CN113766358A

CN113766358A - Off-site equipment remote monitoring system and method

Info

Publication number: CN113766358A
Application number: CN202111051172.8A
Authority: CN
Inventors: 李帮军; 陈川勇
Original assignee: Sichuan Public Project Consulting Management Co Ltd
Current assignee: Sichuan Public Project Consulting Management Co Ltd
Priority date: 2021-09-08
Filing date: 2021-09-08
Publication date: 2021-12-07

Abstract

The invention discloses a remote monitoring system and a method for off-site equipment, which comprises a communication equipment detection monitoring mechanism, an environment monitoring mechanism and a remote monitoring analysis management system; the communication equipment detection monitoring mechanism is used for acquiring data of temperature and humidity conditions, power utilization conditions, water leakage conditions and circuit on-off conditions of the external field equipment, and the environment monitoring mechanism is used for controlling the shooting angle of the surrounding environment of the external field equipment and acquiring multi-angle video images; the data collected by the communication equipment detection monitoring mechanism and the video images of the monitored surrounding environment collected by the environment monitoring mechanism are transmitted to the remote monitoring analysis management system, and the remote monitoring analysis management system is used for analyzing and comparing the input data and the video images and remotely sending corresponding information to each terminal. The invention can comprehensively monitor the off-site communication equipment in real time, and has the function of monitoring and preventing theft, so that the remote monitoring is more comprehensive, and the monitoring effect is further improved.

Description

Off-site equipment remote monitoring system and method

Technical Field

The invention belongs to the technical field of monitoring of off-site equipment, and particularly relates to a remote monitoring system and method for off-site equipment.

Background

The wired communication equipment mainly introduces equipment for solving serial port communication, professional bus type communication, industrial Ethernet communication and conversion among various communication protocols in industrial fields, and mainly comprises equipment such as a router, a switch, a modem and the like. The wireless communication equipment mainly comprises wireless AP, a wireless network bridge, a wireless network card, a wireless lightning arrester, an antenna and the like. The communication also includes military communication and civil communication, and the three communication operators in China are mobile communication, communication and telecommunication communication.

The existing remote monitoring method for the off-site communication equipment is not perfect enough, has a small monitoring range, and is not convenient for simultaneously monitoring the off-site communication equipment and the surrounding environmental safety.

Disclosure of Invention

The invention aims to provide a remote monitoring system and a remote monitoring method for off-site equipment, and aims to solve the problems that the existing remote monitoring method for off-site communication equipment is not perfect, has a small monitoring range and is inconvenient to simultaneously monitor the off-site communication equipment and the surrounding environmental safety.

The invention is mainly realized by the following technical scheme:

an off-site equipment remote monitoring system comprises a communication equipment detection monitoring mechanism, an environment monitoring mechanism and a remote monitoring analysis management system; the communication equipment detection monitoring mechanism is used for acquiring data of temperature and humidity conditions, power utilization conditions, water leakage conditions and circuit on-off conditions of the external field equipment, and the environment monitoring mechanism is used for controlling the shooting angle of the surrounding environment of the external field equipment and acquiring multi-angle video images; the communication equipment detects the data that monitoring mechanism gathered and the video image of the control surrounding environment that environment monitoring mechanism gathered all transmits to remote monitoring analysis management system, remote monitoring analysis management system is used for carrying out analysis comparison and remote transmission corresponding information for each terminal to the data of input, video image.

In order to better implement the present invention, the communication device monitoring mechanism further includes a temperature and humidity detection module, a device voltage, power, current detection module, a water leakage detection module, a switch detection module and a device data acquisition and transmission module, wherein the temperature and humidity detection module, the device voltage, power, current detection module, the water leakage detection module and the switch detection module are all connected to the device data acquisition and transmission module.

In order to better implement the present invention, further, the environment monitoring mechanism includes an image acquisition and transmission module and an environment monitoring camera device, and the image acquisition and transmission module is connected with the environment monitoring camera device; the environment monitoring camera device comprises a control module, a human body intelligent sensing module, a multi-motor driving module, a voice talkback module, a plurality of cameras and an adjusting mechanism; the control module is connected with the camera, the multi-motor driving module and the voice talkback module respectively, the adjusting mechanism is connected with the multi-motor driving module, the camera is connected with the human intelligent sensing module, and the adjusting mechanism is used for adjusting the shooting position of the camera.

In order to better realize the invention, the invention further comprises a visual spherical protective cover, wherein the upper end and the lower end of the interior of the visual spherical protective cover are respectively provided with a support frame, a plurality of adjusting mechanisms are arranged between the adjacent support frames, and the adjusting mechanisms are provided with cameras.

In order to better implement the present invention, the adjusting mechanism further includes a first driving motor, a rotating rod, a rotating frame, and a second driving motor, the first driving motor is disposed on the supporting frame on one side, the rotating rod is rotatably disposed on the rotating rod on the other side, a driving end of the first driving motor is connected to the rotating rod, the rotating frame is disposed on the rotating rod, the camera is rotatably disposed on the rotating frame, and a driving end of the second driving motor is connected to the camera for driving the camera to rotate on the rotating frame. The driving directions of the first driving motor and the second driving motor can be parallel or vertical, and when the driving directions are parallel, the effects of coarse adjustment and fine adjustment are realized; when the vertical angle adjusting device is vertical, plane angle adjustment is achieved, and the vertical angle adjusting device has good practicability.

In order to better implement the present invention, further, the camera is a wide-angle camera.

In order to better realize the invention, the remote monitoring analysis management system further comprises a WiFi module, a monitoring management module, a data storage analysis module, an information acquisition and transmission module and an alarm connected with the monitoring management module, wherein the WiFi module, the monitoring management module, the data storage analysis module, the information acquisition and transmission module and the alarm are sequentially connected from top to bottom; the communication equipment detection monitoring mechanism and the environment monitoring mechanism are respectively connected with the information acquisition and transmission module.

An off-site equipment remote monitoring method comprises the following steps:

step 1, fixing a monitoring box and a connected environment monitoring camera device on a support with a higher height, and communicating with a monitoring terminal through a WiFi module in the monitoring box;

step 2, monitoring and detecting the voltage, power, electricity and current of the external field equipment in real time through an equipment voltage, power, electricity and current detection module respectively, realizing one-time water leakage and water seepage detection on the inner wall of the equipment through a water leakage detection module, collecting temperature and humidity information in the equipment through a temperature and humidity detection module, detecting the on-off of an equipment circuit through a switch detection module, transmitting all detection and collection information to an information collection and transmission module through an equipment data collection and transmission module in real time for data collection and transmission, analyzing and comparing the collected and transmitted data through a data storage and analysis module, alarming through an alarm when the data is found to be abnormal, and transmitting the abnormal information to a monitoring terminal through a WiFi module for notification and reminding;

step 3, the adjusting mechanism is remotely controlled through the monitoring terminal, the angle positions of the plurality of cameras are adjusted, the plurality of cameras can be aligned to all positions around the equipment, 360-degree dead-angle-free monitoring is guaranteed, the image video is collected and transmitted to the monitoring terminal through the image collecting and transmitting module for real-time remote monitoring, when the human body intelligent sensing module finds that a person enters the monitoring area, the signal is transmitted to the data storage and analysis module for identification, the data storage and analysis module judges by calling out the face of the communication equipment manager stored in the image storage module in advance, when the face is unfamiliar, the alarm is started to give an alarm, and the monitoring terminal is informed through the WiFi module and the video is intercepted to inform the monitoring terminal, meanwhile, when a manager finds that a person enters the monitoring area through the monitoring terminal, the manager can inform the manager of the person to leave the monitoring area at a high speed through the voice talkback module.

In the using process of the invention, the voltage, power, electric temperature and current of the external field equipment are monitored and detected in real time by the equipment voltage, power, electric temperature and current detection modules respectively arranged on the external field equipment, the water leakage detection is realized at one time by the water leakage detection modules arranged on the walls and pipelines of the machine room, the water leakage is avoided, the power supply and distribution equipment and important transmission equipment are prevented from being in failure due to the occurrence of water leakage, the temperature and humidity information in the machine room is collected by the temperature and humidity detection module arranged on the wall surface, the on-off of the machine room is detected by the switch detection module, all detection information is collected and transmitted in real time by the equipment data collection and transmission module, the data is analyzed and compared by the data storage and analysis module in the monitoring box, when the data is found to be abnormal, the alarm is given by the alarm arranged on one side of the monitoring box, and the abnormal information is transmitted to the monitoring terminal by the WiFi module for alarm reminding, the monitoring module transmits the data to a monitoring terminal through WiFi so as to carry out remote monitoring in real time.

According to the invention, the angles of a plurality of cameras in the module are adjusted through the mobile phone monitoring terminal, so that the monitoring of 360-degree dead angles is guaranteed, the monitoring condition is transmitted in real time, when the human body intelligent sensing module finds that a person enters the intelligent sensing module, a signal is transmitted to the data storage and analysis module for recognition, the data storage and analysis module can judge the face hole prestored in the data storage module through calling equipment, when the face hole is found to be strange, the alarm is started to give an alarm, and meanwhile, the monitoring terminal is informed through the WiFi module, and the video is intercepted to inform the monitoring terminal.

The invention has the beneficial effects that:

(1) according to the invention, by arranging the equipment data acquisition and transmission module, the image data acquisition and transmission module, the WiFi module, the monitoring management module, the alarm module and other modules, the outdoor communication equipment can be comprehensively monitored in real time, and meanwhile, the monitoring and anti-theft function is realized, so that the remote monitoring is more comprehensive, and the monitoring effect is further improved.

(2) The camera is arranged in the environment monitoring device, the camera is provided with the independent adjusting mechanism, the machine room can be comprehensively photographed in a multi-direction dead angle-free mode, a plurality of cameras are not required to be installed for photographing, compared with the existing monitoring device which can perform comprehensive photographing only through 360-degree rotation, the environment monitoring device is better in comprehensive photographing effect, the phenomenon that the back of the camera cannot be photographed in the rotating process is avoided, and the environment monitoring device has better practicability.

Drawings

FIG. 1 is a schematic block diagram of the system of the present invention;

FIG. 2 is a schematic block diagram of a communication device monitoring mechanism and a remote monitoring analysis management system according to the present invention;

FIG. 3 is a functional block diagram of an environment monitoring facility;

FIG. 4 is a schematic view of a connection structure of the support frame and the adjusting mechanism;

fig. 5 is a schematic view of a connection structure of the adjustment mechanism and the camera.

Wherein: 1. a monitoring box; 2. an environment monitoring camera device; 201. a camera; 2011. a human body intelligent sensing module; 202. a multi-motor drive module; 203. a control module; 204. a voice intercom module; 205. an adjustment mechanism; 2051. a first drive motor; 2052. rotating the rod; 2053. a rotating frame; 2054. a second drive motor; 3. a WiFi module; 4. a monitoring management module; 5. an alarm; 6. a data storage analysis module; 601. a device data comparison module; 602. a device data storage module; 603. an image data comparison module; 604. an image data storage module; 605. a result analysis module; 7. the information acquisition and transmission module; 8. the equipment data acquisition and transmission module; 801. a temperature and humidity detection module; 802. the device voltage, power, electric degree and current detection module; 803. a water leakage detection module; 804. a switch detection module; 9. an image acquisition and transmission module; 10. a visual spherical shield; 11. a support frame; 12. and (7) mounting a seat.

Detailed Description

The embodiments of the present invention will be further described with reference to the accompanying drawings.

Example 1:

an off-site equipment remote monitoring system is shown in fig. 1 and comprises a communication equipment detection monitoring mechanism, an environment monitoring mechanism and a remote monitoring analysis management system; the communication equipment detection monitoring mechanism is used for acquiring data of temperature and humidity conditions, power utilization conditions, water leakage conditions and circuit on-off conditions of the external field equipment, and the environment monitoring mechanism is used for controlling the shooting angle of the surrounding environment of the external field equipment and acquiring multi-angle video images; the communication equipment detects the data that monitoring mechanism gathered and the video image of the control surrounding environment that environment monitoring mechanism gathered all transmits to remote monitoring analysis management system, remote monitoring analysis management system is used for carrying out analysis comparison and remote transmission corresponding information for each terminal to the data of input, video image.

Example 2:

the embodiment is optimized on the basis of embodiment 1, as shown in fig. 2, the communication device detection and monitoring mechanism includes a temperature and humidity detection module 801, a device voltage, power, electric power, and current detection module 802, a water leakage detection module 803, a switch detection module 804, and a device data acquisition and transmission module 8, where the temperature and humidity detection module 801, the device voltage, power, electric power, and current detection module 802, the water leakage detection module 803, and the switch detection module 804 are all connected to the device data acquisition and transmission module 8.

Equipment voltage, power, electric degree, current detection module 802 include voltage detection appearance, current detection appearance, power detection table, electric degree detection table come the check out test set behavior, and the detection module 803 that leaks simultaneously can in time detect whether damaged appears in the equipment shell when raining to in time maintain, in case the condition of the inside equipment short circuit that appears of too much business turn over equipment of rainwater, switch detection module 804 is used for detecting the off-site equipment condition of whether appearing.

Other parts of this embodiment are the same as embodiment 1, and thus are not described again.

Example 3:

in this embodiment, optimization is performed on the basis of embodiment 1, as shown in fig. 2 and fig. 3, the environment monitoring mechanism includes an image acquisition and transmission module 9 and an environment monitoring camera device 2, and the image acquisition and transmission module 9 is connected to the environment monitoring camera device 2; the environment monitoring camera device 2 comprises a control module 203, a human body intelligent sensing module 2011, a multi-motor driving module 202, a voice talkback module 204, a plurality of cameras 201 and an adjusting mechanism 205; control module 203 is connected with camera 201, many motor drive module 202, pronunciation intercom module 204 respectively, adjustment mechanism 205 is connected with many motor drive module 202, camera 201 is connected with human intelligent induction module 2011, adjustment mechanism 205 is used for adjusting the shooting position of camera 201.

Other parts of this embodiment are the same as those of embodiment 1, and thus are not described again.

Example 4:

the embodiment is optimized on the basis of the embodiment 1 or 2, and as shown in fig. 4 and 5, the visual spherical protective cover 10 is further included, the upper end and the lower end of the interior of the visual spherical protective cover 10 are respectively provided with a support frame 11, a plurality of adjusting mechanisms 205 are arranged between the adjacent support frames 11, and the adjusting mechanisms 205 are provided with cameras 201.

Further, the adjusting mechanism 205 includes a first driving motor 2051, a rotating rod 2052, a rotating frame 2053, and a second driving motor 2054, the first driving motor 2051 is disposed on the support frame 11 on one side, and the rotating rod 2052 is rotatably disposed on the rotating rod 2052 on the other side, the driving end of the first driving motor 2051 is connected to the rotating rod 2052, the rotating rod 2052 is provided with the rotating frame 2053, the camera 201 is rotatably disposed on the rotating frame 2053, and the driving end of the second driving motor 2054 is connected to the camera 201, so as to drive the camera 201 to rotate on the rotating frame 2053. The driving directions of the first driving motor 2051 and the second driving motor 2054 can be parallel or vertical, and when the driving directions are parallel, the effects of coarse adjustment and fine adjustment are realized; when the vertical angle adjusting device is vertical, plane angle adjustment is achieved, and the vertical angle adjusting device has good practicability.

Further, the camera 201 is a wide-angle camera.

The rest of this embodiment is the same as embodiment 1 or 2, and therefore, the description thereof is omitted.

Example 5:

the embodiment is optimized on the basis of any one of embodiments 1 to 4, as shown in fig. 1 and 4, the remote monitoring analysis management system includes a WiFi module 3, a monitoring management module 4, a data storage analysis module 6, an information acquisition and transmission module 7 and an alarm 5 connected to the monitoring management module 4, which are sequentially connected from top to bottom, the data storage analysis module 6 includes an equipment data comparison module 601, an equipment data storage module 602, an image data comparison module 603, an image data storage module 604 and a result analysis module 605, the remote monitoring analysis management system is arranged inside the monitoring box 1, and the top end of the monitoring box 1 is provided with a mounting seat 12; the communication equipment detection monitoring mechanism and the environment monitoring mechanism are respectively connected with the information acquisition and transmission module 7.

Other parts of this embodiment are the same as any of embodiments 1 to 4, and thus are not described again.

Example 6:

an off-board device remote monitoring method is implemented based on the off-board device remote monitoring system in any one of embodiments 1 to 5, and includes the following steps:

step 1, fixing a monitoring box 1 and a connected environment monitoring camera device 2 on a support with a higher height, and communicating with a monitoring terminal through a WiFi module 3 in the monitoring box 1;

step 2, monitoring and detecting the voltage, power, electricity degree and current of the external field equipment in real time through an equipment voltage, power, electricity degree and current detection module 802, realizing one-time water leakage and seepage detection on the inner wall of the equipment through a water leakage detection module 803, acquiring temperature and humidity information inside the equipment through a temperature and humidity detection module 801, detecting the on-off of an equipment circuit through a switch detection module 804, transmitting all detection acquisition information to an information acquisition transmission module 7 through an equipment data acquisition transmission module 8 in real time for data acquisition and transmission, analyzing and comparing the acquired and transmitted data through a data storage analysis module 6, alarming through an alarm 5 when the data are found to be abnormal, and transmitting the abnormal information to a monitoring terminal through a WiFi module 3 for notification and reminding;

step 3, remotely controlling the adjusting mechanism 205 through the monitoring terminal, adjusting the angular positions of the cameras 201, enabling the cameras 201 to be aligned with all positions around the device, ensuring that the device is monitored without dead angles at 360 degrees, acquiring and transmitting image videos to the monitoring terminal through the image acquisition and transmission module 9 for real-time remote monitoring, transmitting signals to the data storage and analysis module 6 for identification when the human body intelligent sensing module 2011 finds that a person enters a monitoring area, judging the data storage and analysis module 6 by calling out a face hole of a communication device administrator pre-stored in the image storage module 604, starting the alarm 5 to give an alarm when the person is found to be a strange face hole, simultaneously informing the monitoring terminal through the WiFi module 3 and intercepting the videos for informing, and simultaneously when the administrator finds that the person enters the monitoring area through the monitoring terminal, the voice talkback module 204 can inform the user of the exit at a fast speed.

In the using process of the invention, the voltage, power, electric temperature and current of the external field equipment are monitored and detected in real time by the equipment voltage, power, electric temperature and current detection modules 802 which are respectively arranged on the external field equipment, the water leakage detection is realized at one time by the water leakage detection modules 803 which are arranged on the walls and pipelines of the machine room, the water leakage is avoided, the power supply and distribution equipment and important transmission equipment are prevented from being in failure due to the water leakage, the temperature and humidity information in the machine room is collected by the temperature and humidity detection module 801 which is arranged on the wall surface, the on-off of the machine room is detected by the switch detection module 804, all the detection information is collected and transmitted in real time by the equipment data collection and transmission module 8, the data is analyzed and compared by the data storage and analysis module 6 in the monitoring box 1, when the data are found to be abnormal, the alarm is given by the alarm 5 arranged on one side of the monitoring box 1, and the abnormal information is transmitted to the monitoring terminal through the WiFi module 3 for warning and reminding, and the abnormal information is transmitted to the monitoring terminal through the WiFi module 3 so as to carry out remote monitoring in real time.

According to the invention, the angles of a plurality of cameras 201 in the module are adjusted through the mobile phone monitoring terminal, 360-degree dead-angle-free monitoring is ensured, the monitoring condition is transmitted in real time, when the human body intelligent sensing module 2011 finds that a person enters, a signal is transmitted to the data storage and analysis module 6 for identification, the data storage and analysis module 6 can judge the face hole prestored in the equipment data storage module 602, when the strange face hole is found, the alarm 5 is started to give an alarm, and meanwhile, the monitoring terminal is informed through the WiFi module 3 and the video is intercepted to inform.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention in any way, and all simple modifications and equivalent variations of the above embodiments according to the technical spirit of the present invention are included in the scope of the present invention.

Claims

1. An off-site equipment remote monitoring system is characterized by comprising a communication equipment detection monitoring mechanism, an environment monitoring mechanism and a remote monitoring analysis management system; the communication equipment detection monitoring mechanism is used for acquiring data of temperature and humidity conditions, power utilization conditions, water leakage conditions and circuit on-off conditions of the external field equipment, and the environment monitoring mechanism is used for controlling the shooting angle of the surrounding environment of the external field equipment and acquiring multi-angle video images; the communication equipment detects the data that monitoring mechanism gathered and the video image of the control surrounding environment that environment monitoring mechanism gathered all transmits to remote monitoring analysis management system, remote monitoring analysis management system is used for carrying out analysis comparison and remote transmission corresponding information for each terminal to the data of input, video image.

2. The remote monitoring system of the off-site equipment according to claim 1, wherein the communication equipment detection and monitoring mechanism comprises a temperature and humidity detection module (801), an equipment voltage, power, electric power and current detection module (802), a water leakage detection module (803), a switch detection module (804) and an equipment data acquisition and transmission module (8), wherein the temperature and humidity detection module (801), the equipment voltage, power, electric power and current detection module (802), the water leakage detection module (803) and the switch detection module (804) are all connected with the equipment data acquisition and transmission module (8).

3. The remote monitoring system for the off-board equipment according to claim 1, wherein the environment monitoring mechanism comprises an image acquisition and transmission module (9) and an environment monitoring camera device (2), and the image acquisition and transmission module (9) is connected with the environment monitoring camera device (2); the environment monitoring camera device (2) comprises a control module (203), a human body intelligent sensing module (2011), a multi-motor driving module (202), a voice talkback module (204), a plurality of cameras (201) and an adjusting mechanism (205); control module (203) are connected with camera (201), many motor drive module (202), pronunciation intercom module (204) respectively, adjustment mechanism (205) are connected with many motor drive module (202), camera (201) are connected with human intelligent induction module (2011), adjustment mechanism (205) are used for adjusting the shooting position of camera (201).

4. The remote monitoring system for the off-site equipment according to claim 3, further comprising a visual spherical protective cover (10), wherein the upper end and the lower end of the interior of the visual spherical protective cover (10) are respectively provided with a support frame (11), a plurality of adjusting mechanisms (205) are arranged between the adjacent support frames (11), and the adjusting mechanisms (205) are provided with cameras (201).

5. The system according to claim 4, wherein the adjusting mechanism (205) comprises a first driving motor (2051), a rotating rod (2052), a rotating frame (2053), and a second driving motor (2054), the first driving motor (2051) is disposed on the supporting frame (11) on one side, the rotating rod (2052) is rotatably disposed on the rotating rod (2052) on the other side, the driving end of the first driving motor (2051) is connected with the rotating rod (2052), the rotating frame (2053) is disposed on the rotating rod (2052), the camera (201) is rotatably disposed on the rotating frame (2053), and the driving end of the second driving motor (2054) is connected with the camera (201) for driving the camera (201) to rotate on the rotating frame (2053).

6. An off-board device remote monitoring system according to any of claims 1-5, wherein the camera (201) is a wide angle camera.

7. The off-site equipment remote monitoring system according to claim 1, wherein the remote monitoring analysis management system comprises a WiFi module (3), a monitoring management module (4), a data storage analysis module (6), an information acquisition and transmission module (7) and an alarm (5) connected with the monitoring management module (4), which are sequentially connected from top to bottom, the data storage analysis module (6) comprises an equipment data comparison module (601), an equipment data storage module (602), an image data comparison module (603), an image data storage module (604) and a result analysis module (605), the remote monitoring analysis management system is arranged inside the monitoring box (1), and the top end of the monitoring box (1) is provided with a mounting seat (12); the communication equipment detection monitoring mechanism and the environment monitoring mechanism are respectively connected with the information acquisition and transmission module (7).

8. An off-board equipment remote monitoring method realized based on the off-board equipment remote monitoring system of any one of claims 1 to 7, characterized by comprising the following steps:

step 1, fixing a monitoring box (1) and a connected environment monitoring camera device (2) on a support with a higher height, and communicating with a monitoring terminal through a WiFi module (3) in the monitoring box (1);

step 2, the voltage, power, electric power and current of the external field equipment are monitored and detected in real time through an equipment voltage, power, electric power and current detection module (802) respectively, and through a water leakage detection module (803), the disposable water leakage and seepage detection is realized on the inner wall of the equipment, the temperature and humidity information in the equipment is collected through a temperature and humidity detection module (801), meanwhile, the on-off of the equipment circuit is detected by a switch detection module (804), all detection acquisition information is transmitted to an information acquisition and transmission module (7) for data acquisition and transmission in real time through an equipment data acquisition and transmission module (8), the acquired and transmitted data is analyzed and compared through a data storage and analysis module (6), and when the data is found to be abnormal, an alarm is given through an alarm (5), meanwhile, the WiFi module (3) transmits the abnormal information to the monitoring terminal for notification and reminding;

step 3, remotely controlling an adjusting mechanism (205) through a monitoring terminal, adjusting the angle positions of a plurality of cameras (201), enabling the plurality of cameras (201) to be aligned to all positions around the equipment, ensuring that the monitoring is carried out without dead angles of 360 degrees, collecting and transmitting image videos to the monitoring terminal through an image collecting and transmitting module (9) for real-time remote monitoring, transmitting signals to a data storage and analysis module (6) for identification when a human body intelligent induction module (2011) finds that a person enters a monitoring area, judging by calling out a human face hole of a communication equipment manager stored in the image storage module (604) in advance, starting an alarm (5) to give an alarm when the person finds that the person is a strange face hole, informing the monitoring terminal through a WiFi module (3) and intercepting the videos for informing, meanwhile, when a manager finds that a person enters the monitoring area through the monitoring terminal, the manager can inform the manager of leaving the monitoring area at a high speed through the voice talkback module (204).