CN112863101A - Power distribution room environment and safety monitoring method and system - Google Patents

Abstract

The invention discloses a method and a system for monitoring the environment and the safety of a power distribution room, wherein the method is applied to the system for monitoring the environment and the safety of the power distribution room; the power distribution room environment and safety monitoring system comprises a management end component, a monitoring end component and a cloud component; the cloud component comprises a cloud server; the management end component comprises a first display, a second display, an alarm and an intelligent bracelet; the intelligent bracelet is worn on the arm of a monitoring person and has a vibration function; the second display, the alarm and the intelligent bracelet are in communication connection with the cloud server; according to the power distribution room environment and safety monitoring method, monitoring personnel are reminded in a vibration mode of the intelligent bracelet, so that the monitoring personnel can find abnormal invasion situations occurring at the power distribution room in time.

Description

Power distribution room environment and safety monitoring method and system

Technical Field

The invention relates to the technical field of power distribution room monitoring, in particular to a power distribution room environment and safety monitoring method and system.

Background

The power distribution room is an important component of a power supply system, the existing power distribution room is mostly unattended, and the environment and safety monitoring of the power distribution room are key links for ensuring the normal operation of the power distribution room. At present, the phenomenon of equipment theft of a power distribution room is serious, particularly, the power distribution room distributed in an unattended remote area is frequently visited by lawless persons, and the power distribution room is stolen, which not only causes serious asset loss, but also causes large-area power failure.

The monitoring of present power distribution room environment and safety is mainly video monitoring, and the function is more single, and the camera only provides video image, and the work of discerning unusual needs the monitoring personnel to accomplish, needs the monitoring personnel to watch video image in real time, ignores the abnormal situation because of being people's fatigue or negligence very easily, can't in time know the security incident and carry out corresponding processing.

Disclosure of Invention

The invention mainly aims to provide a power distribution room environment and safety monitoring method and system, and aims to solve the problems that the existing power distribution room environment and safety monitoring function is single, abnormal conditions are easily ignored due to fatigue or negligence of people, and safety events cannot be known in time and can not be processed correspondingly.

The technical scheme provided by the invention is as follows:

a method for monitoring the environment and safety of a power distribution room is applied to a system for monitoring the environment and safety of the power distribution room; the power distribution room environment and safety monitoring system comprises a management end component, a monitoring end component and a cloud component; the cloud component comprises a cloud server; the management end component comprises a first display, a second display, an alarm and an intelligent bracelet; the intelligent bracelet is worn on the arm of a monitoring person and has a vibration function; the second display, the alarm and the intelligent bracelet are in communication connection with the cloud server; the monitoring end component comprises an infrared camera, a local server and a communication module; the first display is in communication connection with the local server; the infrared camera and the communication module are both in communication connection with the local server; the local server is used for establishing communication connection with the cloud server through the communication module; the infrared camera is arranged outside the power distribution room to monitor the surrounding environment of the power distribution room; the power distribution room environment and safety monitoring method comprises the following steps:

acquiring a monitoring video shot by the infrared camera in real time;

sending the monitoring video to the first display for real-time playing;

analyzing the monitoring video frame by frame to judge whether a human body exists in the monitoring video;

if so, processing the monitoring video to obtain a video clip of the same human body contained in the picture of the monitoring video, and marking the video clip as a suspected clip;

analyzing the suspected fragments to obtain the activity duration of the same human body around the power distribution room;

judging whether the activity duration is greater than a preset duration or not;

if yes, marking the suspected fragment as an early warning fragment;

sending the early warning segment to the cloud server;

repeatedly playing the early warning segment on the second display, controlling the alarm to give an alarm and sending a first alarm sound;

and controlling the intelligent bracelet to vibrate so as to remind monitoring personnel.

Preferably, the cloud component further comprises cloud storage; the cloud storage is in communication connection with the cloud server; a legal face image set is stored in the cloud storage; the marking the suspected fragment as an early warning fragment further comprises:

analyzing the suspected fragment, and judging whether an image frame comprising face information exists in the suspected fragment;

if yes, acquiring the image frame and sending the image frame to the cloud server;

comparing the image frame with the legal face image set to judge whether the face information is legal or not;

if yes, feeding back an image normal instruction to the local server;

marking the early warning segment as a normal segment according to the image normal instruction;

if not, feeding back an image abnormal instruction to the local server;

and according to the image abnormal instruction, marking the suspected fragment as an early warning fragment.

Preferably, the analyzing the suspected fragment and determining whether an image frame including face information exists in the suspected fragment further includes:

if not, the suspected fragment is marked as an early warning fragment.

Preferably, the management side component further comprises an intelligent door lock in communication connection with the local server; the intelligent door lock is arranged on an entrance door of the power distribution room to control locking and unlocking of the entrance door; the unlocking modes of the intelligent door lock comprise fingerprint unlocking, password unlocking and door access card unlocking; the management end component further comprises an input device in communication connection with the cloud server; the power distribution room environment and safety monitoring method further comprises the following steps:

acquiring a locking instruction input through the input device;

sending the locking instruction to the local server;

and controlling the intelligent door lock to enter a locking state according to the locking instruction, wherein in the locking state, the intelligent door lock cannot be unlocked by the unlocking mode.

Preferably, the power distribution room environment and safety monitoring method further includes:

acquiring an unlocking instruction input through the input device;

sending the unlocking instruction to the local server;

and controlling the intelligent door lock to enter an unlocking state according to the unlocking instruction, wherein in the unlocking state, the intelligent door lock can be unlocked by the unlocking mode.

Preferably, the repeatedly playing the early warning segment on the second display, controlling the alarm to give an alarm and sending a first alarm sound, and then further comprising:

judging whether the unlocking instruction is obtained within a preset time period after the alarm gives an alarm;

if not, generating the locking instruction;

sending the locking instruction to the local server;

and controlling the intelligent door lock to enter a locking state according to the locking instruction.

Preferably, control the intelligent bracelet vibrates to remind monitoring personnel, later still include:

acquiring a vibration releasing instruction input through the input device;

and controlling the intelligent bracelet to stop vibrating according to the vibration removing instruction.

Preferably, the controlling the alarm to alarm and send out a first alarm sound further comprises:

acquiring a warning relieving instruction input through the input device;

and controlling the alarm to stop alarming according to the alarm releasing instruction.

Preferably, the local server is an embedded industrial personal computer.

The invention also provides a power distribution room environment and safety monitoring system which is applied to the power distribution room environment and safety monitoring method, wherein the power distribution room environment and safety monitoring system comprises a management end component, a monitoring end component and a cloud component; the cloud component comprises a cloud server; the management end component comprises a first display, a second display, an alarm and an intelligent bracelet; the intelligent bracelet is worn on the arm of a monitoring person and has a vibration function; the second display, the alarm and the intelligent bracelet are in communication connection with the cloud server; the monitoring end component comprises an infrared camera, a local server and a communication module; the first display is in communication connection with the local server; the infrared camera and the communication module are both in communication connection with the local server; the local server is used for establishing communication connection with the cloud server through the communication module; the infrared camera set up in join in marriage the outside of electrical room, in order to right join in marriage the surrounding environment of electrical room and monitor.

Through above-mentioned technical scheme, can realize following beneficial effect:

according to the power distribution room environment and safety monitoring method, monitoring personnel are reminded in a vibration mode of the intelligent bracelet, so that the monitoring personnel can find abnormal invasion situations occurring at the power distribution room in time; the problem that in the prior art, due to the fact that abnormal invasion conditions are ignored due to fatigue or negligence of monitoring personnel, safety events cannot be known in time and corresponding processing is carried out is solved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

Fig. 1 is a flowchart of a power distribution room environment and safety monitoring method according to a first embodiment of the present invention.

Detailed Description

It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The invention provides a method and a system for monitoring the environment and safety of a power distribution room.

As shown in fig. 1, in a first embodiment of a power distribution room environment and safety monitoring method provided by the present invention, the method is applied to a power distribution room environment and safety monitoring system; the power distribution room environment and safety monitoring system comprises a management end component, a monitoring end component and a cloud component; the cloud component comprises a cloud server; the management end component comprises a first display, a second display, an alarm and an intelligent bracelet; the intelligent bracelet is worn on the arm of a monitoring person and has a vibration function; the second display, the alarm and the intelligent bracelet are in communication connection with the cloud server; the monitoring end component comprises an infrared camera, a local server and a communication module; the first display is in communication connection with the local server; the infrared camera and the communication module are both in communication connection with the local server; the local server is used for establishing communication connection with the cloud server through the communication module; the infrared camera is arranged outside the power distribution room to monitor the surrounding environment of the power distribution room; the embodiment comprises the following steps:

step S101: and acquiring the monitoring video shot by the infrared camera in real time.

Specifically, the local server acquires the monitoring video shot by the infrared camera in real time. And acquiring the monitoring video shot by the infrared camera in real time.

Step S102: and sending the monitoring video to the first display for real-time playing.

Specifically, the local server sends the monitoring video to the first display for real-time playing. The first display is used for playing videos shot by the infrared camera in real time, the first display is arranged in a monitoring room, and the monitoring room is a place for monitoring the condition of each power distribution room by monitoring personnel on duty.

Step S103: analyzing the monitoring video frame by frame to judge whether a human body exists in the monitoring video.

Specifically, the local server analyzes the monitoring video frame by frame to judge whether a human body exists in the monitoring video.

If yes, go to step S104: and processing the monitoring video to obtain a video clip containing the same human body in the picture of the monitoring video, and marking the video clip as a suspected clip.

Specifically, the local server processes (clips) the monitoring video to obtain a video segment of the same human body contained in the picture of the monitoring video, and the video segment is marked as a suspected segment. Generally speaking, ordinary people do not appear in the monitoring video of the infrared camera many times, so the same human body is a suspected intruder.

Step S105: analyzing the suspected fragments to obtain the activity duration of the same human body around the power distribution room.

Specifically, the local server analyzes the suspected segments to obtain the activity duration of the same human body around the power distribution room.

Step S106: and judging whether the activity duration is greater than a preset duration.

Specifically, the local server determines whether the active duration is greater than a preset duration (preferably 10 s).

If yes, go to step S107: and marking the suspected fragment as an early warning fragment.

Specifically, the local server marks the suspected fragment as an early warning fragment.

Step S108: and sending the early warning fragment to the cloud server.

Specifically, the local server sends the early warning segment to the cloud server.

Step S109: and repeatedly playing the early warning segment on the second display, controlling the alarm to give an alarm and sending a first alarm sound.

Specifically, the cloud server repeatedly plays the early warning segment on the second display, controls the alarm to give an alarm and sends out a first alarm sound, where the first alarm sound may be "please notice that the power distribution room has abnormal intrusion".

The second display is used for repeatedly playing the early warning segments, and the second display is arranged in the monitoring room so as to timely remind monitoring personnel of discovering abnormal intrusion conditions.

Step S110: and controlling the intelligent bracelet to vibrate so as to remind monitoring personnel.

Specifically, the cloud server controls the intelligent bracelet to vibrate so as to remind monitoring personnel of finding abnormal invasion conditions in time.

According to the power distribution room environment and safety monitoring method, monitoring personnel are reminded in a vibration mode of the intelligent bracelet, so that the monitoring personnel can find abnormal invasion situations occurring at the power distribution room in time; the problem that in the prior art, due to the fact that abnormal invasion conditions are ignored due to fatigue or negligence of monitoring personnel, safety events cannot be known in time and corresponding processing is carried out is solved.

In addition, the power distribution room environment and safety monitoring method provided by the invention has better monitoring capability on abnormal intrusion of the power distribution room, and particularly, the activity duration of suspicious personnel appearing in the video is obtained by editing the monitoring video, and the length of the activity duration is judged to judge whether the suspicious personnel has intrusion behavior or intrusion intention, so that the monitoring personnel is timely reminded to process the intrusion behavior or intrusion intention, the intrusion is prevented, and the security capability of the power distribution room is greatly improved.

In a second embodiment of the power distribution room environment and security monitoring method provided by the invention, based on the first embodiment, the cloud component further includes a cloud storage; the cloud storage is in communication connection with the cloud server; a legal face image set is stored in the cloud storage (the legal face set is a face image of each power grid manager stored in advance by the power grid manager); step S104, the method further includes the following steps:

step S201: and analyzing the suspected fragment, and judging whether an image frame comprising face information exists in the suspected fragment.

Specifically, the local server analyzes the suspected fragment and determines whether an image frame including face information exists in the suspected fragment.

If yes, go to step S202: and acquiring the image frame and sending the image frame to the cloud server.

Specifically, the local server acquires the image frame and sends the image frame to the cloud server.

Step S203: and comparing the image frame with the legal face image set to judge whether the face information is legal or not.

Specifically, the cloud server compares the image frame with the legal face image set to determine whether the face information is legal, that is, whether the face image of the image frame exists in the legal face image set, if so, the image frame is legal, and if not, the image frame is illegal.

If yes, go to step S204: and feeding back an image normal instruction to the local server.

Specifically, the cloud server feeds back an image normal instruction to the local server.

Step S205: and marking the early warning segment as a normal segment according to the image normal instruction.

Specifically, the local server marks the early warning segment as a normal segment according to the image normal instruction. That is, if the face information in the image frame is legal, it is proved that the manager of the artificial power grid appearing in the suspected segment can mark the early-warning segment as a normal segment, and the early-warning segment does not need to be sent to a cloud server for subsequent warning steps.

If not, go to step S206: and feeding back an image abnormal instruction to the local server.

Specifically, if the face information in the image frame is illegal, it is proved that the person appearing in the suspected fragment is not a manager of the power grid and is an external invader, so the cloud server feeds back an image abnormal instruction to the local server.

Step S207: and executing the step S107 according to the image exception instruction.

Specifically, the local server executes the step of marking the suspected fragment as an early warning fragment according to the image abnormal instruction. Therefore, the early warning fragments can be conveniently sent to the cloud server subsequently, and the subsequent warning steps can be conveniently carried out.

According to the embodiment, the scheme of face recognition is added, so that the accuracy of identity judgment of an intruder is improved, and the situation that a manager inside a power grid is judged as an abnormal intruder by mistake is avoided.

In a third embodiment of the power distribution room environment and safety monitoring method provided by the present invention, based on the second embodiment, step S201, then further includes the following steps:

if not, go to step S107.

Specifically, the local server executes the step of marking the suspected fragment as the early warning fragment. That is, if the face information is not found in the suspected segment, the subsequent face recognition step cannot be performed, and at this time, the suspected segment can be directly marked as an early warning segment, so that the early warning segment can be conveniently sent to a cloud server subsequently, and the subsequent alarm step is performed.

In a fourth embodiment of the power distribution room environment and security monitoring method provided by the present invention, based on the third embodiment, the management end component further includes an intelligent door lock in communication connection with the local server; the intelligent door lock is arranged on an entrance door of the power distribution room to control locking and unlocking of the entrance door; the unlocking modes of the intelligent door lock comprise fingerprint unlocking, password unlocking and door access card unlocking; the management end component further comprises an input device (in this embodiment, the input device is preferably a keyboard) in communication connection with the cloud server; the embodiment further comprises the following steps:

step S401: and acquiring a locking instruction input through the input device.

Specifically, the cloud server obtains a locking instruction input through the input device. The locking instruction is input by a monitoring person through an input device and is used for remotely locking the intelligent door lock to prevent an intruder from invading the power distribution network through an entrance door.

Step S402: and sending the locking instruction to the local server.

Specifically, the cloud server sends the locking instruction to the local server.

Step S403: and controlling the intelligent door lock to enter a locking state according to the locking instruction, wherein in the locking state, the intelligent door lock cannot be unlocked by the unlocking mode.

Specifically, the local server controls the intelligent door lock to enter a locked state according to the locking instruction, wherein in the locked state, the intelligent door lock cannot be unlocked by the unlocking mode.

This embodiment is used for: when monitoring personnel experienced the vibration of intelligent bracelet, perhaps when discovering the abnormal conditions in first display, but direct input locking instruction to remote locking intelligence lock prevents that the intruder from passing through the distribution network of entry door invasion.

In a fifth embodiment of the power distribution room environment and safety monitoring method provided by the present invention, based on the fourth embodiment, the present embodiment further includes the following steps:

step S501: and acquiring an unlocking instruction input through the input device.

Specifically, the cloud server obtains an unlocking instruction input through the input device.

Step S502: and sending the unlocking instruction to the local server.

Specifically, the cloud server sends the unlocking instruction to the local server.

Step S503: and controlling the intelligent door lock to enter an unlocking state according to the unlocking instruction, wherein in the unlocking state, the intelligent door lock can be unlocked by the unlocking mode.

Specifically, the local server controls the intelligent door lock to enter an unlocking state according to the unlocking instruction, wherein in the unlocking state, the intelligent door lock can be unlocked by the unlocking mode.

The present embodiment is used for: when monitoring personnel communicate with the power distribution room on site or observe the surrounding environment of the power distribution room, and no invasion risk exists, an unlocking instruction is input through an input device to unlock the intelligent door lock remotely, so that the power distribution room returns to normal operation, and inspection personnel can normally inspect the power distribution room.

In a sixth embodiment of the power distribution room environment and safety monitoring method provided by the present invention, based on the fifth embodiment, step S109 further includes the following steps:

step S601: and judging whether the unlocking instruction is obtained within a preset time period after the alarm gives an alarm.

Specifically, the cloud server judges whether the unlocking instruction is obtained within a preset time period (such as 1min) after the alarm gives an alarm.

If not, go to step S602: generating the lock instruction.

Specifically, if the unlocking instruction is not obtained, the cloud server generates the locking instruction.

Step S603: and sending the locking instruction to the local server.

Specifically, the cloud server sends the locking instruction to the local server.

Step S604: and controlling the intelligent door lock to enter a locking state according to the locking instruction.

Specifically, the local server controls the intelligent door lock to enter a locking state according to the locking instruction.

The present embodiment is used for: when the cloud server does not acquire the unlocking instruction within 1min after the alarm performs the alarming action, the monitoring personnel think that suspicious personnel in the early warning segment really have the intrusion behavior or are preparing to carry out the intrusion (because the monitoring personnel do not input the unlocking instruction); the monitoring personnel can not notice the early warning segment and the warning action sent by the alarm, and no matter which of the above situations, the monitoring personnel can directly send a locking instruction from the perspective of safety protection so as to remotely lock the intelligent door lock of the power distribution room and prevent the intrusion.

In a seventh embodiment of the power distribution room environment and safety monitoring method provided by the present invention, based on the fourth embodiment, step S1010 includes the following steps:

step S701: and acquiring a vibration releasing instruction input through the input device.

Specifically, the cloud server obtains a vibration release instruction input through the input device.

Step S702: and controlling the intelligent bracelet to stop vibrating according to the vibration removing instruction.

Specifically, the cloud server controls the intelligent bracelet to stop vibrating according to the vibration removing instruction.

The present embodiment is used for: the vibration instruction is removed through input device input to the control intelligence bracelet and stops the vibration, can guarantee that the control personnel has received the information of the manual vibration of intelligence, can also be used for the control personnel to close the intelligence bracelet.

In an eighth embodiment of the power distribution room environment and safety monitoring method provided by the present invention, based on the fourth embodiment, step S109, then, further includes the following steps:

step S801: and acquiring a warning relieving instruction input through the input device.

Specifically, the cloud server obtains an alarm releasing instruction input through the input device.

Step S802: and controlling the alarm to stop alarming according to the alarm releasing instruction.

Specifically, the cloud server controls the alarm to stop alarming according to the alarm releasing instruction.

The present embodiment is used for: when the monitoring personnel receives the alarm action sent by the alarm, the monitoring personnel can input an alarm releasing instruction through the input device so as to control the alarm to stop alarming.

In a ninth embodiment of the power distribution room environment and safety monitoring method provided by the invention, based on the first embodiment, the local server is an embedded industrial personal computer.

In a tenth embodiment of the power distribution room environment and security monitoring method according to the present invention, based on the fourth embodiment, the monitoring end component further includes a vibration sensor communicatively connected to the local server; the vibration sensor is arranged on the body of the power distribution room; the embodiment further comprises the following steps:

step S1001: and acquiring vibration data acquired by the vibration sensor in real time.

Specifically, the local server acquires vibration data acquired by the vibration sensor in real time.

Step S1002: and analyzing the vibration data to judge whether abnormal vibration occurs in the power distribution room.

Specifically, the local server analyzes the vibration data to determine whether abnormal vibration occurs in the power distribution room.

If yes, go to step S1003: controlling the intelligent door lock to enter a locking state.

Specifically, if abnormal vibration occurs, it indicates that the power distribution room may be abnormally invaded, and the local server immediately controls the intelligent door lock to enter a locking state. Thereby locking the intelligent door lock to prevent the power distribution room from being invaded.

In an eleventh embodiment of the power distribution room environment and security monitoring method provided by the present invention, based on the fourth embodiment, the monitoring end component further includes a photosensitive sensor and an inspection switch, which are in communication connection with the local server; the photosensitive sensor and the inspection switch are both arranged in the power distribution room; the embodiment further comprises the following steps:

step S1101: and acquiring photosensitive data acquired by the photosensitive sensor.

Specifically, the local server acquires photosensitive data acquired by the photosensitive sensor.

Step S1102: and analyzing the photosensitive data to judge whether a sudden lighting phenomenon occurs in the power distribution room.

Specifically, the local server analyzes the photosensitive data to judge whether a flashing phenomenon occurs in the power distribution room.

If yes, go to step S1103: judge whether the switch of patrolling and examining is opened, wherein, the switch of patrolling and examining is opened the very first time when overhauing and examining the electrical room by the personnel of patrolling and examining.

Specifically, under normal conditions, the power distribution room is closed, and the interior of the power distribution room should be in a dark state; if the sudden lighting phenomenon occurs, the sudden lighting phenomenon is indicated that the light appears in the power distribution room, the power distribution room is opened (whether the power distribution room is opened from an entrance door or is directly forced to be opened from other positions), and the fire disaster occurs in the power distribution room; the local server continues to judge whether the inspection switch is opened or not, wherein the inspection switch is opened at the first time when the inspection personnel overhaul the power distribution room. The inspection switch is arranged outside the power distribution room, the position of the inspection switch is hidden, and only managers and inspection personnel of the power grid know the position of the inspection switch; when the inspection personnel overhaul the power distribution room, the inspection switch needs to be opened first, and then the intelligent door lock is opened to open the power distribution room and enter the power distribution room.

If not, go to step S1104: and sending a fire early warning instruction to the cloud server.

Specifically, if the power distribution room is not opened, the inspection switch is not opened, and the reason for the sudden lighting is eliminated, namely, the inspection personnel normally open the power distribution room for inspection, namely, the reason for the sudden lighting is only possible to be a fire or abnormal invasion; therefore, the local server immediately sends a fire early warning instruction to the cloud server.

Step S1105: and controlling the alarm to alarm and sending out a second alarm sound according to the fire early warning instruction.

Specifically, the cloud server controls the alarm to alarm and sends out a second alarm sound according to the fire early warning instruction. The second alarm sound may be "please notice that there is a fire or an abnormal intrusion in the power distribution room" to remind the monitoring personnel in the monitoring room to find the situation in time and to respond.

This embodiment can monitor when appearing the conflagration in joining in marriage electrical room and report to the police, can also further promote the monitoring ability to joining in marriage the intrusion into burglary action in electrical room.

The invention also provides a power distribution room environment and safety monitoring system, which is applied to any embodiment of the power distribution room environment and safety monitoring method and comprises a management end component, a monitoring end component and a cloud component; the cloud component comprises a cloud server; the management end component comprises a first display, a second display, an alarm and an intelligent bracelet; the intelligent bracelet is worn on the arm of a monitoring person and has a vibration function; the second display, the alarm and the intelligent bracelet are in communication connection with the cloud server; the monitoring end component comprises an infrared camera, a local server and a communication module; the first display is in communication connection with the local server; the infrared camera and the communication module are both in communication connection with the local server; the local server is used for establishing communication connection with the cloud server through the communication module; the infrared camera set up in join in marriage the outside of electrical room, in order to right join in marriage the surrounding environment of electrical room and monitor.

The above-mentioned serial numbers of the embodiments of the present invention are merely for description and do not represent the merits of the embodiments.

Through the above description of the embodiments, those skilled in the art will clearly understand that the method of the above embodiments can be implemented by software plus a necessary general hardware platform, and certainly can also be implemented by hardware, but in many cases, the former is a better implementation manner. Based on such understanding, the technical solutions of the present invention may be embodied in the form of a software product, wherein the software product is stored in a storage medium (such as ROM/RAM, magnetic disk, optical disk), and includes instructions for enabling a terminal (such as a mobile phone, a computer, a server, an air conditioner, or a network device) to execute the method according to the embodiments of the present invention.

While the present invention has been described with reference to the embodiments shown in the drawings, the present invention is not limited to the embodiments, which are illustrative and not restrictive, and it will be apparent to those skilled in the art that various changes and modifications can be made therein without departing from the spirit and scope of the invention as defined in the appended claims.

Claims (10)

1. A method for monitoring the environment and the safety of a power distribution room is characterized by being applied to a system for monitoring the environment and the safety of the power distribution room; the power distribution room environment and safety monitoring system comprises a management end component, a monitoring end component and a cloud component; the cloud component comprises a cloud server; the management end component comprises a first display, a second display, an alarm and an intelligent bracelet; the intelligent bracelet is worn on the arm of a monitoring person and has a vibration function; the second display, the alarm and the intelligent bracelet are in communication connection with the cloud server; the monitoring end component comprises an infrared camera, a local server and a communication module; the first display is in communication connection with the local server; the infrared camera and the communication module are both in communication connection with the local server; the local server is used for establishing communication connection with the cloud server through the communication module; the infrared camera is arranged outside the power distribution room to monitor the surrounding environment of the power distribution room; the power distribution room environment and safety monitoring method comprises the following steps:

acquiring a monitoring video shot by the infrared camera in real time;

sending the monitoring video to the first display for real-time playing;

analyzing the monitoring video frame by frame to judge whether a human body exists in the monitoring video;

if so, processing the monitoring video to obtain a video clip of the same human body contained in the picture of the monitoring video, and marking the video clip as a suspected clip;

analyzing the suspected fragments to obtain the activity duration of the same human body around the power distribution room;

judging whether the activity duration is greater than a preset duration or not;

if yes, marking the suspected fragment as an early warning fragment;

sending the early warning segment to the cloud server;

repeatedly playing the early warning segment on the second display, controlling the alarm to give an alarm and sending a first alarm sound;

and controlling the intelligent bracelet to vibrate so as to remind monitoring personnel.

2. The electrical room environment and security monitoring method of claim 1, wherein the cloud component further comprises a cloud storage; the cloud storage is in communication connection with the cloud server; a legal face image set is stored in the cloud storage; the marking the suspected fragment as an early warning fragment further comprises:

analyzing the suspected fragment, and judging whether an image frame comprising face information exists in the suspected fragment;

if yes, acquiring the image frame and sending the image frame to the cloud server;

comparing the image frame with the legal face image set to judge whether the face information is legal or not;

if yes, feeding back an image normal instruction to the local server;

marking the early warning segment as a normal segment according to the image normal instruction;

if not, feeding back an image abnormal instruction to the local server;

and according to the image abnormal instruction, marking the suspected fragment as an early warning fragment.

3. The method according to claim 2, wherein the analyzing the suspected section and determining whether there is an image frame including face information in the suspected section further comprises:

if not, the suspected fragment is marked as an early warning fragment.

4. The power distribution room environment and security monitoring method of claim 3, wherein the management side component further comprises an intelligent door lock communicatively coupled to the local server; the intelligent door lock is arranged on an entrance door of the power distribution room to control locking and unlocking of the entrance door; the unlocking modes of the intelligent door lock comprise fingerprint unlocking, password unlocking and door access card unlocking; the management end component further comprises an input device in communication connection with the cloud server; the power distribution room environment and safety monitoring method further comprises the following steps:

acquiring a locking instruction input through the input device;

sending the locking instruction to the local server;

and controlling the intelligent door lock to enter a locking state according to the locking instruction, wherein in the locking state, the intelligent door lock cannot be unlocked by the unlocking mode.

5. The power distribution room environment and safety monitoring method according to claim 4, further comprising:

acquiring an unlocking instruction input through the input device;

sending the unlocking instruction to the local server;

and controlling the intelligent door lock to enter an unlocking state according to the unlocking instruction, wherein in the unlocking state, the intelligent door lock can be unlocked by the unlocking mode.

6. The method according to claim 5, wherein the playing of the warning segment on the second display is repeated, and the alarm is controlled to give an alarm and emit a first alarm sound, and then further comprising:

judging whether the unlocking instruction is obtained within a preset time period after the alarm gives an alarm;

if not, generating the locking instruction;

sending the locking instruction to the local server;

and controlling the intelligent door lock to enter a locking state according to the locking instruction.

7. The power distribution room environment and safety monitoring method according to claim 4, wherein the intelligent bracelet is controlled to vibrate to remind monitoring personnel, and then the method further comprises the following steps:

acquiring a vibration releasing instruction input through the input device;

and controlling the intelligent bracelet to stop vibrating according to the vibration removing instruction.

8. A power distribution room environment and safety monitoring method as claimed in claim 4, wherein the controlling the alarm to alarm and send out a first alarm sound, and then further comprises:

acquiring a warning relieving instruction input through the input device;

and controlling the alarm to stop alarming according to the alarm releasing instruction.

9. A power distribution room environment and security monitoring method as claimed in claim 1, wherein the local server is an embedded industrial personal computer.

10. A power distribution room environment and safety monitoring system, which is applied to the power distribution room environment and safety monitoring method according to any one of claims 1 to 9, and comprises a management end component, a monitoring end component and a cloud component; the cloud component comprises a cloud server; the management end component comprises a first display, a second display, an alarm and an intelligent bracelet; the intelligent bracelet is worn on the arm of a monitoring person and has a vibration function; the second display, the alarm and the intelligent bracelet are in communication connection with the cloud server; the monitoring end component comprises an infrared camera, a local server and a communication module; the first display is in communication connection with the local server; the infrared camera and the communication module are both in communication connection with the local server;

the local server is used for establishing communication connection with the cloud server through the communication module; the infrared camera set up in join in marriage the outside of electrical room, in order to right join in marriage the surrounding environment of electrical room and monitor.

Images