CN105792440A - Wireless signal-to-Ethernet conversion intelligent illumination system gateway - Google Patents

Abstract

A wireless signal-to-Ethernet conversion intelligent illumination system gateway provided by the present invention comprises an overcurrent protection unit used for carrying out the overcurrent protection on a pluggable circuit breaker unit and an AC circuit; an AC/DC conversion unit used for converting an accessed AC into a DC; an electric quantity monitoring unit for monitoring the electrical parameters real-timely; a wireless ad-hoc network data route unit for realizing an ad-hoc network with at least one external wireless ad-hoc network variable power intelligent illumination device based on internet of things; an embedded real-time multitask scheduling unit for generating an on-off control instruction; a pluggable relay unit for controlling the power supply on-off of a load circuit automatically; an Ethernet data exchange unit for converting the data of an internet of things wireless ad-hoc network protocol format into the data of an Ethernet protocol format. The wireless signal-to-Ethernet conversion intelligent illumination system gateway of the present invention integrates the functions as one, such as a loop control function, an overcurrent protection function, a wireless communication function with an external internet of things sensor device, etc., other hardware equipment do not need to be added for realizing the above functions, and the cost is saved.

Description

Wireless signal turns the intelligent illuminating system gateway of Ethernet

Technical field

The present invention relates to lighting control technique field, turn the intelligent illuminating system gateway of Ethernet particularly to a kind of wireless signal.

Background technology

In prior art; gateway can realize protocol conversion function; but the function of high-power circuit controls, overcurrent protection, data acquisition, wireless telecommunications and background management system exchange data can not be had both simultaneously; realize function above and need the work that cooperates on plurality of devices hardware and software; the hardware device needed is many, causes that the cost realizing function increases.

Patent CN103997829A discloses a kind of intelligent radio illuminator based on DC low-voltage LED; although this gateway can realize and outside wireless communication function, but integrated high-power circuit controls, overcurrent protection, data acquisition, wireless telecommunications and background management system cannot exchange the above-mentioned functions such as data simultaneously.

Summary of the invention

The purpose of the present invention is intended at least solve one of described technological deficiency.

For this; it is an object of the invention to propose a kind of wireless signal and turn the intelligent illuminating system gateway of Ethernet; integrate the function such as circuit controls function, overcurrent protection, electric quantity acquisition and outside internet of things sensors equipment wireless telecommunications and background management system exchange data; realize above-mentioned functions and need not increase other hardware device, provide cost savings.

To achieve these goals, embodiments of the invention provide a kind of wireless signal to turn the intelligent illuminating system gateway of Ethernet, including:

Over-current protecting unit; the input of described over-current protecting unit is connected with outside pluggable breaker unit; described pluggable breaker unit incoming transport electricity; described over-current protecting unit for carrying out overcurrent protection to described pluggable breaker unit and alternating current circuit, and generate fault status signal when there is current failure；

AC/DC converter unit, the input of described AC/DC converter unit is connected with described pluggable breaker unit, for the alternating current accessed is converted to unidirectional current；

Electric quantity monitoring unit, the input of described electric quantity monitoring unit is connected with described AC/DC converter unit, monitors in real time for the electric parameter that equipment in ac circuit is run；

Wireless self-networking data routing units, at least one of described wireless self-networking data routing units and outside realizes MANET based on the wireless self-networking variable power Intelligent illumination device of Internet of Things, and terminal and sensor unit radio communication is controlled with outside Internet of Things, for realize outside other carry out data interaction and logic control based on the wireless self-networking variable power Intelligent illumination device based on Internet of Things any one or more with local in the wireless self-networking variable power Intelligent illumination device of Internet of Things, and receive the sensing data of control data and the described sensor unit controlling terminal from described Internet of Things；

Embedded real-time multitask scheduling unit; described embedded real-time multitask scheduling unit and the outfan of described AC/DC converter unit, the outfan of described over-current protecting unit, the outfan of described electric quantity monitoring unit and described wireless self-networking data routing units are connected; for working under the unidirectional current that described AC/DC converter unit provides; receive described fault status signal, electric parameter and sensing data, and generate the break-make control instruction for controlling load circuit on/off；

Pluggable relay unit, described pluggable relay unit is connected with described embedded real-time multitask scheduling unit and load circuit, for automatically controlling the on/off of described load circuit according to described break-make control instruction；

Ethernet data crosspoint, described Ethernet data crosspoint is connected with described embedded real-time multitask scheduling unit and background management system, for the data of Internet of Things wireless self-networking protocol format being converted to the data of Ethernet protocol form, and the data of described Ethernet protocol form are sent to described background management system.

Further, the Internet of Things control terminal of described outside includes: handheld terminal, intelligent switch and/or mobile terminal；Described sensor unit includes: GPS alignment sensor, traffic flow sensor, air velocity transducer, Temperature Humidity Sensor, liquid level sensor, rain sensor, noise decibel value sensor, PM2.5 concentration sensor, pressure transducer and liquid flow sensor.

Further, described load circuit is the wireless self-networking variable power Intelligent illumination device based on Internet of Things.

Further, described embedded real-time multitask scheduling unit is provided with unique identifier, turns the position feature of intelligent illuminating system gateway and the identity characteristic of Ethernet for recording described wireless signal.

Further, also include local control unit, described local control unit is connected with described pluggable relay unit, for arranging described pluggable relay unit by the automatic control mode by described embedded real-time task scheduling unit, switch to the MANUAL CONTROL mode by described local control unit, to realize the switching to ac power supply circuit mode of operation.

Further, any two in wireless self-networking is based on wireless connections between the wireless self-networking variable power Intelligent illumination device of Internet of Things, to carry out data interaction.

Further, described embedded real-time multitask scheduling unit is additionally operable to by described Ethernet data crosspoint, receive the control instruction from described background management system, and described control instruction is sent each node to wireless self-networking by described wireless self-networking data routing units.

Further, described embedded real-time multitask scheduling unit is additionally operable to described sensing data is analyzed, the brightness value according to the wireless self-networking variable power Intelligent illumination device based on Internet of Things analyzed in output control administration.

Further, described electric parameter includes: voltage, electric current, power, electricity and harmonic wave.

Further, described embedded real-time multitask scheduling unit adopts microcontroller.

Wireless signal according to embodiments of the present invention turns the intelligent illuminating system gateway of Ethernet; ac power supply circuit can be collected control to be transmitted as one with logical process and data; it is integrated with the function such as circuit controls function, overcurrent protection, electric quantity acquisition and outside internet of things sensors equipment wireless telecommunications and background management system exchange data; loop break-make and other terminal unit is controlled by external signal; realize above-mentioned functions and need not increase other hardware device, provide cost savings.The present invention is by background management system or by wireless self-networking data routing units, it is achieved its own system is scalable, saves buying and the installation cost of the required hardware replacement of upgrading.The present invention set by function above so that gateway achieves real intellectuality.

Aspect and advantage that the present invention adds will part provide in the following description, and part will become apparent from the description below, or is recognized by the practice of the present invention.

Accompanying drawing explanation

Above-mentioned and/or the additional aspect of the present invention and advantage are from conjunction with will be apparent from easy to understand the accompanying drawings below description to embodiment, wherein:

Fig. 1 is that wireless signal turns the structure chart of the intelligent illuminating system gateway of Ethernet according to an embodiment of the invention；

Fig. 2 is that wireless signal turns the structure chart of the intelligent illuminating system gateway of Ethernet in accordance with another embodiment of the present invention.

Detailed description of the invention

Being described below in detail embodiments of the invention, the example of described embodiment is shown in the drawings, and wherein same or similar label represents same or similar element or has the element of same or like function from start to finish.The embodiment described below with reference to accompanying drawing is illustrative of, it is intended to is used for explaining the present invention, and is not considered as limiting the invention.

The present invention proposes a kind of wireless signal and turns the intelligent illuminating system gateway of Ethernet, integrates the function such as circuit controls function, overcurrent protection, electric quantity acquisition and outside internet of things sensors equipment wireless telecommunications and background management system exchange data.

As shown in Figure 1; the wireless signal of the embodiment of the present invention turns the intelligent illuminating system gateway of Ethernet, including: over-current protecting unit 1, AC/DC converter unit 2, electric quantity monitoring unit 3, wireless self-networking data routing units 4, embedded real-time multitask scheduling unit 5, pluggable relay unit 6 and Ethernet data crosspoint 7.

Specifically, the input of over-current protecting unit 1 is connected with outside pluggable breaker unit, and pluggable breaker unit accesses mains electricity, powers to over-current protecting unit 1.

Pluggable breaker unit and alternating current circuit are carried out overcurrent protection by over-current protecting unit 1, and generate fault status signal when there is current failure.Specifically, the generation overcurrent fault of load end short circuit or overload can be shielded by over-current protecting unit 1, and when the current failure occurred, fault status signal feeds back to embedded real-time multitask scheduling unit 5.

The input of AC/DC converter unit 2 is connected with pluggable breaker unit, for the alternating current accessed is converted to unidirectional current.Specifically, 100V-240V-380V alternating voltage can be transferred to one or more galvanic current pressure by AC/DC converter unit 2, reliable and stable working power is provided for rear end equipment normal operation, make wireless Internet of things node without considering dump energy problem, avoid tradition router of internet of things not high because of the battery real-time brought of powering, the problem of network robustness difference.Additionally, AC/DC converter unit 2 has the route protection functions such as power-off protection, earth leakage protective, short-circuit protection, overcurrent protection, overvoltage protection simultaneously.

AC/DC converter unit 2 can turn the working power of the intelligent illuminating system gateway of Ethernet as wireless signal, directly supplies electricity to embedded real-time multitask scheduling unit 5.

The input of electric quantity monitoring unit 3 is connected with AC/DC converter unit 2, monitors in real time for the electric parameter that equipment in ac circuit is run, and automatically analyzes the status of energy consumption of ac circuit according to above-mentioned electric parameter.Wherein, electric parameter includes: voltage, electric current, power, electricity and harmonic wave.

At least one of wireless self-networking data routing units 4 and outside realizes MANET based on the wireless self-networking variable power Intelligent illumination device of Internet of Things, and controls terminal and sensor unit radio communication with outside Internet of Things.

In one embodiment of the invention, the built-in MANET data communication protocol of each wireless self-networking data routing units 4, as long as the distance of neighbouring device meets the reference distance requirement of this data transfer rate, just MANET can be realized, by controlling requirement, multiple wireless self-networking variable power Intelligent illumination devices based on Internet of Things are automatically composed data route and logic control backbone network, and the network topology form of MANET is unrestricted.

Wireless self-networking data routing units 4 can realize outside other carry out data interaction and logic control based on the wireless self-networking variable power Intelligent illumination device based on Internet of Things any one or more with local in the wireless self-networking variable power Intelligent illumination device of Internet of Things.

Any two in wireless self-networking is based on wireless connections between the wireless self-networking variable power Intelligent illumination device of Internet of Things, to carry out data interaction.Any two node in MANET can carry out data exchange, and the transmission range by adjacent two nodes is not limited.

Wireless self-networking data routing units 4 controls terminal with Internet of Things further and sensor unit exchanges data by wireless telecommunications.Such as, wireless self-networking data routing units 4 receives the sensing data of control data and the sensor unit controlling terminal from Internet of Things.

In one embodiment of the invention, outside Internet of Things controls terminal and includes: handheld terminal, intelligent switch and/or mobile terminal.

Sensor unit includes following at least one: GPS alignment sensor, traffic flow sensor, air velocity transducer, Temperature Humidity Sensor, liquid level sensor, rain sensor, noise decibel value sensor, PM2.5 concentration sensor, pressure transducer and liquid flow sensor.

RFID, various internet of things sensors and various power or electric equipment can be networked by wireless self-networking data routing units 4, provide the user the data collection and control functions such as GPS coordinate information, all kinds of ambient parameters, illumination, wind speed, rainfall, liquid level, safety precaution, fire alarm and fire-fighting, heating and ventilation, illumination and air-conditioning, blower fan, water pump.

Simultaneously, outside internet of things sensors and execution control unit, the sensors such as such as all kinds of GPS, temperature, humidity, illumination, pressure, switchgear, handheld terminal, gateway also all can be route by these data and logic control backbone network exchanges data and realizes corresponding logic control function.

Embedded real-time multitask scheduling unit 5 and the outfan of AC/DC converter unit 2, the outfan of over-current protecting unit 1, the outfan of electric quantity monitoring unit 3 and wireless self-networking data routing units 4 are connected.Embedded real-time multitask scheduling unit 5 for working under the unidirectional current that AC/DC converter unit 2 provides, receive fault status signal, electric parameter and sensing data, and generate the break-make control instruction for controlling load circuit on/off, send to pluggable relay unit 6, it is achieved the power supply break-make of outside terminator equipment is controlled.Wherein, load circuit can be the wireless self-networking variable power Intelligent illumination device based on Internet of Things.

Meanwhile, fault status signal, electric parameter and sensing data can be fed back to background management system by Ethernet data crosspoint 7 by embedded real-time multitask scheduling unit 5, management staff be monitored.

Ethernet data crosspoint 7 is connected with embedded real-time multitask scheduling unit 5 and background management system, the data of Ethernet protocol form are converted to so that internet of things equipment has data interaction interface function with ethernet device for the data of the Internet of Things wireless self-networking protocol format of self-embedding in future formula real-time multiprocessors unit 5.Data are realized by Ethernet data crosspoint 7 data interaction of Internet of Things and the Internet.

The data of Ethernet protocol form are sent to background management system by Ethernet data crosspoint 7 further.

In one embodiment of the invention, the data of Internet of Things wireless self-networking protocol format include: fault status signal, electric parameter and the sensing data etc. that embedded real-time multitask scheduling unit 5 sends.

Pluggable relay unit 6 is connected with embedded real-time multitask scheduling unit 5 and load circuit, for automatically controlling the on/off of load circuit according to break-make control instruction, namely the break-make realizing ac power supply circuit controls, and controls the circuit power break-make of ac circuit rear end relatively high power.Adopt pluggable relay unit 6, it is possible to realize quick-replaceable when relay damaged.

Further, embedded real-time multitask scheduling unit 5 can receive the status information of pluggable relay unit 6 further, and passes this status information back background management system by Ethernet data crosspoint 7.

Brightness value additionally, embedded real-time multitask scheduling unit 5 is additionally operable to sensing data is analyzed, according to the wireless self-networking variable power Intelligent illumination device based on Internet of Things analyzed in output control administration.

Embedded real-time multitask scheduling unit 5 can realize and other Intelligent illumination devices cooperating each other when without back-stage management.In addition, embedded real-time multitask scheduling unit 5 can also carry out data exchange with wireless self-networking communication unit, automatically analyze the data of external sensor unit, generate lighting power control signal, control the brightness value of Intelligent illumination device according to actual needs to reach the optimum balance of illuminating effect and energy-saving effect.

Preferably, embedded real-time multitask scheduling unit 5 adopts microcontroller.

In one embodiment of the invention, embedded real-time multitask scheduling unit 5 is provided with unique identifier, turns the position feature of intelligent illuminating system gateway and the identity characteristic of Ethernet for recording wireless signal.Due to, each wireless signal turns the intelligent illuminating system gateway of Ethernet and has unique identifier, it is possible to by this unique identifier, facilitates the application such as later stage information processing and information source tracing.

Further, as in figure 2 it is shown, the wireless signal of the embodiment of the present invention turns the intelligent illuminating system gateway of Ethernet, also include: local control unit 8.Local control unit 8 is connected with pluggable relay unit 6, for arranging pluggable relay unit 6 by the automatic control mode by embedded real-time task scheduling unit 5, switch to the MANUAL CONTROL mode by local control unit, to realize the hands automatic switching function of ac power supply circuit working method.

In one embodiment of the invention, embedded real-time multitask scheduling unit 5 is additionally operable to by Ethernet data crosspoint 7, receive the control instruction from background management system, and by each node that control instruction is sent to wireless self-networking by wireless self-networking data routing units 4, namely by wireless self-networking data routing units 4 and exterior terminal equipment interaction data.

In one embodiment of the invention, each node in wireless self-networking includes: internet-of-things terminal equipment, sensor unit or external wireless MANET Intelligent illumination device.

Such as, embedded real-time multitask scheduling unit 5 sends mutual acquisition controlling instruction to internet-of-things terminal equipment and/or sensor unit by wireless self-networking data routing units 4.

Additionally, external wireless MANET Intelligent illumination device can adopt background management system or carry out system software upgrading by wireless self-networking data routing units 4.

Wireless signal according to embodiments of the present invention turns the intelligent illuminating system gateway of Ethernet; ac power supply circuit can be collected control to be transmitted as one with logical process and data; it is integrated with the function such as circuit controls function, overcurrent protection, electric quantity acquisition and outside internet of things sensors equipment wireless telecommunications and background management system exchange data; loop break-make and other terminal unit is controlled by external signal; realize above-mentioned functions and need not increase other hardware device, provide cost savings.The present invention is by background management system or by wireless self-networking data routing units, it is achieved its own system is scalable, saves buying and the installation cost of the required hardware replacement of upgrading.The present invention set by function above so that gateway achieves real intellectuality.

In the description of this specification, specific features, structure, material or feature that the description of reference term " embodiment ", " some embodiments ", " example ", " concrete example " or " some examples " etc. means in conjunction with this embodiment or example describe are contained at least one embodiment or the example of the present invention.In this manual, the schematic representation of above-mentioned term is not necessarily referring to identical embodiment or example.And, the specific features of description, structure, material or feature can combine in an appropriate manner in any one or more embodiments or example.

Although above it has been shown and described that embodiments of the invention, it is understandable that, above-described embodiment is illustrative of, being not considered as limiting the invention, above-described embodiment can be changed when without departing from principles of the invention and objective, revises, replace and modification by those of ordinary skill in the art within the scope of the invention.The scope of the invention extremely equivalency.

Claims (10)

1. a wireless signal turns the intelligent illuminating system gateway of Ethernet, it is characterised in that including:

Over-current protecting unit; the input of described over-current protecting unit is connected with outside pluggable breaker unit; described pluggable breaker unit incoming transport electricity; described over-current protecting unit for carrying out overcurrent protection to described pluggable breaker unit and alternating current circuit, and generate fault status signal when there is current failure；

AC/DC converter unit, the input of described AC/DC converter unit is connected with described pluggable breaker unit, for the alternating current accessed is converted to unidirectional current；

Electric quantity monitoring unit, the input of described electric quantity monitoring unit is connected with described AC/DC converter unit, monitors in real time for the electric parameter that equipment in ac circuit is run；

Wireless self-networking data routing units, at least one of described wireless self-networking data routing units and outside realizes MANET based on the wireless self-networking variable power Intelligent illumination device of Internet of Things, and terminal and sensor unit radio communication is controlled with outside Internet of Things, for realize outside other carry out data interaction and logic control based on the wireless self-networking variable power Intelligent illumination device based on Internet of Things any one or more with local in the wireless self-networking variable power Intelligent illumination device of Internet of Things, and receive the sensing data of control data and the described sensor unit controlling terminal from described Internet of Things；

Embedded real-time multitask scheduling unit; described embedded real-time multitask scheduling unit and the outfan of described AC/DC converter unit, the outfan of described over-current protecting unit, the outfan of described electric quantity monitoring unit and described wireless self-networking data routing units are connected; for working under the unidirectional current that described AC/DC converter unit provides; receive described fault status signal, electric parameter and sensing data, and generate the break-make control instruction for controlling load circuit on/off；

Pluggable relay unit, described pluggable relay unit is connected with described embedded real-time multitask scheduling unit and load circuit, for automatically controlling the on/off of described load circuit according to described break-make control instruction；

Ethernet data crosspoint, described Ethernet data crosspoint is connected with described embedded real-time multitask scheduling unit and background management system, for the data of Internet of Things wireless self-networking protocol format being converted to the data of Ethernet protocol form, and the data of described Ethernet protocol form are sent to described background management system.

2. wireless signal as claimed in claim 1 turns the intelligent illuminating system gateway of Ethernet, it is characterised in that the Internet of Things of described outside controls terminal and includes: handheld terminal, intelligent switch and/or mobile terminal；

Described sensor unit includes following at least one: GPS alignment sensor, traffic flow sensor, air velocity transducer, Temperature Humidity Sensor, liquid level sensor, rain sensor, noise decibel value sensor, PM2.5 concentration sensor, pressure transducer and liquid flow sensor.

3. wireless signal as claimed in claim 1 turns the intelligent illuminating system gateway of Ethernet, it is characterised in that described load circuit is the wireless self-networking variable power Intelligent illumination device based on Internet of Things.

4. wireless signal as claimed in claim 1 turns the intelligent illuminating system gateway of Ethernet, it is characterized in that, described embedded real-time multitask scheduling unit is provided with unique identifier, turns the position feature of intelligent illuminating system gateway and the identity characteristic of Ethernet for recording described wireless signal.

5. wireless signal as claimed in claim 1 turns the intelligent illuminating system gateway of Ethernet, it is characterized in that, also include local control unit, described local control unit is connected with described pluggable relay unit, for arranging described pluggable relay unit by the automatic control mode by described embedded real-time task scheduling unit, switch to the MANUAL CONTROL mode by described local control unit, to realize the switching to ac power supply circuit mode of operation.

6. wireless signal as claimed in claim 1 turns the intelligent illuminating system gateway of Ethernet, it is characterised in that any two in wireless self-networking is based on wireless connections between the wireless self-networking variable power Intelligent illumination device of Internet of Things, to carry out data interaction.

7. wireless signal as claimed in claim 1 turns the intelligent illuminating system gateway of Ethernet, it is characterized in that, described embedded real-time multitask scheduling unit is additionally operable to by described Ethernet data crosspoint, receive the control instruction from described background management system, and described control instruction is sent each node to wireless self-networking by described wireless self-networking data routing units.

8. wireless signal as claimed in claim 1 turns the intelligent illuminating system gateway of Ethernet, it is characterized in that, described embedded real-time multitask scheduling unit is additionally operable to described sensing data is analyzed, the brightness value according to the wireless self-networking variable power Intelligent illumination device based on Internet of Things analyzed in output control administration.

9. wireless signal as claimed in claim 1 turns the intelligent illuminating system gateway of Ethernet, it is characterised in that described electric parameter includes: voltage, electric current, power, electricity and harmonic wave.

10. wireless signal as claimed in claim 1 turns the intelligent illuminating system gateway of Ethernet, it is characterised in that described embedded real-time multitask scheduling unit adopts microcontroller.