CN115395662A - Intelligent monitoring system and method for power distribution room and computer readable storage medium - Google Patents

Abstract

The invention relates to the technical field of power monitoring, and provides an intelligent monitoring system, a method and a computer readable storage medium for a power distribution room, wherein the monitoring system comprises a mobile terminal and a circuit breaker, the mobile terminal at least comprises a display component for displaying an image label, the circuit breaker at least comprises a controller and a scanning component for scanning the image label, the image label at least stores a unique identifier and operation information of the mobile terminal, the scanning component acquires the unique identifier and the operation information of the mobile terminal through scanning the image label and feeds the unique identifier and the operation information back to the controller, the controller verifies the unique identifier of the mobile terminal and operation time, the circuit breaker number and the identity of an operator in the operation information, and if the unique identifier and the operation time, the circuit breaker number and the identity of the operator pass the verification, the circuit breaker is driven to perform corresponding actions according to an operation task of the operation information. The invention can avoid illegal operation and improve the operation safety of the circuit breaker.

Description

Intelligent monitoring system and method for power distribution room and computer readable storage medium

Technical Field

The invention relates to the technical field of power monitoring, in particular to an intelligent monitoring system and method for a power distribution room and a computer readable storage medium.

Background

The power distribution room, also called a power distribution room or a power distribution station, is an indoor power distribution place with low-voltage load, mainly distributes electric energy for low-voltage users, and is provided with a medium-voltage incoming line (a small amount of outgoing lines can be provided), a power distribution transformer and a low-voltage power distribution device. At present, facilities and equipment such as an intelligent power distribution room and an unmanned power distribution room are widely applied. The intelligent power distribution room monitoring system corresponding to the intelligent power distribution room is also widely applied.

In the prior art, for example, a chinese patent application No. 202110009192.2 discloses a power distribution room environment and safety monitoring method and system, which reminds monitoring personnel in a vibration mode of an intelligent bracelet, so that the monitoring personnel can find abnormal intrusion situations occurring at the power distribution room in time. Also, for example, the chinese patent application No. 201210581136.7 discloses a power distribution station room monitoring system which can improve the data amount of the available information transmission in the data transmission channel with limited bandwidth. For another example, the chinese patent application No. 201410020255.4 discloses a distributed power distribution room online centralized monitoring system, which can organically combine the SACAD, the GIS and the intelligent video monitoring system, so that the information is more comprehensive, the user terminals are richer, the interactivity is higher, and the data is safer.

However, many practical problems (for example, how to improve the operation safety of the breaker in the power distribution room) which need to be dealt with in the practical application of the monitoring system in the power distribution room still need to be solved.

Disclosure of Invention

Based on the above, in order to improve the operation safety of the circuit breaker in the power distribution room, the invention provides an intelligent monitoring system, a method and a computer readable storage medium for the power distribution room, and the specific technical scheme is as follows:

a power distribution room intelligent monitoring system comprises a mobile terminal and a plurality of circuit breakers installed in a power distribution room, wherein the mobile terminal at least comprises a display component for displaying an image label, each circuit breaker at least comprises a controller and a scanning component for scanning the image label, the image label at least stores a unique identifier and operation information of the mobile terminal, the scanning component acquires the unique identifier and the operation information of the mobile terminal through scanning the image label and feeds the unique identifier and the operation information back to the controller, the controller verifies the unique identifier of the mobile terminal and operation time, the circuit breaker number and the identity of an operator in the operation information, and if the unique identifier and the operation time, the circuit breaker number and the identity of the operator in the operation information are verified, the circuit breakers are driven to perform corresponding actions according to operation tasks of the operation information; wherein the operation information comprises at least an operation task, an operation time, a breaker identifier and an operator identity.

In the intelligent monitoring system of the power distribution room, the circuit breaker obtains the unique identifier and the operation information of the mobile terminal through scanning the image tag and feeds the unique identifier and the operation information back to the controller, and the controller verifies the unique identifier of the mobile terminal, the operation time, the circuit breaker number and the operator identity in the operation information, wherein the verification comprises quadruple verification of the unique identifier of the mobile terminal, the operation time, the circuit breaker number and the operator identity in the operation information.

By verifying the unique identifier of the mobile terminal and the identity of the operator, illegal operations can be avoided by using double verification. The serial number of the circuit breaker is verified, so that a certain specific circuit breaker can be driven in a targeted manner to perform a corresponding operation task; by verifying the operation time, the misoperation or invalid operation caused by driving the circuit breaker to execute the operation task outside the specified time period can be avoided, and the operation safety of the circuit breaker is improved.

That is to say, the intelligent monitoring system of the power distribution room can specifically drive a certain specific circuit breaker to perform a corresponding operation task by verifying the unique identifier of the mobile terminal, the operation time in the operation information, the circuit breaker number and the identity of an operator, so that illegal operation is avoided, misoperation or invalid operation caused by driving the circuit breaker to execute the operation task outside a specified time period can be avoided, and the operation safety of the circuit breaker is improved.

Further, join in marriage electrical room intelligent monitoring system still includes monitoring device, and the circuit breaker still includes drive disk assembly, and drive disk assembly is used for driving the moving contact action in order to realize divide-shut brake operation, and monitoring device is used for obtaining the real-time image in joining in marriage electrical room and feeds back to the controller with frequency of predetermineeing, and the controller still is used for:

judging whether the breaker trips due to faults or not, and if so, locking the transmission part;

and judging whether a person enters the power distribution room in a preset time period according to the real-time image, and if so, unlocking the transmission component.

Further, the power distribution room intelligent monitoring system further comprises a server, and the server is used for generating operation information and sending the operation information to the controller and the mobile terminal.

Further, the circuit breaker still includes transmission part, and transmission part is used for driving the moving contact action in order to realize the divide-shut brake operation, the controller still is used for:

judging whether the breaker trips due to faults or not, and if so, locking the transmission part;

and acquiring real-time position information of the mobile terminal, judging the moving trend of the mobile terminal according to the real-time position information, calculating the real-time distance between the mobile terminal and the power distribution room, and unlocking the transmission component if the real-time distance is smaller than a preset distance value and the moving trend of the mobile terminal is a close trend.

An intelligent monitoring method for a power distribution room comprises the following steps:

s1, displaying an image tag at least storing a unique identifier and operation information of a mobile terminal through a display part of the mobile terminal;

s2, a scanning component of the circuit breaker obtains a unique identifier and operation information of the mobile terminal through scanning the image tag and feeds the unique identifier and the operation information back to the controller;

s3, verifying the unique identifier of the mobile terminal, the operation time, the breaker number and the operator identity in the operation information through the controller, and driving the breaker to perform corresponding action according to the operation task of the operation information if the unique identifier of the mobile terminal passes the verification;

wherein the operation information comprises at least an operation task, an operation time, a breaker identifier and an operator identity.

Further, the intelligent monitoring method for the power distribution room further comprises the following steps:

acquiring a real-time image in a power distribution room at a preset frequency through a monitoring device and feeding the real-time image back to a controller;

judging whether the breaker trips due to faults or not through a controller, and if so, locking the transmission part;

judging whether a person enters a power distribution room within a preset time period or not through the controller according to the real-time image, and unlocking the transmission component if the person enters the power distribution room;

the transmission component is in transmission connection with the moving contact of the circuit breaker and is used for driving the moving contact to act so as to realize switching-on and switching-off operation.

Further, the intelligent monitoring method for the power distribution room further comprises the following steps:

and generating operation information through the server and sending the operation information to the controller and the mobile terminal.

Further, the intelligent monitoring method for the power distribution room further comprises the following steps:

acquiring a fault signal and a trip signal of the circuit breaker through a controller, judging whether the occurrence time interval of the fault signal and the trip signal is smaller than a preset threshold value, if so, judging that the circuit breaker trips due to a fault and locking a transmission component;

the method comprises the steps that real-time position information of a mobile terminal is obtained through a controller, the moving trend of the mobile terminal is judged according to the real-time position information, the real-time distance between the mobile terminal and a power distribution room is calculated, and if the real-time distance is smaller than a preset distance value and the moving trend of the mobile terminal is a close trend, a transmission part is unlocked;

the transmission component is in transmission connection with the moving contact of the circuit breaker and is used for driving the moving contact to act so as to realize switching-on and switching-off operation.

A computer-readable storage medium, which stores a computer program, which, when executed by a processor, implements the power distribution room intelligent monitoring method.

Drawings

The invention will be further understood from the following description in conjunction with the accompanying drawings. The components in the figures are not necessarily to scale, emphasis instead being placed upon illustrating the principles of the embodiments. Like reference numerals designate corresponding parts throughout the different views.

Fig. 1 is a schematic overall structure diagram of an intelligent monitoring system for a power distribution room according to an embodiment of the present invention;

fig. 2 is a schematic overall flow chart of a power distribution room intelligent monitoring method according to an embodiment of the present invention;

fig. 3 is a schematic diagram of an overall structure of another intelligent monitoring system for a power distribution room according to an embodiment of the present invention.

Description of reference numerals:

1. a mobile terminal; 2. a circuit breaker; 3. a scanning component.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail below with reference to embodiments thereof. It should be understood that the detailed description and specific examples, while indicating the scope of the invention, are intended for purposes of illustration only and are not intended to limit the scope of the invention.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

The terms "first" and "second" used herein do not denote any particular order or quantity, but rather are used to distinguish one element from another.

As shown in fig. 1, an intelligent monitoring system for a power distribution room in an embodiment of the present invention includes a mobile terminal 1 and a plurality of circuit breakers 2 installed in the power distribution room, where the mobile terminal includes at least a display component for displaying an image tag, the circuit breakers include at least a controller and a scanning component 3 for scanning the image tag, the image tag stores at least a unique identifier and operation information of the mobile terminal, the scanning component obtains the unique identifier and the operation information of the mobile terminal by scanning the image tag and feeds back the unique identifier and the operation information to the controller, the controller verifies the unique identifier of the mobile terminal and operation time, a circuit breaker number, and an operator identity in the operation information, and if the verification passes, the circuit breakers are driven to perform corresponding actions according to an operation task of the operation information.

Wherein the operation information comprises at least an operation task, an operation time, a breaker identifier and an operator identity.

The display component includes but is not limited to a display screen, and the image label includes but is not limited to a two-dimensional code and a bar code. The scanning component includes, but is not limited to, a camera. The unique identifier of the mobile terminal includes, but is not limited to, a MAC address and the mobile terminal is bound to the operator identity.

The controller can verify the mobile terminal bound with the identity of the operator by verifying the unique identifier of the mobile terminal, so that illegal operation is avoided.

In the operation information, the operation task refers to an opening or closing operation. The circuit breaker is constructed to perform corresponding opening and closing operations according to operation tasks.

The operation time refers to a preset operation time period, such as 8 o 'clock to 10 o' clock in the morning. The specific method for verifying the operation time by the controller is as follows: and reading the real-time, judging whether the real-time is in the operation time, and if so, verifying the operation time.

The circuit breaker identifier includes, but is not limited to, a unique number of the circuit breaker and a MAC address configured within the circuit breaker. The MAC address may be a communication module MAC address installed within the circuit breaker.

The controller stores a circuit breaker identifier, operator identity information, and a unique identifier of the mobile terminal. Specifically, as shown in fig. 3, the power distribution room intelligent monitoring system further includes a server, and the server is configured to generate operation information and send the operation information to the controller and the mobile terminal.

In the intelligent monitoring system of the power distribution room, the circuit breaker obtains the unique identifier and the operation information of the mobile terminal through scanning the image tag and feeds the unique identifier and the operation information back to the controller, and the controller verifies the unique identifier of the mobile terminal, the operation time, the circuit breaker number and the operator identity in the operation information, wherein the verification comprises quadruple verification of the unique identifier of the mobile terminal, the operation time, the circuit breaker number and the operator identity in the operation information.

By verifying the unique identifier of the mobile terminal and the identity of the operator, illegal operations can be avoided by using double verification. The serial number of the circuit breaker is verified, so that a certain specific circuit breaker can be driven in a targeted manner to perform a corresponding operation task; by verifying the operation time, the misoperation or invalid operation caused by driving the circuit breaker to execute the operation task outside the specified time period can be avoided, and the operation safety of the circuit breaker is improved.

That is to say, the intelligent monitoring system of the power distribution room can specifically drive a certain specific circuit breaker to perform a corresponding operation task by verifying the unique identifier of the mobile terminal, the operation time in the operation information, the circuit breaker number and the identity of an operator, so that illegal operation is avoided, wrong operation or invalid operation caused by driving the circuit breaker to execute the operation task outside a specified time period can be avoided, and the operation safety of the circuit breaker is improved.

In one embodiment, the intelligent monitoring system for the power distribution room further comprises a monitoring device, the circuit breaker further comprises a transmission component, the transmission component is used for driving the moving contact to act so as to realize switching-on and switching-off operations, the monitoring device is used for acquiring real-time images in the power distribution room at a preset frequency and feeding the real-time images back to the controller, and the controller is further used for:

judging whether the breaker trips due to faults or not, and if so, locking the transmission part;

and judging whether a person enters the power distribution room in a preset time period according to the real-time image, and if so, unlocking the transmission component.

The monitoring device may be installed in a power distribution room, including but not limited to a surveillance camera. The monitoring device is in communication with the controller.

The preset time period may be an operation time in the operation information. Of course, the preset time period may also be set by the controller. The preset time period can be set according to actual needs, so that the detailed description is omitted.

In this embodiment, a fault detection unit for detecting fault signals including, but not limited to, overcurrent, undervoltage, short circuit, and leakage is installed in the circuit breaker. The fault detection unit is in signal connection with the controller and feeds back a fault signal to the controller.

The controller acquires a fault signal and a trip signal of the circuit breaker, judges whether the occurrence time interval of the fault signal and the trip signal is smaller than a preset threshold value, and judges that the circuit breaker trips due to faults if the occurrence time interval of the fault signal and the trip signal is smaller than the preset threshold value.

The controller locks the transmission part after judging that the breaker trips due to faults, so that the problem that before the faults are not processed, non-technical personnel mistakenly reclose to frequently trip or damage the breaker can be avoided.

After someone enters the power distribution room within the preset time period, the transmission part is unlocked, so that the unlocking time of the transmission part can be saved, the reclosing operation of the circuit breaker can be immediately carried out after the unique identifier of the mobile terminal and the operation time, the circuit breaker number and the identity of the operator in the operation information are verified, and the working efficiency is improved.

In one embodiment, the circuit breaker further includes a transmission component, the transmission component is used for driving the movable contact to act so as to realize the opening and closing operation, and the controller is further used for:

judging whether the breaker trips due to faults or not, and if so, locking the transmission component;

and acquiring real-time position information of the mobile terminal, judging the moving trend of the mobile terminal according to the real-time position information, calculating the real-time distance between the mobile terminal and the power distribution room, and unlocking the transmission component if the real-time distance is smaller than a preset distance value and the moving trend of the mobile terminal is a close trend.

When the real-time distance is less than the preset distance value, it may indicate that the corresponding technician has entered the preset range of the power distribution room. The preset range may be a preset radius range of the power distribution room.

And if the real-time distance is smaller than the preset distance value and the moving trend of the mobile terminal is an approaching trend, indicating that a corresponding technician is going to the power distribution room to carry out reclosing operation of the breaker. At the moment, through unlocking the transmission part, the reclosing operation of the circuit breaker can be immediately carried out after the unique identifier of the mobile terminal and the operation time, the circuit breaker number and the operator identity in the operation information pass the verification, and the working efficiency is improved.

Since the preset distance value can be set according to actual needs, further description is omitted here.

As shown in fig. 2, a method for intelligently monitoring a power distribution room is applied to the above-mentioned system for intelligently monitoring a power distribution room, and includes the following steps:

s1, displaying an image tag at least storing a unique identifier and operation information of the mobile terminal through a display part of the mobile terminal.

And S2, the scanning component of the circuit breaker obtains the unique identifier and the operation information of the mobile terminal through scanning the image label and feeds the unique identifier and the operation information back to the controller.

And S3, verifying the unique identifier of the mobile terminal, the operation time, the circuit breaker number and the operator identity in the operation information through the controller, and driving the circuit breaker to perform corresponding actions according to the operation task of the operation information if the unique identifier of the mobile terminal passes the verification.

Wherein the operation information comprises at least an operation task, an operation time, a breaker identifier and an operator identity.

Specifically, the operation information is generated by the server and transmitted to the controller and the mobile terminal.

The intelligent monitoring method for the power distribution room verifies the unique identifier of the mobile terminal, the operation time in the operation information, the breaker number and the identity of the operator, and comprises multiple verification, so that not only can a certain specific breaker be driven in a targeted manner to perform a corresponding operation task, and illegal operation is avoided, but also misoperation or invalid operation caused by driving the breaker to execute the operation task outside a specified time period can be avoided, and the operation safety of the breaker is improved.

In one embodiment, the power distribution room intelligent monitoring method further includes the following steps:

acquiring a real-time image in a power distribution room at a preset frequency through a monitoring device and feeding the real-time image back to a controller;

acquiring a fault signal and a trip signal of the circuit breaker through a controller, judging whether the occurrence time interval of the fault signal and the trip signal is smaller than a preset threshold value, if so, judging that the circuit breaker trips due to a fault and locking a transmission component;

and judging whether a person enters the power distribution room or not through the controller according to the real-time image, and if so, unlocking the transmission component.

The transmission component is in transmission connection with the moving contact of the circuit breaker and is used for driving the moving contact to act so as to realize opening and closing operations. Specifically, the transmission component drives the moving contact to move relative to the fixed contact so as to realize switching-on and switching-off operations.

Fault signals include, but are not limited to, over-current, under-voltage, short circuit, and leakage.

The preset time period, the preset threshold and the preset frequency can be set according to actual needs, and are not described herein again.

After someone enters the power distribution room within the preset time period, the transmission part is unlocked, so that the unlocking time of the transmission part can be saved, the reclosing operation of the circuit breaker can be immediately carried out after the unique identifier of the mobile terminal and the operation time, the circuit breaker number and the identity of the operator in the operation information are verified, and the working efficiency is improved.

Preferably, the controller judges whether a person enters the power distribution room within a preset time period according to the real-time image, extracts the face image in the real-time image, identifies and verifies the face image, judges whether the face image is matched with the identity of an operator in the operation information, and unlocks the transmission component if the face image is matched with the identity of the operator in the operation information.

Many times, after one of the circuit breakers is tripped due to a fault, other non-technical personnel often enter the corresponding technical personnel during the corresponding technical personnel go to the power distribution room for fault removal and reclosing operations. If a person is detected to enter the power distribution room, i.e., the transmission component is unlocked, it is still possible for non-technical personnel to perform manual reclosing operation on the fault circuit breaker. In the embodiment, after the controller judges that someone enters the power distribution room within the preset time period, the controller identifies and judges the face image of the person, and unlocks the transmission part after the face image is matched with the identity of the operator, so that the situation that non-technical personnel execute wrong reclosing operation on the circuit breaker can be better avoided, and the safety and the working efficiency of the reclosing operation are further improved.

In one embodiment, the power distribution room intelligent monitoring method further includes the following steps:

judging whether the breaker trips due to faults or not through a controller, and if so, locking the transmission part;

the real-time position information of the mobile terminal is obtained through the controller, the moving trend of the mobile terminal is judged according to the real-time position information, the real-time distance between the mobile terminal and the power distribution room is calculated, and if the real-time distance is smaller than a preset distance value and the moving trend of the mobile terminal is a close trend, the transmission component is unlocked.

The transmission component is in transmission connection with the moving contact of the circuit breaker and is used for driving the moving contact to act so as to realize opening and closing operations. Specifically, the transmission component drives the moving contact to move relative to the fixed contact so as to realize switching-on and switching-off operations.

And if the real-time distance is smaller than the preset distance value and the moving trend of the mobile terminal is an approaching trend, indicating that a corresponding technician is going to the power distribution room to carry out reclosing operation of the breaker. At the moment, through unlocking the transmission part, the reclosing operation of the circuit breaker can be immediately carried out after the unique identifier of the mobile terminal and the operation time, the circuit breaker number and the operator identity in the operation information pass the verification, and the working efficiency is improved.

In one embodiment, the present invention provides a computer-readable storage medium storing a computer program, which when executed by a processor implements the power distribution room intelligent monitoring method.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (9)

1. An intelligent monitoring system of a power distribution room comprises a mobile terminal and a plurality of circuit breakers installed in the power distribution room, wherein the mobile terminal at least comprises a display component for displaying an image label, and the circuit breakers at least comprise a controller and a scanning component for scanning the image label;

wherein the operation information comprises at least an operation task, an operation time, a breaker identifier and an operator identity.

2. The intelligent monitoring system for the power distribution room as claimed in claim 1, wherein the intelligent monitoring system for the power distribution room further comprises a monitoring device, the circuit breaker further comprises a transmission component, the transmission component is used for driving the moving contact to act so as to realize switching-on and switching-off operations, the monitoring device is used for acquiring real-time images in the power distribution room at a preset frequency and feeding the real-time images back to the controller, and the controller is further used for:

judging whether the breaker trips due to faults or not, and if so, locking the transmission component;

and judging whether a person enters the power distribution room in a preset time period according to the real-time image, and if so, unlocking the transmission component.

3. The intelligent monitoring system for power distribution room as claimed in claim 2, further comprising a server for generating and transmitting operation information to the controller and the mobile terminal.

4. The intelligent monitoring system of claim 1, wherein the circuit breaker further comprises a transmission component, the transmission component is configured to drive the moving contact to move so as to implement the switching on/off operation, and the controller is further configured to:

judging whether the breaker trips due to faults or not, and if so, locking the transmission part;

and acquiring real-time position information of the mobile terminal, judging the moving trend of the mobile terminal according to the real-time position information, calculating the real-time distance between the mobile terminal and the power distribution room, and unlocking the transmission component if the real-time distance is smaller than a preset distance value and the moving trend of the mobile terminal is a close trend.

5. The intelligent monitoring method for the power distribution room is applied to the intelligent monitoring system for the power distribution room as claimed in claim 1, and is characterized by comprising the following steps:

s1, displaying an image tag at least storing a unique identifier and operation information of a mobile terminal through a display part of the mobile terminal;

s2, a scanning component of the circuit breaker obtains a unique identifier and operation information of the mobile terminal through scanning the image tag and feeds the unique identifier and the operation information back to the controller;

s3, verifying the unique identifier of the mobile terminal, the operation time, the breaker number and the operator identity in the operation information through the controller, and driving the breaker to perform corresponding action according to the operation task of the operation information if the unique identifier of the mobile terminal passes the verification;

wherein the operation information comprises at least an operation task, an operation time, a breaker identifier and an operator identity.

6. The intelligent monitoring method for the power distribution room according to claim 5, further comprising the following steps:

acquiring a real-time image in a power distribution room at a preset frequency through a monitoring device and feeding the real-time image back to a controller;

judging whether the breaker trips due to faults or not through a controller, and if so, locking the transmission component;

judging whether a person enters a power distribution room or not in a preset time period according to the real-time image through the controller, and unlocking the transmission component if the person enters the power distribution room;

the transmission component is in transmission connection with the moving contact of the circuit breaker and is used for driving the moving contact to act so as to realize switching-on and switching-off operation.

7. The intelligent monitoring method for the power distribution room according to claim 6, further comprising the following steps:

and generating operation information through the server and sending the operation information to the controller and the mobile terminal.

8. The intelligent monitoring method for the power distribution room according to claim 5, further comprising the following steps:

acquiring a fault signal and a trip signal of the circuit breaker through a controller, judging whether the occurrence time interval of the fault signal and the trip signal is smaller than a preset threshold value, if so, judging that the circuit breaker trips due to a fault and locking a transmission component;

the method comprises the steps that real-time position information of the mobile terminal is obtained through a controller, the moving trend of the mobile terminal is judged according to the real-time position information, the real-time distance between the mobile terminal and a power distribution room is calculated, and if the real-time distance is smaller than a preset distance value and the moving trend of the mobile terminal is an approaching trend, a transmission part is unlocked;

the transmission component is in transmission connection with the moving contact of the circuit breaker and is used for driving the moving contact to act so as to realize switching-on and switching-off operation.

9. A computer-readable storage medium, characterized in that the computer-readable storage medium stores a computer program which, when executed by a processor, implements the intelligent monitoring method for a power distribution room according to any one of claims 5 to 8.

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