CN116030755A - Curtain light effect control method, equipment and storage medium - Google Patents

Abstract

The invention provides a curtain light effect control method, equipment and a storage medium, wherein the method comprises the following steps: obtaining display layout information of a curtain lamp assembly, wherein the display layout information comprises display layout data corresponding to each curtain lamp in the curtain lamp assembly; responding to a curtain light effect generation instruction, determining a light effect to be displayed, and correspondingly converting the light effect into a light effect control instruction of each curtain light according to display layout data of each curtain light in the display layout information, wherein the light effect control instruction carries display control information of the corresponding curtain light; and sending corresponding lamp effect control instructions to each curtain lamp so that each curtain lamp in the curtain lamp assembly cooperatively displays the light special effect. According to the method, the lamp effect control instructions are respectively sent to each curtain lamp, so that the load of the curtain lamps in operation is reduced, and the lamp effect sent by each curtain lamp forms the special effect of the curtain lamp assembly on the curtain.

Description

Curtain light effect control method, equipment and storage medium

Technical Field

The invention relates to the technical field of intelligent home, in particular to a curtain light effect control method, equipment and a storage medium.

Background

Curtains are commonly used to shade or regulate indoor light. With the continuous development of the curtain industry, the curtain becomes an indoor ornament which is indispensable for a living room and perfectly combines functionality and decoration. Further, along with the development of the times and the improvement of aesthetic ideas of consumers, the industry provides a curtain on which various colorful LED lamp strings with decorative effect are arranged, and a plurality of sets of curtains with LED lamp strings are assembled to form a specific pattern so as to form a light special effect. For example, the LED lamp strings are arranged in the form of patterns or characters and the like, and the LED lamps are driven to emit light so as to form specific patterns or character lamplight special effects on the curtain, thereby enriching entertainment life.

When different patterns or characters and other light special effects are required to be displayed on the curtain through the LED lamp strings, the arrangement form of the LED lamp strings is required to be readjusted as the LED lamp strings are already arranged in the corresponding patterns or characters. When different patterns or characters and other light special effects are required to be displayed on the curtain in a short time, the arrangement form of the LED lamp strings is required to be changed frequently, so that the workload of a user is greatly increased, and the use is inconvenient. And after the LED lamp strings are arranged into specific patterns or characters, the dynamic light effect is difficult to display, and the dynamic light effect is not easy to display on the curtain.

Disclosure of Invention

The present invention is directed to a method, apparatus and storage medium for controlling a curtain lighting effect, which solve at least one of the above problems.

The invention is suitable for various purposes, and adopts the following technical scheme:

the invention provides a curtain light effect control method which is suitable for one of the purposes of the invention, and comprises the following steps:

obtaining display layout information of a curtain lamp assembly, wherein the display layout information comprises display layout data corresponding to each curtain lamp in the curtain lamp assembly;

responding to a curtain light effect generation instruction, determining a light effect to be displayed, and correspondingly converting the light effect into a light effect control instruction of each curtain light according to display layout data of each curtain light in the display layout information, wherein the light effect control instruction carries display control information of the corresponding curtain light;

and sending corresponding lamp effect control instructions to each curtain lamp so that each curtain lamp in the curtain lamp assembly cooperatively displays the light special effect.

Further, before the step of responding to the command generated by the curtain light effect, the method further comprises the following steps:

generating a drawing interface in a display screen corresponding to the display layout information, wherein the drawing interface is used for receiving an external editing instruction to generate a corresponding static or dynamic lamplight special effect;

And responding to a light effect confirmation instruction, and converting the information of the light special effect into a curtain light effect generation instruction.

Specifically, the step of generating a drawing interface in the display screen corresponding to the display layout information includes the following specific steps:

and matching the display interface of the display screen with the display layout information, and generating a drawing interface on the display interface.

Further, the display layout data is composed of position information of each of a plurality of light emitting units of the curtain lamp on the curtain.

Further, according to the display layout data of each curtain lamp in the display layout information, the light special effect is correspondingly converted into a light effect control instruction of each curtain lamp, and the light effect control instruction carries the display control information of the corresponding curtain lamp, including the following specific steps:

and acquiring light special effect information from a curtain light effect generation instruction, correspondingly matching the light special effect information with the display layout information, generating display control information corresponding to each display layout data, and packaging the display control information in the light effect control instruction.

Further, the step of encapsulating the display control information in the light effect control instruction includes the following specific steps:

When the display control information represents the dynamic light effect, the display control information is sequentially converted into a plurality of static display control information representing the static light effect according to time sequence, and the static display control information also comprises time stamp data which are used for designating the time of executing the corresponding light effect control instruction by the curtain light;

and respectively and correspondingly packaging the plurality of static display control information into a plurality of lamp effect control instructions.

Further, the light effect control instruction is used for controlling one or more of the light emitting color, the light emitting intensity and the light emitting time of the light emitting units of the corresponding curtain lights, so that the light emitting units form the corresponding light special effect.

In one embodiment, the method further comprises the post-step of:

receiving a confirmation signal sent by a curtain lamp within a preset time length;

and acquiring check information in the confirmation signal, and if the check information contains data loss information, re-transmitting a corresponding light effect control instruction or lost data to the curtain lamp.

A window covering light effect control apparatus adapted to one of the objects of the present invention comprises a controller for performing the window covering light effect control method as set forth in any one of the previous objects, and a window covering light assembly comprising a plurality of window covering lights comprising a plurality of light emitting units.

A computer readable storage medium having stored therein program code adapted to be invoked by a processor to perform a curtain lighting effect control method as defined in any one of the preceding objects is provided.

The present invention has many advantages over the prior art, including but not limited to:

on one hand, the curtain light effect control method of the invention transmits the corresponding light effect control instruction to each curtain light of the curtain light assembly, and the light effect control instruction only comprises the display control information of the corresponding curtain light, so that the data processing capacity of the curtain light is reduced, and the operation efficiency is improved.

In another invention, the curtain lamp layout display information is matched with the information of the lamplight special effect to be displayed by the curtain lamp effect control method, so that the lamplight special effect can be displayed in an adaptive manner by the curtain lamp assembly. And each curtain lamp of the curtain lamp assembly displays preset lamp effects in corresponding areas on the curtain respectively under the control of the lamp effect control instruction, and the lamp effects respectively sent by the curtain lamp assemblies cooperate to form the special effect of the lamp effect of the curtain lamp assembly on the curtain, so that the difficulty of displaying different lamp effects on the curtain is reduced.

Additional aspects and advantages of the invention will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention.

Drawings

The foregoing and/or additional aspects and advantages of the invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings, in which:

FIG. 1 is a schematic circuit diagram of a window covering light effect control device of the present invention;

FIG. 2 is a schematic view of a structure in which a plurality of light emitting units of a window shade lamp assembly according to one embodiment are disposed on a window shade;

FIG. 3 is a schematic flow chart of a method for controlling a curtain lighting effect according to the present invention;

fig. 4 is a flowchart of step S121 of the curtain light effect control method of the present invention;

FIG. 5 is a flowchart illustrating a step prior to step S12 of a method for controlling a window covering lighting effect according to an embodiment of the present invention;

fig. 6 is a flowchart illustrating a post-step of a curtain lighting control method according to an embodiment of the present invention.

Detailed Description

Embodiments of the present invention are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are illustrative only and are not to be construed as limiting the invention.

It will be understood by those skilled in the art that all terms (including technical and scientific terms) used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs unless defined otherwise. It will be further understood that terms, such as those defined in commonly used dictionaries, should be interpreted as having a meaning that is consistent with their meaning in the context of the prior art and will not be interpreted in an idealized or overly formal sense unless expressly so defined herein.

Those skilled in the art will appreciate that: although the various methods of the present invention are described based on the same concepts so as to be common to each other, the methods may be performed independently of each other unless specifically indicated otherwise. Similarly, for the various embodiments disclosed herein, all concepts described herein are presented based on the same general inventive concept, and thus, concepts described herein with respect to the same general inventive concept, and concepts that are merely convenient and appropriately modified, although different, should be interpreted as equivalents.

The various embodiments of the present invention to be disclosed herein, unless the plain text indicates a mutually exclusive relationship with each other, the technical features related to the various embodiments may be cross-combined to flexibly construct a new embodiment as long as such combination does not depart from the inventive spirit of the present invention and can satisfy the needs in the art or solve the deficiencies in the prior art. This variant will be known to the person skilled in the art.

The invention provides a curtain lamp effect control method, in the method, a controller respectively sends corresponding lamp effect control instructions to a plurality of curtain lamps of a curtain lamp assembly, so that the curtain lamps work in a matched mode, and the curtain lamp assembly displays a preset light special effect.

In order to implement the curtain light effect control method, the invention provides a curtain light effect control device, and referring to fig. 1, the curtain light effect control device comprises a controller 200 and a curtain light assembly 100, the curtain light assembly 100 comprises a plurality of curtain lights 110, and the controller 200 is respectively connected with the plurality of curtain lights 110 in a wireless way to establish a data communication link.

The curtain lamp 110 includes a first control unit 111, a plurality of light emitting units 112, a first communication unit 113 and a first storage unit 114, where the first control unit 111 is electrically connected to the light emitting units 112, the first communication unit 113 and the first storage unit 114, respectively. The window curtain light assembly 100 is matched with the window curtain 300, and the window curtain light assembly 100 can be arranged on the window curtain 300 or not arranged on the window curtain 300.

Specifically, when the window shade lamp assembly 110 is disposed on the window shade 300, the plurality of light emitting units 112 of the plurality of window shade lamps 110 of the window shade lamp assembly 100 are disposed on the window shade 300.

When the window shade lamp assembly 110 is not disposed on the window shade 300, the window shade lamp assembly 110 is used close to the window shade 300, for example, the window shade lamp assembly 100 is disposed close to the window shade 300, and the plurality of light emitting units 112 of the plurality of window shade lamps 110 of the window shade lamp assembly 100 are arranged at predetermined positions such that the plurality of light emitting units 112 of the window shade lamp assembly 100 form a predetermined shape or pattern, for example, the plurality of light emitting units 112 of the window shade lamp assembly 100 are disposed in a lattice structure.

In a further embodiment, the window shade lamp 110 of the window shade lamp assembly 100 may be used as a window shade, for example, the plurality of light emitting units 112 of the window shade lamp 110 form a light string, and the plurality of window shade lamps 110 together form a window shade structure.

The light emitting unit 112 includes a red light emitting element 1121, a green light emitting element 1122, and a blue light emitting element 1123. The first control unit 111 controls one or more of a light emission color, a light emission intensity, and a light emission time of the light emission unit 112 by issuing a control instruction to the light emission unit 112. Specifically, the first control unit 111 allows the light emitting unit 112 to emit any one color by controlling the light emission of the three light emitting elements of the light emitting unit 112; and the first control unit 111 allows the light emitting unit 112 to constantly change the light emitting color by controlling the light emitting times of the three light emitting elements of the light emitting unit 112. In one embodiment, the light emitting unit 112 is a light bulb.

The window covering lamp assembly 100 includes a plurality of window covering lamps 110. The window covering lamp assembly 100 is illustratively provided in association with a window covering 300 to discuss the present invention. The window shade 300 includes a first surface and a second surface, and the plurality of window shade lamps 110 are respectively disposed on the same area or different areas of the first surface or the second surface of the window shade 300, or the plurality of light emitting units 112 of the window shade lamps 110 are respectively disposed on the first surface and/or the second surface of the window shade.

In this embodiment, referring to fig. 2, the plurality of window shade lamps 110 of the window shade lamp assembly 100 are disposed on the first surface of the window shade 300, and the plurality of window shade lamps 110 are disposed in different areas of the first surface of the window shade 300. In an exemplary embodiment of the present invention, the plurality of window shade lamps 110 are sequentially arranged along an extension direction of the window shade 300, that is, an expanding and contracting direction of the window shade 300. Specifically, the window shade 300 is sequentially divided into a plurality of regions along the extending direction thereof, the plurality of window shade lamps 110 of the window shade lamp assembly 100 are correspondingly disposed in the plurality of regions, and the plurality of light emitting units 112 of the window shade lamps 110 are disposed in the corresponding regions. When the special effect of the light needs to be displayed on the window shade 300 through the window shade lamp assembly 100, the special effect of the light is divided into a plurality of sub special effects corresponding to the plurality of window shade lamps 110, each window shade lamp 100 emits a corresponding sub special effect in the area where the window shade lamp 100 is positioned, and the sub special effects of the plurality of window shade lamps 110 form the special effect of the light. Preferably, each region of the window covering 300 is rectangular in shape.

In one embodiment, referring to fig. 2, the light emitting units 112 of the curtain lamps 110 are uniformly distributed in the corresponding area in an array structure, and the light emitting units 112 of the curtain lamps 110 of the curtain lamp assembly 100 form a lattice structure, and each light emitting unit 112 corresponds to a pixel point, so that different lighting effects can be displayed on the curtain 300 by controlling the light emitting units 112 of the curtain lamps 110 of the curtain lamp assembly 100 to emit light. For example, the lighting effect includes one or more of static or dynamic lighting patterns, characters, and symbols formed by lighting the plurality of lighting units 112.

The controller 200 includes a second control unit 210, a second communication unit 220, and a second storage unit 230, where the second control unit 210 is electrically connected to the second communication unit 220 and the second storage unit 230, respectively. The controller 200 is communicatively connected to the first communication unit 113 of the window covering lamp 110 through the second communication unit 220. In one embodiment, the controller 200 is a terminal device. Preferably, the controller 200 is a mobile terminal device, such as a mobile phone.

The controller 200 is electrically connected to each of the window shade lamps 100 of the window shade lamp assembly 100 to obtain display layout data of the corresponding areas of the plurality of light emitting units 112 of each of the window shade lamps 100 on the window shade 300, wherein the plurality of display layout data form display layout information of the window shade lamp assembly 100, and the controller 200 stores the display layout information in the second storage unit 230 after obtaining the display layout information.

After the second control unit 210 of the controller 200 obtains the light special effect information to be displayed on the window curtain lamp assembly 100, the light special effect information is converted into the light effect control instruction corresponding to each window curtain lamp 110 based on the display layout information, and the second control unit 210 of the controller 200 outputs the light effect control instruction to the corresponding window curtain lamp 110 through the second communication unit 220 thereof, so that the plurality of light emitting units 112 of the window curtain lamp 110 emit the predetermined light, the plurality of light emitting units 112 of the window curtain lamp 110 work simultaneously to form the sub special effect in the area where the window curtain lamp 110 is located, and the plurality of window curtain lamps 100 of the window curtain lamp assembly 100 display the respective sub special effects simultaneously to form the complete light special effect on the window curtain 300.

In one embodiment, the controller 200 further includes a display screen 240, and the display screen 240 is electrically connected to the second control unit 210. The display screen 240 may generate a drawing interface corresponding to the display layout information of the window shade lamp assembly 100 on the window shade 200, and may receive an external editing instruction on the drawing interface to form a static or dynamic light special effect, and the display screen 240 outputs the light special effect information to the control unit to generate a window shade lamp effect instruction, and the window shade lamp assembly 100 is controlled by the window shade lamp effect instruction to display the light special effect.

In one embodiment, the first communication unit 113 of the curtain light 110 and the second communication unit 220 of the controller 200 are integrated in a bluetooth communication unit.

Specifically, the bluetooth communication unit is a bluetooth chip. After the bluetooth chip receives the light effect control instruction sent by the controller 200, the bluetooth chip stores the light effect control instruction in the first storage unit 114, preferably, the first storage unit 144 is a flash, and the flash is also integrated in the bluetooth chip. Furthermore, the bluetooth chip only opens up a memory space due to insufficient memory space of the bluetooth chip, and the bluetooth chip sequentially analyzes a plurality of lamp effect control information. Specifically, the bluetooth chip extracts a light effect control instruction from the flash at a time, and extracts the next light effect control instruction from the flash to analyze the light effect control instruction in the memory space after analyzing the extracted light effect control instruction, so that the shortage of the memory of the bluetooth chip can be avoided.

In an exemplary embodiment of the present invention, the curtain light control method is implemented based on the curtain light control device, and in combination with fig. 3, the curtain light control method includes the following specific steps:

step S110, display layout information of a curtain lamp assembly is obtained, wherein the display layout information comprises display layout data corresponding to each curtain lamp in the curtain lamp assembly:

The controller is electrically connected with each curtain lamp of the curtain lamp assembly, specifically, the second control unit of the controller is electrically connected with the first control unit of the curtain lamp through the second communication unit and the first communication unit of the curtain lamp, so that the controller and each curtain lamp of the curtain lamp assembly respectively establish a data communication link.

After the data communication link is established between the curtain lamp and the controller, the first control unit of the curtain lamp retrieves display layout data of each light emitting unit of the curtain lamp on a corresponding area on the curtain from the first storage unit of the curtain lamp, wherein the display layout data is the arrangement position data of each light emitting unit of each curtain lamp on the corresponding area on the curtain.

The first control unit of the curtain lamp calls out the display layout data from the first storage unit, then sends the display layout data to the controller through a corresponding data communication link, and the second control unit of the controller receives the display layout data of the corresponding curtain lamp through the second communication unit and then stores the display layout data in the second storage unit.

When the controller receives the display layout data corresponding to each curtain lamp of the curtain lamp assembly, the second control unit integrates the acquired display layout data to form display layout information of the curtain lamp assembly, that is, the display layout information is the arrangement position data of the light emitting units of each curtain lamp of the curtain lamp assembly on the corresponding curtain.

Step S120, determining a light special effect to be displayed in response to a curtain light effect generation instruction, and correspondingly converting the light special effect into a light effect control instruction of each curtain light according to display layout data of each curtain light in the display layout information, wherein the light effect control instruction carries display control information of the corresponding curtain light:

after the second control unit of the controller obtains the curtain light effect generation instruction, the second control unit responds to the curtain light effect generation instruction to obtain the light special effect information in the curtain light effect generation instruction, and the light special effect information is used for controlling the curtain light assembly to send out the corresponding light special effect.

After the second control unit of the controller obtains the light special effect information, the light special effect information is corresponding to the display layout data of each curtain lamp in the display layout information, the light special effect information is divided into a plurality of pieces of sub special effect information, each piece of sub special effect information corresponds to one piece of display layout data respectively, the sub special effect information is matched with the corresponding display layout data to generate display control information, the display control information is used for controlling the corresponding curtain lamp to display the corresponding sub special effect, and the plurality of pieces of curtain lamps of the curtain lamp assembly respectively display the sub special effects to form the light special effect corresponding to the light special effect information.

After the second control unit of the controller obtains the display control information corresponding to each curtain lamp, each display control information is respectively packaged in the corresponding lamp effect control instruction, that is, the light special effect information corresponds to a plurality of display layout data of the display layout information and is converted and packaged into a plurality of lamp effect control instructions. The second control unit of the controller sends a plurality of lamp effect control instructions to the corresponding curtain lamps respectively through the second communication unit, after the first control unit of the curtain lamps receives the corresponding lamp effect control instructions through the first communication unit, the corresponding display control information is analyzed from the lamp effect control instructions, and the first control unit drives the plurality of luminous units to emit light through the display control information, so that the corresponding sub special effects are formed. The sub-effects emitted by each of the plurality of window shade lamps form the light effect of the window shade lamp assembly.

Specifically, in the present step S120, the following specific steps are further included:

step S121, obtaining light special effect information from a curtain light effect generating instruction, correspondingly matching the light special effect information with the display layout information, generating display control information corresponding to each display layout data, and packaging the display control information in the light effect control instruction:

After the second control unit of the controller obtains the curtain light effect generation instruction, the second control unit analyzes the light special effect information from the curtain light effect generation instruction, and the light special effect information is used for controlling the curtain light assembly to send out a corresponding light special effect.

Because the curtain lamp component is composed of a plurality of curtain lamps, a plurality of light emitting units of the curtain lamps are arranged in corresponding areas of the curtain, the position information of the plurality of light emitting units of the curtain lamps in the corresponding areas of the curtain is the display layout data, and the display layout data of the areas corresponding to the plurality of curtain lamps on the curtain respectively form the display layout information of the curtain lamp component.

The light special effect information corresponds to the display layout information, but the curtain lamp assembly consists of a plurality of independent curtain lamps, that is, the display layout information consists of a plurality of display layout data. The light special effect information is correspondingly divided into a plurality of sub special effect information according to a plurality of display layout data, and the sub special effect information is used for controlling the corresponding curtain lamps to display the corresponding sub special effects in the corresponding areas of the curtains.

The second control unit of the controller divides the lamplight special effect information into a plurality of sub special effect information according to the display layout data corresponding to a plurality of curtain lamps, and then matches the sub special effect information with the corresponding display layout data to generate display control information, wherein the display control information is used for controlling the sub special effect of the corresponding curtain lamps in a preset area on the curtain. For example, the display control information controls one or more of a lighting color, a lighting intensity, and a lighting time of each lighting unit of the curtain light such that the plurality of lighting units of the curtain light work together to display a predetermined sub-effect in a corresponding area of the curtain.

After the second control unit of the controller acquires the display control information, the display control information is encapsulated in a display control instruction, the display control instruction is sent to the corresponding curtain lamp through a data communication link established with the curtain lamp, the curtain lamp is driven to send out a preset sub-special effect, and the sub-special effects sent out by the curtain lamps respectively form the lamplight special effect displayed on the curtain by the curtain lamp assembly.

In one embodiment, in step S121, in conjunction with fig. 4, the following specific steps are further included:

step S1211, when the display control information characterizes the dynamic light effect, converting the display control information into a plurality of static display control information characterizing static light effect in time sequence, where the static display control information further includes time stamp data, where the time stamp data is used to specify time when the curtain light executes a corresponding light effect control instruction:

when the light special effect information represents the dynamic light special effect, the second control unit of the controller correspondingly matches the light special effect information corresponding to the dynamic light special effect with each display layout data of the display layout information of the curtain light assembly to generate display control information corresponding to the dynamic sub special effect, and the display control information representing the dynamic sub special effect is called as dynamic display control information.

For example, in connection with fig. 2, the window covering light assembly includes three window covering lights that are respectively located in three consecutive zones on the window covering, and when the light special effect information is used to control the window covering light assembly to display the number "123" on the window covering, the first window covering light of the window covering light assembly displays the number "1", the second window covering light displays the number "2", and the third window covering light displays the data "3". When the dynamic light special effect corresponding to the light special effect information is that the number '123' is displayed in the first time period and the number '321' is displayed in the second time period, the dynamic display control information generated by the second control unit corresponding to the first curtain lamp is that the number '1' is displayed in the first time period and the number '3' is displayed in the second time period; the dynamic display control information generated by the second control unit corresponding to the second curtain lamp is displayed with a number of 2 in the first time length and the second time length, namely the dynamic display control information corresponding to the second curtain lamp is static display control information in the first time length and the second time length; the second control unit displays the number '3' in the first duration and the number '1' in the second duration corresponding to the dynamic display control information generated by the third curtain lamp.

The second control unit of the controller divides the dynamic display control information into one or more display control information representing the static light special effects, and the display control information representing the static light special effects is called static display control information. The static display control information is used for controlling the corresponding curtain lamps to emit the same static sub-special effect within a preset time length, that is, the light emitted by each light-emitting unit of the curtain lamps is unchanged within the preset time length.

For example, the dynamic display control information of the first curtain lamp corresponding to the curtain lamp assembly is used for controlling the first curtain lamp to display the number '1' in a first time period and display the number '3' in a second time period, and then the second control unit sequentially divides the dynamic display control information into first static display control information representing that the number '1' is displayed in the first time period and second static display control information representing that the data '3' is displayed in the second time period.

The static display control information also comprises time stamp data, and the time stamp data is used for controlling the corresponding curtain lamps to emit light to display the starting time and the ending time of the static display control information so as to control the duration of the curtain lamps for displaying the corresponding sub special effects. For example, if the timestamp data in the static display control information is "00:00:01-00:00:02", the static display control information is characterized to control the corresponding curtain lamps to display the corresponding sub special effects in the time period of 00:00:01-00:00:02.

Step S1212, packaging the plurality of static display control information into a plurality of light effect control instructions respectively:

the second control unit of the controller divides the dynamic display control information into a plurality of static display control information, and then packages the static display control information into a plurality of lamp effect control instructions correspondingly. The plurality of lamp effect control instructions are sequentially arranged according to the contained time stamp data, and the second control unit of the controller simultaneously sends the plurality of lamp effect control instructions corresponding to the same curtain lamp to the corresponding curtain lamp, or the second control unit sends the lamp effect control instructions to the corresponding curtain lamp at any time slice before the starting time of the time stamp data in the lamp effect control instructions.

After receiving a plurality of lamp effect control instructions, the curtain lamp analyzes corresponding static display control information, and sequentially controls the light-emitting units to work according to the static display control information, so that the light-emitting units of the curtain lamp sequentially display static sub-special effects, and the plurality of static sub-special effects form dynamic sub-special effects. The plurality of curtain lamps of the curtain lamp assembly respectively display dynamic sub-special effects or static sub-special effects, so that the curtain lamp assembly displays corresponding dynamic sub-special effects and/or static sub-special effects on the curtain, and the curtain lamp assembly can display different lamplight special effects on the curtain, thereby enriching entertainment lives.

In one embodiment, in conjunction with fig. 5, step S12 is preceded by the following specific steps:

step S122, generating a drawing interface in the display screen corresponding to the display layout information, where the drawing interface is configured to receive an external editing instruction to generate a corresponding static or dynamic lighting special effect:

the second control unit of the controller is electrically connected with the display screen, and after the second control unit obtains the display layout information of the curtain lamp assembly, the second control unit corresponds to the display interface of the display screen, and the second control unit controls the display screen to generate a drawing interface on the display interface. The drawing interface corresponds to the display layout information, namely, the layout of the curtain lamp assembly on the curtain is simulated on the drawing interface of the display screen, so that the drawing interface corresponds to the layout of a plurality of curtain lamps of the curtain lamp assembly on the curtain.

The drawing interface of the display screen can receive an external editing instruction, and the lamplight special effect is drawn on the drawing interface, wherein the lamplight special effect can be a static lamplight special effect or a dynamic lamplight special effect. In one embodiment, the external editing instructions are drawing operations performed by a user on a drawing interface using an external tool. The external tool can be a mouse or a touch pen, so that a user can manually draw a light special effect displayed on the curtain, interactivity is improved, and interestingness is improved.

In this step S122, the following specific steps are further included:

step S1221, matching the display interface of the display screen with the display layout information, and generating a drawing interface on the display interface:

the second control unit matches the display interface of the display screen with the display layout information of the curtain lamp assemblies on the curtain, and generates a drawing interface on the display interface, namely, the layout of the curtain lamp assemblies on the curtain is simulated through the drawing interface, so that the lamplight special effect adapting to the layout of the curtain lamp assemblies on the curtain is drawn on the drawing interface.

Specifically, the display layout information of the curtain lamp assembly is composed of display layout data of a plurality of curtain lamps, the display layout information is matched with a display interface to generate a drawing interface, the display layout data of the display layout information respectively correspond to one interface area of the drawing interface, and the interface areas corresponding to the display layout data form the drawing interface. The interface area corresponds to the layout of the simulated curtain lamps on the curtain so as to simulate the layout of each curtain lamp on the curtain actually, and the lamplight special effect which accords with the layout of the curtain lamp components on the curtain is drawn on the drawing interface.

In one embodiment, when the window curtain light assembly updates the number of the window curtain lights or the position relationship on the window curtain, the second control unit correspondingly acquires the display layout information of the updated window curtain light assembly, and displays a drawing interface corresponding to the display layout information of the updated window curtain light assembly in the display interface of the display screen.

For example, referring to fig. 2, when the window shade assembly includes three window shade lamps, the first window shade lamp is disposed in the region a of the window shade, the second window shade lamp is disposed in the region B of the window shade, the third window shade lamp is disposed in the region C of the window shade, and the region a, the region B and the region C are all rectangular and are sequentially connected along the same axis, so as to form a first rectangular region on the window shade. The second control unit matches display layout information of a curtain lamp assembly formed by three curtain lamps with a display interface, and a drawing interface corresponding to the first rectangular area is formed on the display interface so as to facilitate drawing of the lamplight special effect corresponding to the large rectangular area.

When the curtain lamp component is added with a curtain lamp D, the curtain lamp D is arranged in a D area of the curtain, the D area, the A area, the B area and the C area are arranged along the same axis, and the D area is arranged on one side of the C area which is not connected with the B area, so that a second rectangular area is formed on the curtain. After the second control unit obtains the display layout data of the curtain lamp D, the display layout information of the curtain lamp assembly is updated, a new drawing interface is formed on the display interface by combining the display interface, and the new drawing interface corresponds to the second rectangular area so as to update the drawing interface in real time and draw the lamplight special effect adapting to the layout on the curtain of the curtain lamp assembly.

In one embodiment, the drawing interface is provided with a plurality of anchor points, the anchor points represent light-emitting units on curtain lamps arranged on the curtain, each anchor point corresponds to one light-emitting unit in the curtain lamp assembly, and the position relationship among the anchor points corresponds to the position relationship among the light-emitting units on the curtain. Therefore, the layout relation of each light-emitting unit of the curtain light assembly on the curtain is simulated through the drawing interface, so that a user can draw a corresponding lamplight special effect on the drawing interface according to the layout relation of the light-emitting units of the curtain light assembly on the curtain, and the adaptability of drawing the lamplight special effect is enhanced. Preferably, when the lamplight special effect is drawn, each anchor point on the drawing interface is connected to draw the lamplight special effect.

Step S123, in response to a light effect confirmation instruction, converting the information of the light special effect into the curtain light effect generation instruction:

after the drawing of the lamplight special effect is completed on the drawing interface, a lamplight effect confirmation instruction is output to the display screen through the second control unit, and the display screen responds to the lamplight effect confirmation instruction to convert the lamplight special effect drawn on the drawing interface into lamplight special effect information. And then, the display screen packages the lamplight special effect information into a lamplight effect generation instruction, and outputs the lamplight effect generation instruction to the second control unit.

Step S130, sending a corresponding light effect control instruction to each curtain lamp, so that each curtain lamp in the curtain lamp assembly cooperatively displays the light special effect:

after the second control unit of the controller acquires the lamp effect control instructions corresponding to the curtain lamps, the lamp effect control instructions are sent to the corresponding curtain lamps through the data communication link established with the curtain lamps. After receiving the corresponding light effect control instruction, the first control unit of the curtain lamp analyzes the corresponding display control information from the light effect control instruction. The first control unit controls each light-emitting unit of the curtain lamp to emit preset light through the display control information, so that the curtain lamp displays sub-special effects in a corresponding area on a curtain, and the sub-special effects displayed by each of a plurality of curtain lamps of the curtain lamp assembly form a complete lamplight special effect.

In one embodiment, the display control information includes a plurality of light control information for controlling light emission of one light emitting unit of the curtain lamp, and the plurality of light control information correspondingly controls light emission of a plurality of light emitting units of the curtain lamp.

Specifically, the first control unit encapsulates the light control information in a light control signal, and the first control unit sends the light control signal to the corresponding light emitting unit to control the light emitting color, the light emitting intensity and the light emitting duration of the light emitted by the corresponding light emitting unit. The light emitting units of the curtain lamp are respectively controlled by the corresponding light control signals to emit corresponding light or not, so that the light emitted by the light emitting units in the curtain lamp arranged on the curtain forms corresponding sub special effects. The sub-effects displayed by the plurality of window shade lamps of the window shade lamp assembly on the window shade constitute the light effects displayed on the window shade.

Still further, the light emitting unit includes three light emitting elements of red, green and blue, and the light control signal is used for controlling the three light emitting elements to emit light, so that the light emitting unit can emit light of any color.

In one embodiment, in conjunction with fig. 6, the curtain light effect control method further includes a post-step:

step S140, receiving an acknowledgement signal sent by the curtain lamp within a predetermined time period:

when the curtain lamp receives the light effect control instruction sent by the controller, the first control unit of the curtain lamp acquires corresponding display control information from the light effect control instruction. After the first control unit acquires the display control information, checking the integrity of the display control information, and avoiding the data loss of the display control information in the transmission process.

And when the first control unit verifies that the display control information is not lost, packaging the information of the data which is not lost into a confirmation signal, and sending the confirmation signal to the controller.

When the first control unit verifies that the display control information is lost, if the display control information is partially lost, the lost data is packaged in a confirmation signal, and the confirmation signal is sent to the controller.

In addition, if the controller does not receive the confirmation signal sent by the curtain lamp within the preset time, the controller sends a lamp effect control instruction to the corresponding curtain lamp again.

Step S150, acquiring verification information in the confirmation signal, and if the verification information contains data loss information, re-transmitting a corresponding lamp effect control instruction or lost data to the curtain lamp:

and when the controller receives the confirmation signal sent by the curtain lamp within a preset time after the controller sends the light effect control instruction to the curtain lamp, if the confirmation signal contains information indicating that the data is not lost, the controller does not send the light effect control instruction to the curtain lamp again.

When the controller acquires display control information in the lamp effect control instruction from the received confirmation signal and the data is lost, the controller sends the lamp effect control instruction to the curtain lamp again. Or the controller repackages the lost information into another light effect control instruction, and sends the other light effect control instruction to the corresponding curtain lamp so that the curtain lamp can display a preset sub special effect.

The present invention also provides a storage medium storing computer readable instructions that, when executed by one or more processors, cause the one or more processors to perform the steps of the shade light efficiency control method of any of the embodiments of the present invention.

The invention also provides a computer program product comprising computer programs/instructions which when executed by one or more processors implement the steps of the method for controlling a curtain lighting effect according to any one of the embodiments of the invention.

Those skilled in the art will appreciate that all or part of the processes implementing the methods of the above embodiments of the present invention may be implemented by a computer program for instructing relevant hardware, where the computer program may be stored on a computer readable storage medium, where the program, when executed, may include processes implementing the embodiments of the methods described above. The computer readable storage medium may be a magnetic disk, an optical disk, a Read-Only Memory (ROM), or a random access Memory (Random Access Memory, RAM).

In summary, the curtain light effect control method of the invention can respectively send the light effect control instructions to the corresponding curtain lights, so that each curtain light only receives the corresponding display control information, the load of the curtain lights in operation is reduced, the light effect emitted by each curtain light of the curtain light assembly on the curtain forms the light effect of the curtain light assembly on the curtain, and the curtain light assembly can display different light effects.

It will be understood by those within the art that each block of the block diagrams and/or flowchart illustrations, and combinations of blocks in the block diagrams and/or flowchart illustrations, can be implemented by computer program instructions. Those skilled in the art will appreciate that these computer program instructions can be implemented in a processor of a general purpose computer, special purpose computer, or other programmable data processing method, such that the blocks of the block diagrams and/or flowchart illustration are implemented by the processor of the computer or other programmable data processing method.

Those of skill in the art will appreciate that the various operations, methods, steps in the flow, actions, schemes, and alternatives discussed in the present application may be alternated, altered, combined, or eliminated. Further, other steps, means, or steps in a process having various operations, methods, or procedures discussed in this application may be alternated, altered, rearranged, split, combined, or eliminated. Further, steps, measures, schemes in the prior art with various operations, methods, flows disclosed in the present application may also be alternated, altered, rearranged, decomposed, combined, or deleted.

The foregoing is only a partial embodiment of the present application, and it should be noted that, for a person skilled in the art, several improvements and modifications can be made without departing from the principle of the present application, and these improvements and modifications should also be considered as the protection scope of the present application.

Claims (10)

1. The curtain light effect control method is characterized by comprising the following steps:

obtaining display layout information of a curtain lamp assembly, wherein the display layout information comprises display layout data corresponding to each curtain lamp in the curtain lamp assembly;

responding to a curtain light effect generation instruction, determining a light effect to be displayed, and correspondingly converting the light effect into a light effect control instruction of each curtain light according to display layout data of each curtain light in the display layout information, wherein the light effect control instruction carries display control information of the corresponding curtain light;

and sending corresponding lamp effect control instructions to each curtain lamp so that each curtain lamp in the curtain lamp assembly cooperatively displays the light special effect.

2. The method of claim 1, further comprising, prior to the step of generating the command in response to the shade light, the step of:

Generating a drawing interface in a display screen corresponding to the display layout information, wherein the drawing interface is used for receiving an external editing instruction to generate a corresponding static or dynamic lamplight special effect;

and responding to a light effect confirmation instruction, and converting the information of the light special effect into a curtain light effect generation instruction.

3. The method according to claim 2, wherein the step of generating a drawing interface in the display screen corresponding to the display layout information comprises the following specific steps:

and matching the display interface of the display screen with the display layout information, and generating a drawing interface on the display interface.

4. The method of claim 1, wherein the display layout data is comprised of positional information of each of a plurality of light emitting units of the window covering lamp on the window covering.

5. The method of claim 1, wherein the step of converting the light special effect correspondence into a light effect control instruction of each curtain lamp according to the display layout data of each curtain lamp in the display layout information, wherein the light effect control instruction carries display control information of the corresponding curtain lamp comprises the following specific steps:

and acquiring light special effect information from a curtain light effect generation instruction, correspondingly matching the light special effect information with the display layout information, generating display control information corresponding to each display layout data, and packaging the display control information in the light effect control instruction.

6. The method of claim 5, wherein the step of encapsulating the display control information in the light effect control instruction comprises the steps of:

when the display control information represents the dynamic light effect, the display control information is sequentially converted into a plurality of static display control information representing the static light effect according to time sequence, and the static display control information also comprises time stamp data which are used for designating the time of executing the corresponding light effect control instruction by the curtain light;

and respectively and correspondingly packaging the plurality of static display control information into a plurality of lamp effect control instructions.

7. The method of claim 1, wherein the lighting control instructions are configured to control one or more of a lighting color, a lighting intensity, and a lighting time of the lighting units of the corresponding window covering lamp such that the plurality of lighting units form the corresponding lighting effect.

8. The method of claim 1, further comprising the post-step of:

receiving a confirmation signal sent by a curtain lamp within a preset time length;

and acquiring check information in the confirmation signal, and if the check information contains data loss information, re-transmitting a corresponding light effect control instruction or lost data to the curtain lamp.

9. A curtain light effect control apparatus comprising a controller for performing the curtain light effect control method of any one of claims 1 to 8 and a curtain light assembly comprising a plurality of curtain lights comprising a plurality of light emitting units.

10. A computer readable storage medium having stored therein program code which is callable by a processor to perform the curtain lighting effect control method as defined in any one of claims 1 to 8.

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