阅读说明：本技术 一种基于物联网智能空气开关的智能照明控制系统 (Intelligent lighting control system based on intelligent air switch of Internet of things ) 是由 徐东 季建新 石磊 于 2019-10-31 设计创作，主要内容包括：本发明公开了一种基于物联网智能空气开关的智能照明控制系统,属于电力控制系统技术领域,包括网络系统、边缘服务器、云服务器、本地用户终端、远程用户终端和多个用电监控单元,用电监控单元通过网络系统分别与边缘服务器和云服务器连接,远程用户终端与云服务器连接,本地用户终端与边缘服务器相连；所述用电监控单元包括物联网智能空气开关、通讯模块、电源模块和照明设备。本发明中,采用物联网智能空气开关不仅可以确保用电安全,而且也可以将单路的最大额定工作电流增大,同时将智能照明控制系统变得简单化和智能化。(The invention discloses an intelligent lighting control system based on an intelligent air switch of the Internet of things, which belongs to the technical field of power control systems and comprises a network system, an edge server, a cloud server, a local user terminal, a remote user terminal and a plurality of power utilization monitoring units, wherein the power utilization monitoring units are respectively connected with the edge server and the cloud server through the network system; the power consumption monitoring unit comprises an internet of things intelligent air switch, a communication module, a power module and lighting equipment. According to the invention, the Internet of things intelligent air switch is adopted, so that the electricity safety can be ensured, the maximum rated working current of a single path can be increased, and meanwhile, the intelligent lighting control system is simplified and intelligentized.)

1. The utility model provides an intelligence lighting control system based on thing networking intelligence air switch which characterized in that: the system comprises a network system, an edge server, a cloud server, a remote user terminal, a local user terminal and a plurality of power utilization monitoring units; the power utilization monitoring unit is respectively connected with the edge server and the cloud server through a network system, the local user terminal is connected with the edge server, and the remote user terminal is connected with the cloud server;

the power utilization monitoring unit comprises an Internet of things intelligent air switch, a communication module, a power supply module and lighting equipment; the intelligent air switch of the internet of things is correspondingly connected with the lighting equipment of the same path, the intelligent air switch of the internet of things acquires power consumption data of the lighting equipment, one communication module is used for transmitting the power consumption data of the intelligent air switches of the multiple internet of things, and the power supply module provides direct current power supply for the communication module and the intelligent air switch of the internet of things respectively.

2. The intelligent lighting control system based on the intelligent air switch of the internet of things according to claim 1, wherein: the network system is an ad hoc network and comprises a wired network, a wireless network and an IOT network.

3. The intelligent lighting control system based on the intelligent air switch of the internet of things according to claim 2, characterized in that: the network system comprises a local area network and an internet connected with the local area network, the edge server is connected with the local area network, and the cloud server is connected with the internet.

4. The intelligent lighting control system based on the intelligent air switch of the internet of things according to claim 1, wherein: the local area network is connected with a plurality of local user terminals and used for controlling a plurality of corresponding lighting devices.

5. The intelligent lighting control system based on the intelligent air switch of the internet of things according to claim 1, wherein: the electricity utilization data comprise on-off states, voltage, current, loads, energy consumption, leakage current, line temperature, alarm signals and the like.

6. The intelligent lighting control system based on the intelligent air switch of the internet of things according to claim 1, wherein: and intelligent lighting control software is installed on the edge server.

Technical Field

The invention belongs to the technical field of power control systems, and particularly relates to an intelligent lighting control system based on an intelligent air switch of the Internet of things.

Background

The intelligent lighting control is to automatically turn on or off corresponding lights according to different functions, different times and different light brightness of a certain area. Most of the intelligent lighting control systems in the market at present are provided with panel-type intelligent switches behind air switches or centralized controllers in control boxes, and the lighting circuits are controlled to be on or off in a wireless or bus mode, but the management of the lighting circuits is lacked, the power utilization dangerous conditions such as electric leakage, ignition, short circuit, overvoltage, overcurrent, overload and line temperature excess of the lighting circuits cannot be identified and controlled, and the load quantity and change and whether overload exists cannot be identified and controlled. Since these devices are all using relays to perform current breaking of the loop, and cannot ensure safety, they must be installed after the air switch, which not only makes installation complicated, but also limits the rated operating current of a single circuit not to exceed 16A at most.

Disclosure of Invention

The invention aims to: in order to solve the existing problems, the invention provides the intelligent lighting control system based on the internet of things intelligent air switch, which adopts the internet of things air switch to directly control the lighting loop, carries out centralized control and management through a wired network, a wireless network and a bus, ensures the safety of power utilization, can increase the maximum rated working current of a single path to be more than 100A, and simultaneously simplifies and intelligentizes the intelligent lighting control system.

In order to achieve the purpose, the invention adopts the following technical scheme:

an intelligent lighting control system based on an intelligent air switch of the Internet of things comprises a network system, an edge server, a cloud server, a remote user terminal, a local user terminal and a plurality of power utilization monitoring units, wherein the power utilization monitoring units are respectively connected with the edge server and the cloud server through the network system;

the power utilization monitoring unit comprises an Internet of things intelligent air switch, a communication module, a power supply module and lighting equipment; the intelligent air switch of the internet of things is correspondingly connected with the lighting equipment of the same path, the intelligent air switch of the internet of things acquires power consumption data and controls the on-off of a lighting loop, one communication module is used for transmitting the power consumption data of the intelligent air switches of the multiple internet of things, a power supply module provides direct current power supply for the communication module and the intelligent air switch of the internet of things respectively, the communication module is connected with an edge server, and the power consumption data is uploaded, and an instruction from the edge server is received and forwarded.

Further, the network system is an ad hoc network including a wired network, a wireless network, and an IOT network.

Further, the network system comprises a local area network and an internet connected with the local area network, the edge server is connected with the local area network, and the cloud server is connected with the internet.

Furthermore, the local area network is connected with a plurality of local user terminals for operating a plurality of corresponding lighting devices.

Further, the electricity consumption data comprises on-off state, voltage, current, load, energy consumption, leakage current, line temperature and alarm signals.

Furthermore, intelligent lighting control software is installed on the edge server.

The invention has the beneficial effects that:

in the invention, the lighting loop is directly controlled by the air switch of the Internet of things, centralized control and management are carried out through a wired network, a wireless network and a bus, the information of current, voltage, power consumption, line temperature, electric leakage, short circuit, overcurrent, overvoltage and undervoltage, overload, load change and the like of all the lighting loops is detected and collected, and intelligent control and management are carried out according to the requirements of users. Adopt thing networking intelligence air switch not only can ensure the power consumption safety, but also can increase the maximum rated operating current of one way, become intelligent lighting control system simplification and intellectuality simultaneously.

Drawings

Fig. 1 is a framework diagram of the present invention.

Detailed Description

The technical solution of the present invention is further described below, but the scope of the claimed invention is not limited to the described.

As shown in fig. 1, an intelligent lighting control system based on an intelligent air switch of the internet of things comprises a network system, an edge server, a cloud server, a local user terminal, a remote user terminal and a plurality of power utilization monitoring units, wherein the power utilization monitoring units are respectively connected with the edge server and the cloud server through the network system, the local user terminal is connected with the edge server, and the remote user terminal is connected with the cloud server;

the power utilization monitoring unit comprises an Internet of things intelligent air switch, a communication module, a power supply module and lighting equipment; the intelligent air switch of the internet of things is correspondingly connected with the lighting equipment of the same path, the intelligent air switch of the internet of things acquires power consumption data and controls the on-off of a lighting loop, one communication module is used for transmitting the power consumption data of the intelligent air switches of the internet of things, the communication module is connected with an edge server, the power consumption data of the intelligent air switch of the internet of things is uploaded, a control instruction from the edge server is received and forwarded, and a power supply module provides direct current power supply for the communication module and the intelligent air switch of the internet of things respectively.

The network system is an ad hoc network and comprises a wired network, a wireless network and an IOT network.

The network system comprises a local area network and an internet connected with the local area network, the edge server is connected with the local area network, and the cloud server is connected with the internet.

The local area network is connected with a plurality of local user terminals and used for controlling a plurality of corresponding lighting devices.

The electricity utilization data comprise on-off states, voltage, current, load, energy consumption, leakage current, line temperature and alarm signals.

And intelligent lighting control software is installed on the edge server.

Wherein:

the intelligent air switch of the internet of things is used for connecting and collecting power consumption data of the lighting equipment, transmitting the power consumption data to the communication module, receiving control signals of the remote user terminal, the local user terminal and the edge server and controlling the on-off of a power supply loop;

the communication module is used for collecting power consumption data of the lighting equipment controlled by the intelligent air switch of the Internet of things, uploading the power consumption data to the network system, and simultaneously sending control signals from the user terminal and the edge server to the intelligent air switch of the Internet of things;

the edge server is used for receiving the electricity utilization data of all lighting equipment controlled by the Internet of things intelligent air switch uploaded by the communication module, making statistics, analysis and judgment through installed intelligent lighting control software, sending related control signals to the communication module, sending related data to a local user side, a cloud server and a remote user side, receiving control instructions from the local user side, the cloud server and the remote user side, forwarding the control instructions to the related communication module and the Internet of things intelligent air switch, and sending on-off control commands to the Internet of things intelligent air switch at regular time or according to scenes according to programs edited and set in the intelligent lighting control software.

And the local user side is used for setting and editing functions of the intelligent air switch of the Internet of things, editing the timing or scene of the lighting loop, checking and inquiring power consumption data, manually controlling the on-off of any intelligent air switch of the Internet of things, and manually starting or stopping the operation of the scene. And receiving power utilization data of the intelligent air switch of the Internet of things sent by the edge server.

The power supply module is used for providing direct current power supply for the communication module and the intelligent air switch of the Internet of things;

the cloud server is used for storing and processing a large amount of power utilization data of the lighting equipment, sending related data to the remote user side, and receiving and forwarding a control signal of the remote user side for controlling the on-off of the intelligent air switch of the Internet of things;

the remote user terminal is used for uploading relevant instructions for controlling the intelligent air switch of the Internet of things to the cloud server, and the relevant instructions are downloaded to the edge server by the cloud server to control the intelligent air switch of the Internet of things, function setting and editing are carried out on the intelligent air switch of the Internet of things, timing or scenes of lighting loops are edited, electricity consumption data are checked and inquired, on-off of any intelligent air switch of the Internet of things is manually controlled, and operation of the scenes is manually started or stopped. And receiving power utilization data of the Internet of things intelligent air switch downloaded by the cloud server.

According to the scheme, power consumption data such as voltage, current, load, energy consumption, line temperature, alarm and the like corresponding to one path of lighting equipment are collected through an Internet of things intelligent air switch, then the data are uniformly sent to a network system through a communication module, when a local user terminal is needed to be debugged, the function setting and editing of the Internet of things intelligent air switch can be carried out through the local user terminal such as a PC, the timing or the scene of a lighting loop is edited, the power consumption data is checked and inquired, the on-off of any Internet of things intelligent air switch is manually controlled, and the operation of the scene is manually started or stopped; meanwhile, the electricity utilization data can be transmitted to the edge server through the self-organized network system, the electricity utilization data are counted, analyzed and judged through software of an intelligent lighting control system installed on the edge server, an analysis result is sent to a local user terminal or a cloud server, then the cloud server sends the analysis result to a remote user terminal, and according to data displayed by the user terminal, a user inputs a related control signal for controlling the intelligent air switch of the internet of things through the local user terminal or the remote user terminal to control the on-off of a power supply loop.