above sensors and digital electricity meters, the amount of electricity, temperature, and temperature of the electric circuit can be obtained. And the amount of electricity used, etc.

In this embodiment, the controller and communication module described above are disposed within a communication component 112. The controller controls the transceiving of the communication module such that the monitoring data transmitted to the communication component 112 is transmitted to the power security management platform 600 through the communication module.

The power security management platform 600 includes a data platform 610, a monitoring station 630, and a notification platform 650. The data platform 610 receives the monitoring data transmitted by the communication component 112 and processes the monitoring data to obtain operational data of the electrical circuit, and transmits the operational data of the electrical circuit to the monitoring station 630.

The monitoring station 630 generates a risk index for the electrical line by monitoring the operational data of the electrical line, and if the risk index reaches the risk level, sends an alert notification to the notification platform 650.

The notification platform 650 obtains a corresponding notification manner according to the risk level at which the risk index is located, and the notification manner may be a telephone notification method, a short message notification method, an email notification method, or a system pop-up notification manner. The higher the risk level at which the risk index is located, the greater the risk, and each risk level corresponds to a notification method. The alarm notification is notified to the user terminal 130 of the monitoring electrical line according to the notification manner corresponding to the risk level of the risk index. If the user terminal 130 is a mobile terminal, the user terminal 130 is notified by a telephone notification method or a short message notification method. If the user terminal 130 is a computer device that is inconvenient to move, such as a desktop computer, the user terminal 130 is notified by an email notification method or a notification method of a system popup window.

In addition, the data platform 610 can send the operational data to the user terminal 130 via the Internet or the mobile internet in addition to transmitting the operational data to the monitoring station 630.

In addition, the data platform 610 also periodically generates operational reports (eg, operational data regarding power usage) for periodic reports and sends the periodic reports to the user terminal 130.

The above system realizes the remote monitoring of the safety hazard of the electric line, and notifies the user terminal by using the corresponding notification manner according to the severity of the risk, so that the power operation management department using the user terminal can quickly judge the serious risk of the electric line according to the notification manner. To this extent, take appropriate measures to promptly check for potential safety hazards and ensure electrical safety.

In addition, the system realizes remote automatic meter reading, which is convenient for users to know the power consumption, so as to propose energy-saving measures and reduce the cost of electricity.

In addition, the monitoring station can also send the risk index and warning notice of the electric line to the third-party fire service window to check for potential safety hazards.

In summary, the above system constructs a system for data security, visualization and practical use of electricity. It can promptly warn of electrical safety hazards, notify the operation and management department in advance to check for potential safety hazards, reduce the occurrence of electrical safety accidents, and reduce the incidence of electrical fires.

While the invention has been described with respect to the preferred embodiments the embodiments The present invention may be embodied in a variety of forms without departing from the spirit or scope of the invention. It is to be understood that the invention is not limited to the details of the invention. All changes and modifications that come within the scope of the claims or the equivalents thereof are intended to be covered by the appended claims.

Claims

A method for monitoring power supply and distribution security, characterized in that it comprises:

Obtaining electrical line monitoring data transmitted by the sensing terminal by communicating with the sensing terminal distributed in the electrical cabinet on the electrical line, and integrating the processing of the electrical line monitoring data to obtain operating data of the electrical line;

Monitoring the operational data of the electrical circuit to generate a risk index and an alarm notification for the electrical line;

Obtaining the notification manner according to the risk level in which the risk index is located, and transmitting the alarm notification to the user terminal monitoring the electrical line according to the notification manner.
The method of claim 1 wherein after said step of integrating said electrical line monitoring data to obtain operational data of said electrical circuit, said method comprising:

The operational data of the electrical line is transmitted to a user terminal monitoring the electrical line, and the operational data is displayed at the user terminal by transmission of the operational data.
The method of claim 1 wherein said step of monitoring said operational data of said electrical circuit to generate a risk index and an alert notification of said electrical circuit comprises:

Obtaining an item display content of the electrical line according to a level of the risk index, and displaying a content formation list by an entry of the electrical line;

A communication identifier is added to the entry of the electrical line in the list, and the communication identifier is linked to a corresponding communication address according to a notification manner corresponding to the communication identifier, the communication address corresponding to a user terminal monitoring the electrical line.
The method according to claim 3, wherein said obtaining an item display content of said electric line in accordance with a level of said risk index, said step of displaying a content formation list by said item of said electric line, said Methods include:

Selecting an entry by an entry selection operation triggered by the list;

The risk index of the corresponding electrical line is obtained according to the historical period of the selected item configuration, and displayed.
The method according to claim 1, wherein the step of obtaining the notification manner according to the risk level in which the risk index is located, and transmitting the alert notification to the user terminal monitoring the electrical line according to the notification manner include:

According to the corresponding relationship between the risk level and the risk index, the risk level at which the risk index is located is obtained from a preset plurality of risk levels;

Obtaining a notification manner according to the correspondence between the risk level and the notification mode and the risk level at which the risk index is located;

The alert notification is sent to the user terminal monitoring the electrical line using the notification method.
A power supply and distribution security monitoring system, characterized in that it comprises:

a data platform, which communicates with a sensing terminal distributed in an electrical cabinet on the electrical line, obtains electrical line monitoring data transmitted by the sensing terminal, and integrates processing the electrical line monitoring data to obtain operating data of the electrical line;

a monitoring station that monitors operational data of the electrical circuit to generate a risk index and an alarm notification of the electrical line;

The notification platform sends the alert notification to the user terminal that monitors the electrical line according to the notification mode according to the risk level at which the risk index is located.
The system of claim 6 wherein the system further comprises a sensing terminal, the sensing terminal comprising:

a plurality of sensors for collecting electrical parameters of the electrical circuit;

a controller electrically coupled to the plurality of sensors and controlling the sensing terminal to communicate with the data platform;

A communication module is configured to communicate with the data platform and transmit electrical line monitoring data collected by the sensor to the data platform.
The system according to claim 6, wherein said data platform is further configured to transmit operational data of said electrical line to a user terminal monitoring said electrical line, said transmission of said operational data at said user terminal The operational data is displayed.
The system of claim 6 wherein said monitoring station is further configured to:

Obtaining an item display content of the electrical line according to a level of the risk index, and displaying a content formation list by an entry of the electrical line;

And adding, in the list, a communication identifier to an entry of the electrical line, and linking the communication identifier to a corresponding communication address according to a notification manner corresponding to the communication identifier, where the communication address corresponds to a user terminal that monitors the electrical line.
The system of claim 9 wherein said monitoring station is further configured to:

Selecting an entry by an entry selection operation triggered by the list;

Obtaining a risk index of the corresponding electrical line according to a historical period of the selected item configuration, and displaying Show.
The system of claim 6 wherein said notification platform is further for:

According to the corresponding relationship between the risk level and the risk index, the risk level at which the risk index is located is obtained from a preset plurality of risk levels;

Obtaining a notification manner according to the correspondence between the risk level and the notification mode and the risk level at which the risk index is located;

The alert notification is sent to the user terminal monitoring the electrical line using the notification method.