CN111752196A

CN111752196A - Remote monitoring system based on 4GCAT1

Info

Publication number: CN111752196A
Application number: CN202010585735.0A
Authority: CN
Inventors: 徐玉峰; 薛宁; 李莎莎; 孙玮丽; 常冲; 王育宝
Original assignee: Aucma Co Ltd
Current assignee: Aucma Co Ltd
Priority date: 2020-06-24
Filing date: 2020-06-24
Publication date: 2020-10-09

Abstract

The invention discloses a remote monitoring system based on 4GCAT1, and relates to the field of cold chain equipment monitoring systems. Remote monitering system based on 4GCAT1 includes main cabinet module, vice cabinet module and peripheral electrical part, and a plurality of vice cabinet modules are connected to each main cabinet module, and vice cabinet module passes through singlechip and LORA module communication, transmits the gateway of main cabinet module with monitoring information, and the gateway of main cabinet module and the singlechip of main cabinet module, 4GCat1 module communication are with data transmission to cloud platform server, and cloud platform server passes through the form show of webpage and app. The main cabinet module is internally provided with a single chip microcomputer peripheral control circuit, the power supply module supplies power to the main cabinet module, the 4GCAT1 module is communicated with the monitoring platform, and the gateway of the main control module is communicated with the LORA module. The monitoring system can monitor commercial products through a network, control communication of the monitoring system is achieved, positioning signal intensity and positioning accuracy are guaranteed, and cost of the system is greatly reduced.

Description

Remote monitoring system based on 4GCAT1

Technical Field

The invention relates to the field of cold chain equipment monitoring systems, in particular to a remote monitoring system based on 4GCAT 1.

Background

2G networks were built starting in 1994 and have been in network operation for 25 years. The 2G network technology is not fallen behind, the equipment is old, the energy consumption efficiency is low, the maintenance is difficult, and limited spectrum resources are not fully utilized due to the occupation of high-quality gold spectrum resources. From the international market, 2G network shutdown has become a common consensus, and operators in many countries and regions start to shut down 2G networks in the 4G era, and accelerate the shutdown of 2G networks in the 5G era. Meanwhile, the 4G module is higher in price at present, which causes higher cost pressure for users.

Disclosure of Invention

The invention aims to overcome the defects and provides a remote monitoring system based on 4GCAT1, which monitors information of commercial products through a network.

The invention specifically adopts the following technical scheme:

4GCAT 1-based remote monitoring system, including main cabinet module, vice cabinet module and peripheral electrical part, a plurality of vice cabinet modules are connected to each main cabinet module, the vice cabinet module passes through singlechip and LORA module communication, with the gateway of main cabinet module of monitoring information transmission, the gateway of main cabinet module and the singlechip of main cabinet module, 4GCAT1 module communication, with data transmission to cloud platform server, cloud platform server passes through the form show of webpage and app.

Preferably, a single-chip microcomputer peripheral control circuit is arranged in the main cabinet module, the power supply module supplies power to the main cabinet module, the 4GCAT1 module is communicated with the monitoring platform, and the gateway of the main control module is communicated with the LORA module.

Preferably, the peripheral electric device comprises a temperature sensor for collecting the temperature of the cold chain product, a temperature and humidity sensor for collecting the humidity of the cold chain product, a fan and a led lamp.

Preferably, the single chip microcomputer of the auxiliary cabinet module collects data and communicates with the LORA module, the data received by the LORA module is transmitted to the main cabinet module through the gateway, and the main cabinet module communicates with the monitoring platform through the 4GCAT1 module and transmits the data to the monitoring platform; if the operation platform is required to issue an instruction, the issued instruction is transmitted to the single chip microcomputer of the main cabinet module through the 4GCAT1 module, the single chip microcomputer is issued to the LORA module of the auxiliary cabinet module through the gateway, the LORA module is communicated with the single chip microcomputers of the respective auxiliary cabinets, and peripheral equipment is controlled through the single chip microcomputers; and if the control instruction control issued by the operating platform is not needed, transmitting the equipment state data to the platform at intervals.

The invention has the following beneficial effects:

the monitoring system can monitor the temperature (including the refrigeration temperature, the ambient temperature, the compressor temperature and the temperature of a multi-temperature area), the position information, the state information (the state of a fan and the state of a compressor), the power consumption condition, the door opening times, the remote control (temperature regulation and remote on-off state) and the like of a commercial product through a network. The control communication of the monitoring system is realized, the signal intensity of the positioning and the positioning accuracy are ensured, and the cost of the module is greatly reduced.

Drawings

FIG. 1 is a block diagram of a 4GCAT 1-based remote monitoring system;

FIG. 2 is a hardware block diagram of a 4GCAT 1-based remote monitoring system;

FIG. 3 is a flow chart of the operation of a remote monitoring system based on 4GCAT 1;

FIG. 4 is a schematic diagram of a 4GCAT 1-based remote monitoring system applied to a convenience store scenario;

fig. 5 is a schematic diagram of a remote monitoring system based on 4GCAT1 applied to a supermarket scene.

Detailed Description

The following description of the embodiments of the present invention will be made with reference to the accompanying drawings:

with reference to fig. 1-3, the remote monitoring system based on 4GCAT1 includes a main cabinet module, a sub cabinet module and peripheral electric devices, each main cabinet module is connected with a plurality of sub cabinet modules, the sub cabinet modules communicate with the LORA module through a single chip microcomputer, monitoring information is transmitted to a gateway of the main cabinet module, the gateway of the main cabinet module communicates with the single chip microcomputer of the main cabinet module and the 4GCAT1 module, data is transmitted to a cloud platform server, and the cloud platform server is displayed through a webpage and an app form.

The main cabinet module is internally provided with a single chip microcomputer peripheral control circuit, the power supply module supplies power to the main cabinet module, the 4GCAT1 module is communicated with the monitoring platform, and the gateway of the main control module is communicated with the LORA module.

The peripheral electric device comprises a temperature sensor for collecting the temperature of the cold chain product, a temperature and humidity sensor for collecting the humidity of the cold chain product, a fan, an LED lamp, a compressor and a display screen. The compressor is the refrigeration core of cold chain product, and the display screen can show the set temperature and the actual temperature of adjusting the cold chain product.

The single chip microcomputer can control the start and stop of the compressor, collect the operation information of the compressor and control the start and stop of the fan; temperature data of temperature and humidity sensors can be collected; the start and stop of the LED lamp can be controlled; and receiving key information of the display screen, and outputting temperature and humidity data of the temperature and humidity sensor.

The single chip microcomputer of the auxiliary cabinet module acquires data and communicates with the LORA module, the data received by the LORA module is transmitted to the main cabinet module through the gateway, and the main cabinet module communicates with the monitoring platform through the 4GCAT1 module and transmits the data to the monitoring platform; if the operation platform is required to issue an instruction, the issued instruction is transmitted to the single chip microcomputer of the main cabinet module through the 4GCAT1 module, the single chip microcomputer is issued to the LORA module of the auxiliary cabinet module through the gateway, the LORA module is communicated with the single chip microcomputers of the respective auxiliary cabinets, and peripheral equipment is controlled through the single chip microcomputers; and if the control instruction control issued by the operating platform is not needed, transmitting the equipment state data to the platform at intervals.

With reference to fig. 4, in use scenario 1, in a convenience store, there are n sub-cabinet modules (hot drink, ice, air curtain, cold drink, etc.), the main cabinet module can be positioned on a freezer, the sub-cabinet modules are all equipped with LORA modules, and the main cabinet module is equipped with 4GCAT1 modules.

With reference to fig. 5, in a usage scenario 2, a supermarket has a combined island cabinet, the island cabinet has n sub-cabinet modules, a main cabinet module, the sub-cabinet modules are all equipped with LORA modules, and the main cabinet module is equipped with 4GCAT1 modules.

The monitoring system is not limited to 4G, and can be based on other networks.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and those skilled in the art may make modifications, alterations, additions or substitutions within the spirit and scope of the present invention.

Claims

1. Remote monitering system based on 4GCAT1, its characterized in that, including main cabinet module, vice cabinet module and peripheral electrical part, a plurality of vice cabinet modules are connected to each main cabinet module, vice cabinet module passes through singlechip and LORA module communication, transmits monitoring information to the gateway of main cabinet module, the gateway of main cabinet module and the singlechip of main cabinet module, 4GCat1 module communication, with data transmission to cloud platform server, cloud platform server passes through the form show of webpage and app.

2. The remote monitoring system according to claim 1, wherein the main cabinet module is provided with a single chip peripheral control circuit, the power supply module supplies power to the main cabinet module, the 4GCAT1 module communicates with the monitoring platform, and the gateway of the main control module communicates with the LORA module.

3. The 4GCAT 1-based remote monitoring system according to claim 1, wherein the peripheral electrical devices comprise a temperature sensor for collecting the temperature of the cold chain product, a temperature and humidity sensor for collecting the humidity of the cold chain product, a fan and a led lamp.

4. The remote monitoring system based on 4GCAT1 as claimed in claim 1, wherein the single chip microcomputer of the auxiliary cabinet module collects data and communicates with the LORA module, the data received by the LORA module is transmitted to the main cabinet module through the gateway, and the main cabinet module communicates with the monitoring platform through the 4GCAT1 module to transmit the data to the monitoring platform; if the operation platform is required to issue an instruction, the issued instruction is transmitted to the single chip microcomputer of the main cabinet module through the 4GCAT1 module, the single chip microcomputer is issued to the LORA module of the auxiliary cabinet module through the gateway, the LORA module is communicated with the single chip microcomputers of the respective auxiliary cabinets, and peripheral equipment is controlled through the single chip microcomputers; and if the control instruction control issued by the operating platform is not needed, transmitting the equipment state data to the platform at intervals.