CN110839313A - Light source light control method and system - Google Patents

Abstract

The invention discloses a light control method of a light source, which comprises the following steps: providing an editing page, wherein the editing page at least comprises a color editing tool and a simulated lamp source topological graph mapped on an actual intelligent lighting system; receiving selection operation of a user in the simulated lamp source topological graph, wherein the selection operation comprises selection of at least one lamp source and color selection corresponding to the lamp source; generating first frame light control information by the selection operation; repeating the steps to generate the Nth frame of light control information; presetting the switching time of two adjacent frames of light control information, and sending the N frames of light control information to the intelligent light system. Correspondingly, the invention also discloses a light control system of the light source. By the invention, the light source can dynamically display color change, and the experience effect of a user is improved.

Description

Light source light control method and system

Technical Field

The invention relates to the technical field of intelligent control of Internet of things, in particular to a light control method and system of a light source.

Background

Along with the development of intelligent house, the control to the lamp has also appeared diversified, and the user can be as required and interest with a plurality of intelligent lamp piece one-tenth intelligent lighting system, bring the enjoyment for the user. This intelligent lighting system is formed by a plurality of intelligent lamp pieces concatenation, can infinitely extend freely the concatenation, constitutes various concatenation topological structure, and the user can be lighted a lamp to the intelligent lighting system who splices wantonly. In the prior art, the static effect is displayed by light, and a better experience effect cannot be provided for a user.

In order to enable users to experience better lighting effect and fun, the invention provides a technical scheme that the users can freely set the color of a light source through a terminal, and the color can be freely changed, so that the intelligent lighting system dynamically displays color change.

Disclosure of Invention

The invention aims to provide a light control method and a light control system of a light source, which can enable the light source to dynamically display color change and improve the experience effect of a user.

In order to achieve the above object, the present invention provides a light control method for a light source, which is applied to an intelligent light system, wherein the intelligent light system comprises a plurality of light blocks, the light blocks comprise a plurality of light sources, and the method comprises:

s1, providing an editing page, wherein the editing page at least comprises a color editing tool and a simulated light source topological graph mapped on the actual intelligent lighting system;

s2, receiving selection operation of a user in the simulated lamp source topological graph, wherein the selection operation comprises selection of at least one lamp source and color selection corresponding to the lamp source;

s3, generating first frame light control information by the selection operation;

s4, repeating the steps S2 and S3, and generating the light control information of the Nth frame;

s5, presetting the switching time of two adjacent frames of light control information, and sending the N frames of light control information to the intelligent light system.

Preferably, the step S1 includes:

providing a drawing board on the editing page;

drawing the topological structure of the intelligent lighting system on the drawing board according to the actual topological structure of the intelligent lighting system;

and generating a corresponding simulated lamp source topological graph, and displaying the simulated lamp source topological graph on the drawing board.

Preferably, the step S1 further includes:

providing a brush and a color selection bar in the color editing tool, wherein the brush is used for editing the color of one light source, and the color selection bar is used for selecting the color.

Preferably, the step S1 further includes:

an oil drum tool is further provided in the color editing tool and used for editing the color of the lamp block;

and a rubber tool is also provided in the color editing tool and is used for erasing the drawn color.

Preferably, the step S2 includes:

acquiring a click operation of a user for clicking the painting brush and a selection operation for selecting one color in the color selection bar;

obtaining touch operation of a user touching one lamp source of a simulated lamp source topological graph in the drawing board;

and the selected light source displays the selected color and the corresponding light source in the simulated light source topological graph of the drawing board.

Preferably, the step S3 includes:

acquiring the position information of the light source in the drawing board according to the selected light source;

acquiring the number information of the lamp source corresponding to the lamp source according to the corresponding relation between preset position information and the number information of the lamp source;

and generating first frame light control information according to the light source number information of the light source and the color corresponding to the light source.

Preferably, the step S4 includes:

providing a selection page, wherein the selection page comprises an adding tool bar and a display bar; adding each frame of light control information in the adding toolbar;

and after one frame of light block control information is added, displaying the corresponding light source color state in the simulated light source topological graph in the display column.

Preferably, the step S4 further includes: the selection page further comprises a setting column, and the switching time is set in the setting column.

Preferably, the step S5 includes:

generating a control instruction according to the switching time of the two adjacent frames of light control information;

and generating a dynamic effect template by the N frames of light control information and the control instruction, and storing the dynamic effect template in the terminal.

To achieve the above object, the present invention provides a light control system of a light source, the system comprising:

the editing module is used for providing an editing page, and the editing page at least comprises a color editing tool and a simulated lamp source topological graph mapped on an actual intelligent lighting system;

the acquisition module is used for receiving selection operation of a user in the simulated lamp source topological graph, wherein the selection operation comprises selection of at least one lamp source and color selection corresponding to the lamp source;

the generating module is used for generating first frame light control information by the selecting operation;

the repeating module is used for repeating the operation of the obtaining module and the generating module and generating the Nth frame of light control information;

and the sending module is used for presetting the switching time of two adjacent frames of light control information and sending the N frames of light control information to the intelligent light system.

Compared with the prior art, the light control method and the light control system of the light source have the beneficial effects that: the intelligent lighting system can dynamically display color change, so that the intelligent lighting system can display a more dazzling effect; through the editing tool, a user can set the light effect required by the user according to the needs or interests, the editing tool is convenient to operate and has visual feeling, and much fun is brought to the user; the experience effect of the user is improved.

Drawings

Fig. 1 is a schematic flow chart of a light control method of a light source according to an embodiment of the present invention.

Fig. 2 is a system schematic of a light control system for a light source according to one embodiment of the present invention.

Detailed Description

The present invention will be described in detail with reference to the specific embodiments shown in the drawings, which are not intended to limit the present invention, and structural, methodological, or functional changes made by those skilled in the art according to the specific embodiments are included in the scope of the present invention.

In an embodiment of the present invention shown in fig. 1, the present invention provides a light control method for a light source, which is applied to an intelligent light system, where the intelligent light system includes a plurality of light blocks, and the light blocks include a plurality of light sources, and the method includes:

s1, providing an editing page, wherein the editing page at least comprises a color editing tool and a simulated light source topological graph mapped on the actual intelligent lighting system;

s2, receiving selection operation of a user in the simulated lamp source topological graph, wherein the selection operation comprises selection of at least one lamp source and color selection corresponding to the lamp source;

s3, generating first frame light control information by the selection operation;

s4, repeating the steps S2 and S3, and generating the light control information of the Nth frame;

s5, presetting the switching time of two adjacent frames of light control information, and sending the N frames of light control information to the intelligent light system.

The intelligent lighting system is formed by freely splicing a plurality of lamp blocks, so that various topological structures can be spliced. The intelligent lighting system comprises a plurality of light blocks, and each light block comprises a plurality of light sources. The intelligent lighting system further comprises a controller used for controlling the intelligent lighting system.

In step S1, an edit page is provided, where the edit page at least includes a color editing tool and a simulated light source topology map mapped to the actual smart lighting system. Specifically, a user freely splices and builds a plurality of lamp blocks according to personal preferences, builds an actual intelligent lighting system, and forms a topological structure of the actual intelligent lighting system. And installing an APP client of the intelligent lighting system at the terminal, and controlling the intelligent lighting system through the APP client. Providing an editing page at the APP client, providing a drawing board on the editing page, drawing the topological structure of the intelligent lighting system on the drawing board according to the actual topological structure of the intelligent lighting system, generating a corresponding simulated light source topological graph, and displaying the simulated light source topological graph on the drawing board. A user can select a plurality of lamp blocks on the drawing board, the plurality of lamp blocks are drawn on the drawing board according to the actual topological structure, and a simulated lamp source topological graph is obtained and is consistent with the actual topological structure.

According to an embodiment of the present invention, the step S1 includes: providing a brush and a color selection bar in the color editing tool, wherein the brush is used for editing the color of one light source, and the color selection bar is used for selecting the color. Still provide an oil drum instrument in the color editing tool, the oil drum is used for editing the colour of lamp piece. And a rubber tool is also provided in the color editing tool and is used for erasing the drawn color.

In step S2, a selection operation of the user in the simulated lamp source topological graph is received, where the selection operation includes selection of at least one lamp source and color selection corresponding to the lamp source. Specifically, a click operation of a user for clicking the brush and a selection operation for selecting one color in the color selection bar are obtained; obtaining touch operation of a user touching one lamp source of a simulated lamp source topological graph in the drawing board; and the selected light source displays the selected color and the corresponding light source in the simulated light source topological graph of the drawing board. The user can select various colors for the light source according to the needs. The user selects the color of one or more light sources, each of which may be the same or different, through the brush and color selection bar. According to above-mentioned embodiment, the user edits the color of whole lamp block through the oil drum instrument. If the intelligent lighting system comprises a plurality of light blocks, the color of each light block is the same or different. The user can carry out the diy through the color editing tool as required or hobby, sets up the colour to intelligent lighting system's lamp source, brings bigger enjoyment for the user.

In step S3, the selection operation is generated into first frame light control information. And saving the selection operation. Specifically, according to the selected light source, position information of the light source in the drawing board is obtained; acquiring the number information of the lamp source corresponding to the lamp source according to the corresponding relation between preset position information and the number information of the lamp source; and generating first frame light control information according to the light source number information of the light source and the color corresponding to the light source. And when a plurality of selected light sources are available, generating light source number information corresponding to each light source, and generating first frame light control information according to the light source number information and the corresponding color of each light source. Repeating the steps S2 and S3, and generating the N frame light control information. The user can select different operations in the simulated lamp source topological graph each time, the position of the lamp source selected each time can be different, the color of each lamp source can be different, and the corresponding lighting effect displayed in the actual intelligent lighting system can be different, so that the lighting control information of each frame is the same or different. Through the color editing tool, a user can freely exert the color editing tool, so that the lighting effect of the intelligent lighting system is more gorgeous.

According to an embodiment of the present invention, the step S4 further includes: providing a selection page, wherein the selection page comprises an adding tool bar and a display bar; adding each frame of light control information in the adding toolbar; and after one frame of light block control information is added, displaying the corresponding light source color state in the simulated light source topological graph in the display column. The selection page further comprises a setting column, and the switching time is set in the setting column. The user can add each frame of light control information in the adding column, and after the adding is finished, the corresponding color states, namely which light sources are lighted and the colors of the lighted lights, are displayed in the display column. The user adds multiframe light control information in sequence, displays the color states of a plurality of corresponding light sources in the display column, and then sets the switching time. And in the selected page, clicking a storage button, sending the N frames of light control information to the intelligent light system, and sequentially and correspondingly displaying various set colors in the intelligent light system to form a dynamic display effect. The user adds the light block control information by selecting the page, or reorders the multi-frame light block control information, so that the user experience is improved.

In step S5, the switching time of two adjacent frames of light control information is preset, and the N frames of light control information are sent to the intelligent light system. And sending the N frames of light control information to the intelligent light system, wherein each frame of light control information corresponds to the lighting color of the intelligent light system, and the switching time of two adjacent frames of light control information can be the same or different and can be set according to the user requirements. The lighting time of each intelligent lighting system is the set switching time. And after the N frames of light control information are sent to the intelligent light system, the intelligent light system sequentially displays the correspondingly set colors to form dynamic effect display.

According to an embodiment of the present invention, the step S5 further includes: generating a control instruction according to the switching time of the two adjacent frames of light control information; and generating a dynamic effect template by the N frames of light control information and the control instruction, and storing the dynamic effect template in the terminal. The switching time of two adjacent frames of light control information is controlled through the control instruction, and each frame of light control information is switched, so that the intelligent light system has a dynamic effect in display. By generating the template, the user can directly call the template data at the terminal APP client, and convenience is brought to the user.

In an embodiment of the present invention shown in fig. 2, the present invention provides a light control system of a light source, the system including:

the editing module 20 is configured to provide an editing page, where the editing page at least includes a color editing tool and a simulated light source topological graph mapped to an actual intelligent lighting system;

the acquisition module 21 is configured to receive a selection operation of a user in the simulated lamp source topological graph, where the selection operation includes selection of at least one lamp source and color selection corresponding to the lamp source;

a generating module 22, configured to generate the first frame of light control information from the selection operation;

a repeating module 23, configured to repeat operations of the obtaining module and the generating module, and generate an nth frame of light control information;

and the sending module 24 is configured to preset switching time of two adjacent frames of light control information, and send the N frames of light control information to the intelligent light system.

The intelligent lighting system is formed by freely splicing a plurality of lamp blocks, so that various topological structures can be spliced. The intelligent lighting system comprises a plurality of light blocks, and each light block comprises a plurality of light sources. The editing module provides an editing page, and the editing page at least comprises a color editing tool and a simulated lamp source topological graph mapped on an actual intelligent lighting system. And the editing page provides a drawing board, the topological structure of the intelligent lighting system is drawn on the drawing board according to the actual topological structure of the intelligent lighting system, a corresponding simulated light source topological graph is generated, and the simulated light source topological graph is displayed on the drawing board.

According to an embodiment of the present invention, the color editing tool includes a brush and a color selection bar, wherein the brush is used for editing a color of a light source, and the color selection bar is used for selecting a color.

The acquisition module receives selection operation of a user in the simulated lamp source topological graph, wherein the selection operation comprises selection of at least one lamp source and color selection corresponding to the lamp source. Specifically, the obtaining module obtains a click operation of a user for clicking the brush and a selection operation for selecting one color in the color selection bar; obtaining touch operation of a user touching one lamp source of a simulated lamp source topological graph in the drawing board; and the selected light source displays the selected color and the corresponding light source in the simulated light source topological graph of the drawing board. Carry out the diy through the color editing tool, set up the colour to intelligent lighting system, bring bigger enjoyment for the user.

And the generating module generates the first frame of light control information by the selection operation. And saving the selection operation. Specifically, the generating module acquires position information of the light source in the drawing board according to the selected light source; acquiring the number information of the lamp source corresponding to the lamp source according to the corresponding relation between preset position information and the number information of the lamp source; and generating first frame light control information according to the light source number information of the light source and the color corresponding to the light source. And the repeating module repeats the operation of the obtaining module and the generating module to generate the Nth frame of light control information.

The sending module presets the switching time of two adjacent frames of light control information and sends the N frames of light control information to the intelligent light system. The lighting time of each intelligent lighting system is the set switching time. And after the N frames of light control information are sent to the intelligent light system, the intelligent light system sequentially displays the correspondingly set colors to form dynamic effect display.

Although the preferred embodiments of the present invention have been disclosed for illustrative purposes, those skilled in the art will appreciate that various modifications, additions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims.

Claims (10)

1. A light control method of a light source is applied to an intelligent light system, the intelligent light system comprises a plurality of light blocks, the light blocks comprise a plurality of light sources, and the method comprises the following steps:

s1, providing an editing page, wherein the editing page at least comprises a color editing tool and a simulated light source topological graph mapped on the actual intelligent lighting system;

s2, receiving selection operation of a user in the simulated lamp source topological graph, wherein the selection operation comprises selection of at least one lamp source and color selection corresponding to the lamp source;

s3, generating first frame light control information by the selection operation;

s4, repeating the steps S2 and S3, and generating the light control information of the Nth frame;

s5, presetting the switching time of two adjacent frames of light control information, and sending the N frames of light control information to the intelligent light system.

2. The light control method of a light source according to claim 1, wherein the step S1 includes:

providing a drawing board on the editing page;

drawing the topological structure of the intelligent lighting system on the drawing board according to the actual topological structure of the intelligent lighting system;

and generating a corresponding simulated lamp source topological graph, and displaying the simulated lamp source topological graph on the drawing board.

3. The light control method of a light source according to claim 2, wherein the step S1 further comprises:

providing a brush and a color selection bar in the color editing tool, wherein the brush is used for editing the color of one light source, and the color selection bar is used for selecting the color.

4. The light control method of a light source according to claim 3, wherein the step S1 further comprises:

an oil drum tool is further provided in the color editing tool and used for editing the color of the lamp block;

and a rubber tool is also provided in the color editing tool and is used for erasing the drawn color.

5. The light control method of a light source according to claim 3, wherein the step S2 includes:

acquiring a click operation of a user for clicking the painting brush and a selection operation for selecting one color in the color selection bar;

obtaining touch operation of a user touching one lamp source of a simulated lamp source topological graph in the drawing board;

and the selected light source displays the selected color and the corresponding light source in the simulated light source topological graph of the drawing board.

6. The light control method of a light source according to claim 5, wherein the step S3 includes:

acquiring the position information of the light source in the drawing board according to the selected light source;

acquiring the number information of the lamp source corresponding to the lamp source according to the corresponding relation between preset position information and the number information of the lamp source;

and generating first frame light control information according to the light source number information of the light source and the color corresponding to the light source.

7. The light control method of a light source according to claim 6, wherein the step S4 includes:

providing a selection page, wherein the selection page comprises an adding tool bar and a display bar; adding each frame of light control information in the adding toolbar;

and after one frame of light control information is added, displaying the corresponding lamp source color state in the simulated lamp source topological graph in the display column.

8. The light control method of a light source according to claim 7, wherein the step S4 further comprises:

the selection page further comprises a setting column, and the switching time is set in the setting column.

9. The light control method of a light source according to claim 7, wherein the step S5 includes:

generating a control instruction according to the switching time of the two adjacent frames of light control information;

and generating a dynamic effect template by the N frames of light control information and the control instruction, and storing the dynamic effect template in the terminal.

10. A light control system for a light source, the system comprising:

the editing module is used for providing an editing page, and the editing page at least comprises a color editing tool and a simulated lamp source topological graph mapped on an actual intelligent lighting system;

the acquisition module is used for receiving selection operation of a user in the simulated lamp source topological graph, wherein the selection operation comprises selection of at least one lamp source and color selection corresponding to the lamp source;

the generating module is used for generating first frame light control information by the selecting operation;

the repeating module is used for repeating the operation of the obtaining module and the generating module and generating the Nth frame of light control information;

and the sending module is used for presetting the switching time of two adjacent frames of light control information and sending the N frames of light control information to the intelligent light system.

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