CN103347325A - Digitization network illuminating system and control method - Google Patents

Abstract

The invention discloses a digitization network illuminating system and control method. The digitization network illuminating system comprises a digital illumination terminal, a digital illumination service module, a cloud data service module and a client side. The digital illumination terminal is used for providing an illumination service. The digital illumination service module is connected with the digital illumination terminal, and is used for controlling the digital illumination terminal to enter an initial working condition according to instructions, receiving the initial working condition information in a real-time mode and coding and collecting the condition information and forming a data file, wherein the initial working condition information is fed back by the digital illumination terminal. The cloud data service module is connected with the digital illumination service module, and is used for receiving the data file coded and collected by the digital illumination service module and analyzing and processing the data file. The client side is connected with the digital illumination service module and the cloud data service module, and is used for displaying the data file analyzed and processed by the cloud data service module. According to the digitization network illuminating system and control method, a networked and informationalized architectural illuminating energy saving solution is provided, the energy consumption and the cost of illumination are reduced, and the intelligentization level and the informationalized level of the buildings are improved.

Description

A kind of digitalized network illuminator and control method

Technical field

The present invention relates to lighting technical field, in particular, particularly a kind of digitalized network illuminator and control method.

Background technology

Existing building automatic technology adopts distribution end high pressure phase incision technology to be combined with the thermoluminescence light source technology in the application of illuminator more.This technology be not suitable for along with thermal resistance class light source is progressively eliminated.Force the novel illumination utensil to be equipped with the tangent change-over circuit of poor efficiency, cause the rising of energy consumption, the decline of efficient, the reduction in life-span, and the increase greatly of an input cost.

And the illumination that another generally uses in new building control scheme, namely be to adopt with the strong two wire structures of weak control, follow the high voltage source wiring with the low-voltage analog signal wiring, realize control, but the shortcoming of its existence namely is: installation wiring and erection unit complexity, problems such as the initial stage drops into high, needs to rely on special-purpose system, and versatility is low.

In sum, existing these two kinds of schemes all are obsolete techniques framework and the designs that belonged to before the modern network communication technology occurs, need badly with the modern times more the technical standard of efficient general give great-leap-forward and be increased to digitized lighting mains system.

Summary of the invention

First purpose of the present invention is to provide a kind of digitalized network illuminator at having energy consumption height, the high technical problem of cost in the prior art.

Second purpose of the present invention is to provide a kind of control method of digitalized network illuminator.

In order to realize the first above-mentioned purpose, the technical solution used in the present invention is:

A kind of digitalized network illuminator, it comprises,

The digital lighting terminal is used for providing the illumination service;

The digital lighting service module that is connected with the digital lighting terminal, be used for entering the initialization state according to instruction control figure lamp terminal, and the initialization state information of real-time reception digital lighting terminal feedback, simultaneously this state information is encoded and gather, form data file;

The high in the clouds data service module that is connected with the digital lighting service module is used for receiving the data file that forms after digital lighting service module coding gathers, and this data file is carried out analyzing and processing;

And, the client that is connected with the high in the clouds data service module with the digital lighting service module, be used for showing the data file after the data service module analyzing and processing of high in the clouds, and this client is sent corresponding adjustment and is instructed to the digital lighting service module, and described digital lighting service module is adjusted the work of instruction control figure lamp terminal according to this.

According to a preferred embodiment of the invention: described digital lighting terminal comprises terminal prot, and a plurality of digital lightings loop that is connected with terminal prot, and the digital lighting loop that is semiconductor light sources, this digital lighting loop.

According to a preferred embodiment of the invention: described digital lighting service module comprises the digital lighting server, and is located at the FPDP on the digital lighting server, and described FPDP is connected with the terminal prot of digital lighting terminal.

According to a preferred embodiment of the invention: described FPDP is connected by CAT5 straight through cable or three line low-voltage cables with described terminal prot, and described FPDP adopts identical frequcny modulation data signal with terminal prot, this frequcny modulation data signal superposes electrical load and information signal, and exchanges between FPDP and terminal prot.

According to a preferred embodiment of the invention: described digital lighting service module and high in the clouds data service module, and all be connected by the Internet between high in the clouds data service module and the client.

According to a preferred embodiment of the invention: the initialization state information of described digital lighting terminal comprises brightness, colour temperature, power consumption and the initial time point of digital lighting terminal.

According to a preferred embodiment of the invention: described client is PC or mobile phone.

In order to realize the second above-mentioned purpose, the technical solution used in the present invention is:

A kind of control method based on above-mentioned digitalized network illuminator, it may further comprise the steps,

S1, described digital lighting service module receive the instruction of client, and the control figure lamp terminal enters the initialization state;

S2, described digital lighting terminal enter the initialization state, and work state information is sent in the data service module of high in the clouds;

S3, described high in the clouds data service module are stored this initialization state information, and this initialization state information is encoded and gathered, and form data file;

S4, described client call also show this data file, and this client is also sent to adjust and instructed to the digital lighting service module simultaneously, and described digital lighting service module is adjusted the work of instruction control figure lamp terminal according to this.

According to a preferred embodiment of the invention: the process of the initialization state information of described digital lighting terminal collection is real-time or default repeatedly sampling.

According to a preferred embodiment of the invention: the initialization state information of described digital lighting terminal comprises brightness, colour temperature, power consumption and the initial time point of digital lighting terminal.

With prior art mutually this, beneficial effect of the present invention is: the present invention has broken through the concept of traditional lighting control fully, Internet technology is combined with semiconductor lighting, the Construction Lighting Economization on Energy solution of network informationization is provided, not only can have reduced energy consumption (the illumination energy consumption reduction by 70% of illumination greatly More than) and cost, and can promote the intelligent and information-based of building greatly Level, the comprehensive operation managing level of building and community is risen to the digital intelligent stage.

Description of drawings

Fig. 1. be the frame diagram of digitalized network illuminator of the present invention.

Fig. 2. be the control method flow chart of digitalized network illuminator of the present invention.

Description of reference numerals: 100, digital lighting terminal, 200, the digital lighting service module, 300, the high in the clouds data service module, 400, client, 1001, terminal prot, 1002, the digital lighting loop, 2001, the digital lighting server, 2002, FPDP.

Embodiment

The present invention is described in further detail below in conjunction with embodiment and accompanying drawing, but embodiments of the present invention are not limited thereto.

Embodiment one

Consult shown in Figure 1ly, present embodiment provides a kind of digitalized network illuminator, and it comprises: digital lighting terminal 100 is used for providing the illumination service; The digital lighting service module 200 that is connected with digital lighting terminal 100, be used for entering the initialization state according to instruction control figure lamp terminal 100, and the initialization state information of real-time reception digital lighting terminal 100 feedbacks (such as: information such as the brightness of digital lighting terminal 100, colour temperature, power consumption and initial time point), simultaneously this state information is encoded and gather, form data file; The high in the clouds data service module 300 that is connected with digital lighting service module 200 is used for receiving the data file that forms after digital lighting service module 200 codings gather, and this data file is carried out analyzing and processing; And the client 400 that is connected with high in the clouds data service module 300 with digital lighting service module 200, be used for showing the data file after high in the clouds data service module 300 analyzing and processing, and this client 400 is sent corresponding adjustment and is instructed to digital lighting service module 200, and digital lighting service module 200 is adjusted the work of instruction control figure lamp terminal 100 according to this.And client 400 can be PC or mobile phone, utilizes socket or moving boundary on PC or the mobile phone to realize Presentation Function.

Wherein: digital lighting terminal 100 comprises terminal prot 1001, and a plurality of digital lightings loop 1002 that is connected with terminal prot 1001, and the digital lighting loop that is semiconductor light sources, this digital lighting loop 1002.And digital lighting service module 200 comprises digital lighting server 2001, and is located at the FPDP 2002 on the digital lighting server 2001, and FPDP 2002 is connected with the terminal prot 1001 of digital lighting terminal 100; Concrete, FPDP 2002 realizes being connected by the type low-voltage cable of standards such as CAT5 straight through cable or three line low-voltage cables with terminal prot 1001, and FPDP 2002 adopts identical frequcny modulation data signal with terminal prot 1001, this frequcny modulation data signal is with electrical load and information signal stack, and exchange between FPDP 2002 and terminal prot 1001, and then the transmission of realization data.

Preferable, digital lighting service module 200 and high in the clouds data service module 300, and all be connected by the Internet between high in the clouds data service module 300 and the client 400.

Concrete, can adopt following scheme to build and move the digitalized network illuminator of present embodiment:

Adopt a plurality of digital lightings loop 1002 of semiconductor light sources (LED/OLED), and should be connected to simultaneously on the terminal prot 1001 in a plurality of digital lightings loop 1002; The back yard industry computer is set in digital lighting service module 200, as digital lighting server 2001, the back yard industry computer peripheral equipment has the FPDP 2002 of collection and Data transmission, FPDP 2002 is connected with the terminal prot 1001 of digital lighting terminal 100 with Ethernet architecture, can use standard low pressure cable such as CAT5 straight through cable or three line low-voltage cables to connect; And terminal prot 1001 adopts identical frequency-modulated digital signals with digital lighting server 2001, and this frequency-modulated digital signals is done stack with electrical load and information signal, and signal is exchange data between terminal prot 1001 and FPDP 2002.The information that the back yard industry computer operating software of operation is gathered FPDP 2002 in the digital lighting service module 200 sends to long-range high in the clouds data service module 300 with standard I Pv6 the Internet form simultaneously.Long-range high in the clouds data service module 300 divides the account storage data with database format, and provide calling of multiple interfaces such as socket and mobile application interface, and the socket of client 400 and moving boundary need be logined account calling the data in the corresponding account, and the software interpretive model that can carry shows corresponding data message with the form of chart.And each above-mentioned port can adopt existing general exchanges data port.

Like this, present embodiment upgrades to a plurality of digital lightings loop 1002 the digital lighting terminal 100 of networking.Digital lighting terminal 100 drives and adjusts with the digital signal of semiconductor light sources and network transmission, and digital signal is carried electric power conveying and info-communication function simultaneously, and digital lighting terminal 100 possesses the ethernet terminal function.Simultaneously digital lighting terminal 100 is connected with digital lighting service module 200, set up Ethernet and be the network architecture on basis, be that port is connected with backbone network (being high in the clouds data service module 300, client 400) with digital lighting service module 200 again, realize the interconnected networking of architectural lighting system.Simultaneously on this basis, provide the visual and system of the collection analysis of data to optimize software and value-added services such as improvement again.

Embodiment two

Consult shown in Figure 2,Present embodiment provides a kind of control method based on the digitalized network illuminator among the embodiment one, and it may further comprise the steps,

The first step, digital lighting service module 200 receive the instruction of client 400, and control figure lamp terminal 100 enters the initialization state;

Second step, digital lighting terminal 100 enters the initialization state, and with work state information (such as: information such as the brightness of digital lighting terminal 100, colour temperature, power consumption and initial time point) be sent in the high in the clouds data service module 300;

The 3rd step, high in the clouds data service module 300 storage these initialization state informations (information such as brightness, colour temperature, power consumption and initial time point of namely dividing account store digital lamp terminal 100 with database format), and this initialization state information encoded and gather, form data file;

The 4th step, client 400 (as: PC, mobile phone) is called and show this data file (that is: the socket of client 400 and moving boundary need be logined account calling the data in the corresponding account, and the software interpretive model that can carry shows corresponding data message with the form of chart);

This client 400 also can be sent as required to adjust and instruct to digital lighting service module 200 simultaneously, and digital lighting service module 200 is adjusted the work in each digital lighting loop 1002 in the instruction control figure lamp terminal 100 according to this.And the above course of work can constantly be optimized the circulation back-to-back running.

General, the process of the initialization state information that digital lighting terminal 100 is wherein gathered can be designed to real-time sampling, perhaps Yu She repeatedly sampling as required.

Above-described embodiment is preferred implementation of the present invention; but embodiments of the present invention are not restricted to the described embodiments; other any do not deviate from change, the modification done under spiritual essence of the present invention and the principle, substitutes, combination, simplify; all should be the substitute mode of equivalence, be included within protection scope of the present invention.

Claims (10)

1. digitalized network illuminator is characterized in that: this system comprises,

Digital lighting terminal (100) is used for providing the illumination service;

The digital lighting service module (200) that is connected with digital lighting terminal (100), be used for entering the initialization state according to instruction control figure lamp terminal (100), and the initialization state information of real-time reception digital lighting terminal (100) feedback, simultaneously this state information is encoded and gather, form data file;

The high in the clouds data service module (300) that is connected with digital lighting service module (200) is used for receiving the data file that forms after digital lighting service module (200) coding gathers, and this data file is carried out analyzing and processing;

And, the client (400) that is connected with high in the clouds data service module (300) with digital lighting service module (200), be used for showing the data file after high in the clouds data service module (300) analyzing and processing, and this client (400) is sent corresponding adjustment and is instructed to digital lighting service module (200), and described digital lighting service module (200) is adjusted the work of instruction control figure lamp terminal (100) according to this.

2. digitalized network illuminator according to claim 1, it is characterized in that: described digital lighting terminal (100) comprises terminal prot (1001), and a plurality of digital lightings loop (1002) that is connected with terminal prot (1001), and the digital lighting loop that is semiconductor light sources, this digital lighting loop (1002).

3. digitalized network illuminator according to claim 2, it is characterized in that: described digital lighting service module (200) comprises digital lighting server (2001), and be located at FPDP (2002) on the digital lighting server (2001), described FPDP (2002) is connected with the terminal prot (1001) of digital lighting terminal (100).

4. digitalized network illuminator according to claim 3, it is characterized in that: described FPDP (2002) is connected by CAT5 straight through cable or three line low-voltage cables with described terminal prot (1001), and described FPDP (2002) adopts identical frequcny modulation data signal with terminal prot (1001), this frequcny modulation data signal is with electrical load and information signal stack, and exchange between FPDP (2002) and terminal prot (1001).

5. digitalized network illuminator according to claim 1, it is characterized in that: described digital lighting service module (200) and high in the clouds data service module (300), and all be connected by the Internet between high in the clouds data service module (300) and the client (400).

6. digitalized network illuminator according to claim 1, it is characterized in that: the initialization state information of described digital lighting terminal (100) comprises the brightness of digital lighting terminal (100), colour temperature, power consumption and initial time point.

7. digitalized network illuminator according to claim 1 is characterized in that: described client (400) is PC or mobile phone.

8. control method based on each described digitalized network illuminator of claim 1-7, it is characterized in that: this method may further comprise the steps,

S1, described digital lighting service module (200) receive the instruction of client (400), and control figure lamp terminal (100) enters the initialization state;

S2, described digital lighting terminal (100) enter the initialization state, and work state information is sent in the high in the clouds data service module (300);

S3, described high in the clouds data service module (300) are stored this initialization state information, and this initialization state information is encoded and gathered, and form data file;

S4, described client (400) are called and are shown this data file, this client (400) is also sent to adjust and is instructed to digital lighting service module (200) simultaneously, and described digital lighting service module (200) is adjusted the work of instruction control figure lamp terminal (100) according to this.

9. the control method of digitalized network illuminator according to claim 8 is characterized in that: the process of the initialization state information that described digital lighting terminal (100) is gathered is real-time or default repeatedly sampling.

10. the control method of digitalized network illuminator according to claim 8, it is characterized in that: the initialization state information of described digital lighting terminal (100) comprises the brightness of digital lighting terminal (100), colour temperature, power consumption and initial time point.

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