CN218124394U - Block terminal remote monitering system based on limit cloud is in coordination - Google Patents

Abstract

The application discloses a distribution box remote monitoring system based on edge cloud cooperation, which comprises a distribution box and a cloud server; a plurality of detectors and a first main control unit are arranged in the distribution box, and the first main control unit controls an executing element in the distribution box to act according to real-time faults detected by the detectors; the cloud server is in communication connection with the first main control unit, obtains a fault prediction result according to a detection result of the detector, and controls an executing element in the distribution box to act according to the fault prediction result.

Description

Block terminal remote monitering system based on limit cloud is in coordination

Technical Field

The application relates to the technical field of monitoring and control, in particular to a distribution box remote monitoring system based on edge cloud cooperation.

Background

The distribution box is widely applied due to the characteristics of small volume, no limitation of places, simple and convenient installation, stable and reliable operation, high space utilization rate and environmental protection effect, is a control center for reasonably distributing electric energy by various components in a power supply line, is a control link for reliably receiving an upper-end power supply and correctly feeding out loaded electric energy, and is also a key for acquiring whether a user is satisfied with the power supply quality.

The potential safety hazard in the distribution box can not be predicted in time to the block terminal on-line measuring system of electric power system at present, causes the emergence of incident.

SUMMERY OF THE UTILITY MODEL

The application provides a block terminal remote monitering system based on limit cloud is in coordination, on the block terminal has the basis of real-time fault diagnosis ability, carry out the fault prediction through the cloud ware to the executing element of cloud ware in the remote control block terminal carries out the troubleshooting when predicting to have the trouble risk in the block terminal, avoids the emergence of trouble through limit cloud in coordination, reduces the loss.

The application provides a distribution box remote monitoring system based on edge cloud cooperation, which comprises a distribution box and a cloud server;

the distribution box is internally provided with a plurality of detectors and a first main control unit, and the first main control unit controls the action of an executing element in the distribution box according to real-time faults detected by the detectors;

the cloud server is in communication connection with the first main control unit, obtains a fault prediction result according to a detection result of the detector, and controls an executing element in the distribution box to act according to the fault prediction result.

Preferably, the plurality of detectors includes a temperature sensor, a humidity sensor, a current sensor, a voltage sensor, a residual current detector.

Preferably, the actuating element comprises a temperature control relay, an air switch and a solenoid valve of a dehumidifier.

Preferably, a human-computer interaction interface is arranged on the distribution box and electrically connected with the first main control unit.

Preferably, the distribution box remote monitoring system further comprises a user terminal, and the user terminal is connected with the cloud server through a wireless communication network.

Preferably, a two-dimensional code is fixed on the outer side of the shell of the distribution box, and the two-dimensional code comprises the serial number, the position and the affiliated unit of the distribution box.

Preferably, the user terminal comprises a mobile terminal of a user.

Preferably, the mobile terminal of the user includes a two-dimensional code recognizer.

Preferably, an axial flow fan is arranged in the distribution box, and a power supply of the axial flow fan is electrically connected with the temperature control relay.

Preferably, an alarm is arranged in the distribution box.

Further features of the present application and advantages thereof will become apparent from the following detailed description of exemplary embodiments thereof, which is to be read in connection with the accompanying drawings.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate embodiments of the application and together with the description, serve to explain the principles of the application.

Fig. 1 is a structural diagram of a distribution box remote monitoring system based on edge cloud coordination provided by the present application.

Detailed Description

Various exemplary embodiments of the present application will now be described in detail with reference to the accompanying drawings. It should be noted that: the relative arrangement of the components and steps, the numerical expressions, and numerical values set forth in these embodiments do not limit the scope of the present application unless specifically stated otherwise.

The following description of at least one exemplary embodiment is merely illustrative in nature and is in no way intended to limit the application, its application, or uses.

Techniques, methods, and apparatus known to those of ordinary skill in the relevant art may not be discussed in detail, but are intended to be part of the specification where appropriate.

In all examples shown and discussed herein, any particular value should be construed as merely illustrative, and not limiting. Thus, other examples of the exemplary embodiments may have different values.

The application provides a block terminal remote monitering system based on limit cloud is in coordination, on the block terminal has the basis of real-time fault diagnosis ability, carry out the fault prediction through the cloud ware to the executing element of cloud ware in the remote control block terminal carries out the troubleshooting when predicting to have the trouble risk in the block terminal, avoids the emergence of trouble through limit cloud in coordination, reduces the loss. In addition, the mobile terminal of the user can identify the distribution box by scanning the two-dimensional code on the outer side of the shell, and upload the two-dimensional code information to the cloud server to obtain the running condition of the distribution box, so that the convenience of the user terminal in acquiring the information of the appointed distribution box is improved.

As shown in fig. 1, the remote monitoring system of a distribution box based on edge cloud coordination provided by the present application includes a distribution box 110, a cloud server 120, and a user terminal 130.

A plurality of detectors and a first main control unit 1101 are arranged in the distribution box 110, and the first main control unit 1101 controls an executing element in the distribution box according to a real-time fault detected by the detectors.

As an embodiment, the plurality of detectors include a temperature sensor 1102, a humidity sensor 1103, a current sensor 1104, a voltage sensor 1105 and a residual current detector 1106, which are respectively used for detecting the temperature, the humidity, the current and the voltage of the distribution line and the electrical parameters of the electrical fire in the distribution box. The executive component comprises a temperature control relay, an air switch, an electromagnetic valve of a dehumidifier, an electric leakage switch and the like.

A man-machine interaction interface 1107 is arranged on the distribution box 110, and the man-machine interaction interface 1107 is electrically connected with the first main control unit 1101. The human-machine interface 1107 is used to manually set the threshold values of the various detectors in the first master control unit.

An alarm 1108 is provided in the switchbox 110.

The first main control unit 1101 is configured to receive real-time detection results of the respective detectors, and compare the real-time detection results with corresponding thresholds. If the threshold value is exceeded, the corresponding real-time fault of the distribution box is indicated; the first main control unit controls the action of the corresponding executive element in the distribution box according to the real-time fault, so that the real-time fault is prevented from deteriorating, and the edge calculation is realized by the first main control unit. It should be noted that, the first main control unit performs data processing on the detection result of the detector by using the prior art.

For example, if the circumstances such as conflagration appears, infiltration or appear leaking current in the block terminal, first main control unit in time reacts, at first controls the air switch outage in the block terminal, sends self position and fault information for cloud ware again, makes things convenient for subsequent processing, reports to the police through the alarm simultaneously.

The cloud server 120 is in communication connection with the first main control unit 1101, and the cloud server 120 obtains a fault prediction result according to a detection result of the detector and controls an execution element in the distribution box to act according to the fault prediction result, so that the cloud server realizes cloud computing.

The first main control unit 1101 uploads a real-time detection result of the detector to the cloud server 120 while performing real-time fault diagnosis, and after receiving the detection result, the cloud server 120 performs data analysis and fault prediction according to the real-time detection result of the distribution box. For example, the real-time detection result in the preset time period is plotted into a curve for predicting expected data of the parameter under the condition that other conditions are not changed, and if the expected data exceeds a threshold value in the preset time period, it is determined that a fault risk exists. It should be noted that the failure prediction technology of the cloud server 120 is the prior art, and this application does not improve this part.

If the cloud server 120 predicts that a certain failure risk exists, the corresponding execution element in the distribution box is controlled to act so as to avoid the occurrence of the failure. For example, an axial flow fan is disposed in the distribution box 110, and a power supply of the axial flow fan is electrically connected to the temperature control relay. If the temperature exceeds the standard, the cloud server 120 controls the temperature control relay to be electrified, so that the axial flow fan is started, and the distribution box is cooled. If there is the risk that humidity exceeds standard, then the solenoid valve of the interior dehumidifier of cloud server 120 control block terminal gets electric, starts the dehumidifier and carries out the dehumidification operation to the block terminal.

The user terminal 130 and the cloud server 120 are connected through a wireless communication network. The user terminal 130 obtains the operation data of the distribution box from the cloud server 120, and the monitoring function is achieved. When there is a real-time failure and a failure risk, the cloud server 120 transmits failure information to the user terminal 130.

On the basis, in order to facilitate the monitoring and maintenance of the user terminal on the appointed distribution box, the outer side of the shell of the distribution box 110 is fixed with a two-dimensional code, and the two-dimensional code comprises information such as the number, the position and the affiliated unit of the distribution box 110, so that the distribution box is conveniently positioned.

For one embodiment, user terminal 130 is a mobile terminal for a user. The mobile terminal of the user comprises a two-dimensional code recognizer, the user recognizes the two-dimensional code on the distribution box through the two-dimensional code recognizer of the mobile terminal to obtain basic information of the distribution box, the basic information is uploaded to the cloud server 120, and the operation data of the distribution box are called from the cloud server 120.

Although some specific embodiments of the present application have been described in detail by way of example, it should be understood by those skilled in the art that the above examples are for illustrative purposes only and are not intended to limit the scope of the present application. It will be appreciated by those skilled in the art that modifications can be made to the above embodiments without departing from the scope and spirit of the present application. The scope of the application is defined by the appended claims.

Claims (10)

1. A distribution box remote monitoring system based on edge cloud cooperation is characterized by comprising a distribution box and a cloud server;

a plurality of detectors and a first main control unit are arranged in the distribution box, and the first main control unit controls the action of an executing element in the distribution box according to real-time faults detected by the detectors;

the cloud server is in communication connection with the first main control unit, obtains a fault prediction result according to a detection result of the detector, and controls an execution element in the distribution box to act according to the fault prediction result.

2. The cloud-based collaboration electrical distribution box remote monitoring system of claim 1 wherein the plurality of detectors include temperature sensors, humidity sensors, current sensors, voltage sensors, residual current detectors.

3. The cloud coordination based distribution box remote monitoring system according to claim 2, wherein the execution element comprises a temperature control relay, an air switch, and a solenoid valve of a dehumidifier.

4. The remote monitoring system for distribution boxes based on edge cloud coordination according to claim 1, wherein a human-computer interaction interface is arranged on the distribution box, and the human-computer interaction interface is electrically connected with the first main control unit.

5. The distribution box remote monitoring system based on edge cloud coordination according to claim 1, further comprising a user terminal, wherein the user terminal is connected with the cloud server through a wireless communication network.

6. The remote monitoring system for distribution boxes based on edge cloud coordination according to claim 5, wherein two-dimensional codes are fixed on the outer side of a shell of each distribution box, and each two-dimensional code comprises the serial number, the position and the unit of the distribution box.

7. The cloud coordination-based panelboard remote monitoring system of claim 6 wherein the user terminal comprises a mobile terminal of a user.

8. The cloud-based collaboration switchbox remote monitoring system as claimed in claim 7, wherein the user's mobile terminal includes a two-dimensional code recognizer.

9. The remote monitoring system for distribution boxes based on edge cloud coordination according to claim 3, wherein an axial flow fan is arranged in the distribution box, and a power supply of the axial flow fan is electrically connected with the temperature control relay.

10. The remote monitoring system for distribution boxes based on edge cloud coordination according to claim 9, wherein an alarm is arranged in the distribution box.

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