CN212779359U

CN212779359U - Multipoint monitoring system

Info

Publication number: CN212779359U
Application number: CN202021683160.8U
Authority: CN
Inventors: 董坤; 陈小军; 黄章良; 鲁星华
Original assignee: Guangzhou Robustel Technologies Co ltd
Current assignee: Guangzhou Lubangtong IoT Co Ltd
Priority date: 2020-08-13
Filing date: 2020-08-13
Publication date: 2021-03-23
Anticipated expiration: 2030-08-13

Abstract

The utility model belongs to the technical field of communication, and discloses a multipoint monitoring system, which comprises a main monitoring unit and an auxiliary monitoring unit; the main monitoring unit comprises a first communication module, a second communication module, a first controller and a first camera, the auxiliary monitoring unit comprises a second controller, a third communication module, a second camera and a second sensor, and the second communication module is in communication connection with the third communication module; the first communication module is in communication connection with a server of the peripheral equipment; the first camera, the first communication module, the second communication module and the first controller are electrically connected; and the third communication module, the second sensor, the second camera and the second controller are electrically connected. The main monitoring unit is responsible for communicating with an external server and monitoring videos of continuity, the auxiliary monitoring unit sends data to the main monitoring unit, and the data are processed by the main monitoring unit, so that the monitoring capability of the system for improving the overall environment and the flexibility of arrangement of monitoring equipment are improved.

Description

Multipoint monitoring system

Technical Field

The utility model relates to the field of communication technology, specifically a multiple spot monitored control system.

Background

The applicant drags the flood in 2016 and provides a utility model patent application CN 201620347957.8, and discloses a multifunctional network safety monitoring system based on the Internet of things, which is arranged in a warehouse and comprises a data processing circuit, an entrance identity acquisition device, an RFID and code scanning device, an entrance guard and license plate recognition device, a network camera, a temperature and humidity sensor, an alarm and a pyroelectric infrared sensor; the data processing circuit, the entrance identity acquisition device, the RFID and code scanning device, the entrance guard and license plate recognition device, the network camera, the temperature and humidity sensor, the alarm and the pyroelectric infrared sensor are all connected with the data processing circuit; the number of the network cameras, the pyroelectric infrared sensors and the temperature and humidity sensors is multiple; the pyroelectric infrared sensor and the temperature and humidity sensor are connected with the data processing circuit through a field bus; a wireless router in communication connection with the data processing circuit is arranged in the warehouse; the network camera is integrated with a WiFi communication module.

The scheme is mainly used for collecting environmental parameters and images in a monitoring environment.

However, many monitoring devices (including sensors) operate independently, and there is no organic combination between the devices, which results in stacking and wasting resources.

Therefore, the technical problem to be solved by the application is as follows: how to improve the monitoring capability of the whole environment and improve the flexibility of the arrangement of the monitoring equipment.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a multiple spot monitored control system, its advantage lies in: the main monitoring unit is responsible for communicating with an external server and monitoring videos of continuity, the auxiliary monitoring unit sends data to the main monitoring unit, and the data are processed by the main monitoring unit, so that the monitoring capability of the system for improving the overall environment and the flexibility of arrangement of monitoring equipment are improved.

In order to achieve the above object, the utility model provides a following technical scheme: a multipoint monitoring system comprises a main monitoring unit and an auxiliary monitoring unit; the main monitoring unit comprises a first communication module, a second communication module, a first controller and a first camera, the auxiliary monitoring unit comprises a second controller, a third communication module, a second camera and a second sensor for monitoring parameters in the surrounding environment, and the second communication module is in communication connection with the third communication module; the first communication module is in communication connection with a server of a peripheral device based on a 4G or 5G communication technology; the first camera, the first communication module, the second communication module and the first controller are electrically connected; and the third communication module, the second sensor, the second camera and the second controller are electrically connected.

In the above multipoint monitoring system, the second communication module and the third communication module are communication modules and/or network ports that communicate via a wifi network.

In the multipoint monitoring system described above, the main monitoring unit further comprises a first sensor for monitoring a parameter in the ambient environment.

In the multipoint monitoring system, the second sensor is one or more of a temperature sensor, an air pressure sensor, a humidity sensor, a gas detection sensor and an infrared detection probe.

In the multipoint monitoring system, the first sensor is one or more of a temperature sensor, an air pressure sensor, a humidity sensor, a gas detection sensor and an infrared detection probe.

In the multipoint monitoring system, the second controller is configured to control the second camera to capture an image when the second sensor monitors that the parameter in the surrounding environment exceeds a preset standard, control the third communication module to send the image and the data monitored by the second sensor to the main monitoring unit, and send the image and the data monitored by the second sensor to an external server by the main monitoring unit;

the second controller is further used for continuously sending the data monitored by the second sensor to the main monitoring unit, and the main monitoring unit sends the data monitored by the second sensor to an external server.

In the multipoint monitoring system, the first controller is configured to send the image and data sent by the auxiliary monitoring unit and the image obtained by the first camera to an external server.

In the multipoint monitoring system, the first controller is further configured to send data obtained by the first sensor to a server of an external device.

Compared with the prior art, the beneficial effects of the utility model are that:

the utility model discloses in, the main monitoring unit passes through WIFI or the net twine is connected assists the monitoring unit, handles the data that supplementary monitoring unit conveys to through 4/5G wireless transmission to the high in the clouds, improved the monitoring ability of the improvement overall environment of system, improve the flexibility that monitoring facilities arranged.

In order to improve the processing capacity of the whole monitoring system, the auxiliary monitoring unit also adopts a sensor triggering mode for monitoring, namely, when the environment (temperature, humidity, air pressure, gas concentration and the like) measured by the environment sensor carried by the second sensor exceeds the standard, the second camera in the auxiliary monitoring unit is started to record video, and the video is transmitted to the main monitoring unit, so that the requirement on the video processing capacity of the main monitoring equipment is reduced, and the whole system is more energy-saving and efficient.

Drawings

Fig. 1 is a structural diagram of embodiment 1 of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Example 1

Referring to fig. 1, a multipoint monitoring system includes a main monitoring unit 1 and an auxiliary monitoring unit 2; the main monitoring unit 1 comprises a first communication module 13, a second communication module 14, a first controller 11 and a first camera 12, the auxiliary monitoring unit 2 comprises a second controller 21, a third communication module 22, a second camera 23 and a second sensor 24 for monitoring parameters in the surrounding environment, and the second communication module 14 is in communication connection with the third communication module 22; the first communication module 13 is in communication connection with a server of a peripheral device based on a 4G or 5G communication technology; the first camera 12, the first communication module 13, the second communication module 14 and the first controller 11 are electrically connected; the third communication module 22, the second sensor 24, the second camera 23 and the second controller 21 are electrically connected.

In this embodiment, main monitor unit 1 is connected through WIFI or net twine and is assisted the monitor unit, handles the data that supplementary monitor unit 2 conveys to through 4/5G wireless transmission to the high in the clouds, improved the monitoring ability of the improvement overall environment of system, improve the flexibility that monitoring devices arranged.

The number of the main monitoring units 1 is generally one, and the number of the auxiliary monitoring units 2 is plural.

In order to improve the processing capacity of the whole monitoring system, the auxiliary monitoring unit 2 also adopts a sensor triggering mode for monitoring, namely, when the environment (temperature, humidity, air pressure, gas concentration and the like) measured by the environment sensor arranged on the second sensor 24 exceeds the standard, the second camera 23 in the auxiliary monitoring unit 2 is started to record a video and transmits the video to the main monitoring unit 1, so that the requirement on the video processing capacity of the main monitoring equipment is reduced, and the whole system is more energy-saving and efficient.

Specifically, the second controller 21 is configured to control the second camera 23 to capture an image to obtain an image when the second sensor 24 monitors that the parameters in the surrounding environment exceed a preset standard, control the third communication module 22 to send the image and the data monitored by the second sensor 24 to the main monitoring unit 1, and send the image and the data monitored by the second sensor 24 to an external server by the main monitoring unit 1;

the second controller 21 is further configured to continuously send data monitored by the second sensor 24 to the main monitoring unit 1, and the main monitoring unit 1 sends the data monitored by the second sensor 24 to an external server.

In other words, in the auxiliary monitoring unit 2 of this embodiment, in a normal state, the second camera 23 is not operated, unless the second sensor 24 detects an abnormality, the second camera 23 is operated under the control of the second controller 21, and sends the image and the data to the second communication module 14 through the third communication module 22, and the first controller 11 may directly upload the received data and the image, or may analyze the data again, and upload the image and the data sent by the third communication module 22 after obtaining a result of the abnormality of the parameter of the environment according to the analysis.

Preferably, the second communication module 14 and the third communication module 22 are communication modules and/or network ports for communication through wifi network. The main monitoring unit 1 further comprises a first sensor 15 for monitoring parameters in the surrounding environment, and preferably, the first controller 11 is configured to send the images and data sent by the auxiliary monitoring unit 2 and the images obtained by the first camera 12 to a peripheral server.

In practical applications, the first sensor 15 and the second sensor 24 are both a temperature sensor, an air pressure sensor, a humidity sensor, a gas detection sensor, and an infrared detection probe.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims

1. A multipoint monitoring system comprises a main monitoring unit and an auxiliary monitoring unit; the system is characterized in that the main monitoring unit comprises a first communication module, a second communication module, a first controller and a first camera, the auxiliary monitoring unit comprises a second controller, a third communication module, a second camera and a second sensor for monitoring parameters in the surrounding environment, and the second communication module is in communication connection with the third communication module; the first communication module is in communication connection with a server of a peripheral device based on a 4G or 5G communication technology; the first camera, the first communication module, the second communication module and the first controller are electrically connected; and the third communication module, the second sensor, the second camera and the second controller are electrically connected.

2. The multipoint monitoring system of claim 1, wherein the second communication module and the third communication module are communication modules and/or network ports that communicate via a wifi network.

3. The multipoint monitoring system of claim 1, wherein said primary monitoring unit further comprises a first sensor for monitoring a parameter in the ambient environment.

4. The multipoint monitoring system of claim 1, wherein said second sensor is one or more of a temperature sensor, a barometric pressure sensor, a humidity sensor, a gas detection sensor, an infrared detection probe.

5. The multipoint monitoring system of claim 3, wherein said first sensor is one or more of a temperature sensor, a barometric pressure sensor, a humidity sensor, a gas detection sensor, an infrared detection probe.

6. The multipoint monitoring system according to claim 1, wherein the second controller is configured to control the second camera to capture an image when the second sensor monitors that the parameter in the surrounding environment exceeds a preset standard, control the third communication module to send the image and the data monitored by the second sensor to the main monitoring unit, and send the image and the data monitored by the second sensor to a peripheral server by the main monitoring unit;

7. The multipoint monitoring system according to claim 6, wherein the first controller is configured to send the image and data from the auxiliary monitoring unit and the image obtained by the first camera to the peripheral server.

8. The multipoint monitoring system of claim 3, wherein said first controller is further configured to send data obtained by the first sensor to a server of the peripheral device.

9. The multipoint monitoring system of any of claims 1-8, wherein there is one primary monitoring unit and a plurality of secondary monitoring units.