CN112423432A - Control method and device for lighting, storage medium and lighting assembly - Google Patents

Abstract

The application provides a control method of lighting, is applied to the lighting assembly including a plurality of lamp area modules, and a plurality of lamp area modules electrical property are connected in proper order in order to form the illumination part of lighting assembly, and every lamp area module all can be lighted by independent control, and this control method includes: dividing a lighting part comprising a plurality of lamp belt modules into a plurality of control units which are adjacent in sequence, wherein each control unit corresponds to a certain number of adjacent lamp belt modules; acquiring a selected control unit to be controlled; and receiving a light color control signal of each selected control unit to be controlled, and controlling the lamp strip module included in the corresponding control unit to be lightened and present a corresponding color. The lighting control method enables a user to edit the number and the color of the lighted lights according to the interests of the user.

Description

Control method and device for lighting, storage medium and lighting assembly

Technical Field

The present application relates to the field of lighting, and in particular, to a method and an apparatus for controlling lighting, a storage medium, and a lighting assembly.

Background

The lamp strip is characterized in that the LED lamp beads are assembled on a strip-shaped FPC or PCB hard board, the shape of the lamp strip is like a strip, and the LED lamp strip is popularized and used more and more along with the gradual development of the lighting industry. The existing LED lamp belts in the market are multicolor LED lamp belts besides single-color LED lamp belts; the magic color LED strip refers to a magic color visual effect that LEDs on the strip can be controlled to change various colors so as to bring color change to users. The existing lamp belt lighting basically adopts a common fixed light change mode, and lacks the function of self-defining by a user.

Disclosure of Invention

The embodiment of the application provides a control method and device of lighting, a storage medium and a lighting assembly, which can control the change of lighting through sound information in an environment.

In a first aspect, an embodiment of the present application provides a control method for lighting, which is applied to a lighting assembly including a plurality of light strip modules, where the plurality of light strip modules are sequentially and electrically connected to form a lighting portion of the lighting assembly, and each of the light strip modules can be individually controlled to be lit, and the control method includes: dividing a lighting part comprising the plurality of lamp strip modules into a plurality of control units which are adjacent in sequence, wherein each control unit corresponds to a certain number of adjacent lamp strip modules; acquiring a selected control unit to be controlled; and receiving a light color control signal of each selected control unit to be controlled, and controlling the lamp strip module included in the corresponding control unit to be lightened and present a corresponding color.

In a second aspect, an embodiment of the present application provides a control device for lighting, where the control device includes a control unit dividing module, a control unit selecting module, a color control module, and a brightness control module, and the control unit dividing module is configured to divide a lighting portion including a plurality of light belt modules into a plurality of sequentially adjacent control units; the control unit selection module is used for selecting a control unit to be controlled; the color control module is used for controlling the lighting of the lamp strip module included in the corresponding control unit and displaying the corresponding color; the brightness control module is used for controlling the lamp strip module included by the corresponding control unit to display corresponding brightness.

In a third aspect, an embodiment of the present application provides a computer-readable storage medium, where program instructions are stored in the computer-readable storage medium, and the program instructions may be invoked by a processor to execute the method for controlling lighting provided in the first aspect.

In a fourth aspect, embodiments of the present application provide a lighting assembly, including: the lamp strip modules are sequentially and electrically connected to form an illumination part of the illumination assembly, and each lamp strip module can be independently controlled to be lightened; one or more processors; a memory; one or more program instructions, wherein the one or more program instructions are stored in the memory and configured to be executed by the one or more processors, the one or more program instructions configured to perform the method of controlling lighting provided by the first aspect above.

The scheme that this application provided is through dividing into a plurality of adjacent the control unit in proper order with the illumination part to through the control unit that the user selected wantonly and want to light and the colour of lighting, make the user can remove the light quantity and the colour of editor's lighting according to own interest, promoted user's light and controlled experience, make the product can attract more users.

Drawings

In order to more clearly illustrate the technical solution of the present application, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

Fig. 1 shows a schematic structural diagram of a lighting assembly of an embodiment of the present application.

Fig. 2 shows a control principle schematic diagram of a control circuit of a light strip module of the lighting assembly of the embodiment of the present application.

Fig. 3 shows a flowchart of a control method of lighting according to an embodiment of the present application.

Fig. 4 shows a block diagram of a control device for lighting according to an embodiment of the present application.

Fig. 5 shows a block diagram of a control device for performing a lighting control method according to an embodiment of the application.

Fig. 6 shows a flowchart of another control method for lighting according to an embodiment of the present application.

FIG. 7 illustrates a partial view of a selection interface in the process flow of FIG. 6.

Fig. 8 is a block diagram illustrating another lighting control apparatus according to an embodiment of the present disclosure.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some embodiments of the present application, but not all embodiments. The components of the embodiments of the present application, generally described and illustrated in the figures herein, can be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present application, presented in the accompanying drawings, is not intended to limit the scope of the claimed application, but is merely representative of selected embodiments of the application. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

Referring to fig. 1, a lighting assembly 100 provided in an embodiment of the present application includes a control device 10 and a plurality of strip modules 30 electrically connected to the control device 10, wherein the control device 10 can be electrically connected to an external power source to control the on/off and light variation of the plurality of strip modules 30. The plurality of lamp strip modules 30 are electrically connected in sequence to form an illumination portion of the illumination assembly 100, the illumination portion of the illumination assembly 100 is integrally in a flexible strip shape, the illumination portion can be wound up through a reel, storage in a transportation process is facilitated, and the control device 10 is electrically connected with one end of one lamp strip module 30 at the end of the illumination portion. Each of the light strip modules 30 includes a base layer 31, a conductive circuit 32 attached to the base layer 31, a control chip 33, and a plurality of LED lamps 34, wherein the control chip 33 is electrically connected to the LED lamps 34, and adjacent light strip modules 30 are electrically connected to each other through the conductive circuit 32. The lamp strip modules 30 connected to the control device 10 are electrically connected to the control device 10 through the wire lines 32 on the lamp strip modules 30, and the control device 10 can control the LED lamps 34 of each lamp strip module 30 to emit lights with the same or different colors and/or luminances, so as to respectively control the color and/or luminance of the lights of each lamp strip module 30.

Referring to fig. 2, fig. 2 is a control schematic diagram of a control circuit of a plurality of electrically connected strip modules 30, and the control device 10 can respectively control each strip module 30 according to the control circuit, that is, the LED lamp 34 on each strip module 30 can emit light with the same color and/or brightness as or different from that of the LED lamps on the other strip modules. As follows, the control circuit of one of the lamp strip modules will be described, the control circuit includes three lines, which are a power line VDD, a control signal line DI/DO and a ground line GND, respectively, the three lines form the conductive circuit 32 of each lamp strip module 30, and the adjacent lamp strip modules are electrically connected through the three lines; the control circuit further comprises a control chip U1, a first resistor R1, a second resistor R2, a third resistor R3, a fourth resistor RR and a plurality of LED lamps, wherein the control chip U1 has eight pins, and three LED lamps are described in the application. The three LED lamps are all connected with a power line VDD, the three LED lamps and three pins 1, 2 and 3(R, G, B) of a control chip U1 are all in series connection, the three pins 1, 2 and 3 are related to color control, the control chip U1 receives external control input signals and then converts the signals into PWM signals to control the LED lamps through the chip, and various color/brightness changing effects are achieved through the three pins 1, 2 and 3 by combining three LEDs. Pin 4(GND) on the control chip U1 is connected with a ground wire GND, and pin 6(DI) on the control chip U1 is connected with a control signal wire DI; pin 5(DO) is a control signal output end, which is connected to pin 6(DI) of the control chip of the next lamp band module, and is used as a control signal line DI of the next lamp band module for inputting a control signal of the next lamp band module; pin 8(VDD) is the power input terminal of the control chip U1, and is connected to the power line VDD and the ground line GND; pin 7(NC) is a blank pin and has no purpose. Resistors RR are arranged between the pin 1(R) and the three LED lamps, a resistor R1 is arranged between the pin 8(VDD) and a power line VDD, and the resistor R1 and the resistor RR play a role in limiting current to protect the LED lamps from being burnt out by high voltage and high current under the condition that a power supply is unstable; a resistor R2 is arranged between the pin 6(DI) and the control signal line DI, a resistor R3 is arranged on a line led out from the pin 5(DO), and the resistor R2 and the resistor R3 are used for impedance matching so as to adjust load power and inhibit signal reflection; and a capacitor C1 is arranged between the pin 8(VDD) and the ground line GND to play a role in filtering. The circuit through this design can realize the control respectively to the light color and/or the luminance of every lamp area module, and then the LED lamp of steerable each lamp area module 30 sends the light of the same or different color and/or luminance.

Referring to fig. 3, based on the lighting assembly 100 including the plurality of strip modules 30, the plurality of strip modules of the lighting assembly are sequentially connected to form the lighting portion of the lighting assembly, and the lighting portion of the lighting assembly is in a strip shape as a whole. In some embodiments, the number of light strip modules may exceed 20 or more, which, when partially or fully illuminated, can bring about lighting decoration and atmosphere rendering to the environment in which the lighting assembly is located. Wherein, the specific quantity of lamp area module can set up according to user's demand. One embodiment of the present application provides a method for controlling lighting, which includes the following steps.

S301, lighting an LED lamp on at least one preset lamp strip module in the lighting assembly, where the at least one preset lamp strip module is a lamp strip module pre-selected from the plurality of lamp strip modules.

In some embodiments, the number of the preset light strip modules to be lit is one, and the light strip module may be a light strip module located at an edge of the illumination portion of the illumination assembly near the control box, may also be a light strip module located at another edge of the illumination portion of the illumination assembly far from the control box, and may also be a light strip module located at an intermediate position. The lighted preset lamp strip can be preset in the production process, and can also be preset and selected by a user in the use process; the mode of setting and selecting in the using process can be controlled by a key on the control box or an application program in communication connection with the lighting assembly. In some embodiments, the number of the preset lighting strip modules to be lit is plural, for example, the preset lighting strip modules to be lit are LED lamps of three adjacent lighting strip modules located at the preset position, and the number and the position of the specific lighting strip modules are not limited in this application.

In some embodiments, the number of preset light strip modules illuminated is related to the overall number of light strip modules on the lighting assembly. When the lighting assembly comprises an even number of lamp belt modules, the number of preset lighted lamp belt modules is also an even number, and when the lighting assembly comprises an odd number of lamp belt modules, the number of lighted lamp belt modules is also an odd number; no matter the preset lamp belt modules which are lightened are in odd numbers or even numbers, the preset lamp belt modules are located in the middle of the lighting part, so that the number of the lamp belt modules which are not lightened and are located at the two ends of the preset lamp belt modules is equal, and other lamp belt modules can be symmetrically lightened to the directions of the two ends by taking the lightened preset lamp belt modules as the center, so that the symmetrical aesthetic feeling of light is presented. Wherein, the specific number of the lamp area module of predetermineeing that lights also is related to the whole quantity of the lamp area module that lighting components includes, the quantity that need guarantee the lamp area module of lighting is not less than the one-fifteenth of whole quantity, and then ensures that the quantity of the lamp area module that lighting components includes more causes lighting components's illumination part whole length overlength, and the user also can clearly know the position at the lamp area module place of lighting.

In some embodiments, the location where the illuminated light strip modules are located is related to the number of light strip modules on the lighting assembly. When the number of the light strip modules is less than ten, the lighted light strip modules can be light strip modules which are adjacent to the control box and positioned at the edge of the lighting part; when the number of the lamp strip modules is more than ten and less than twenty, the lighted lamp strip module can be a lamp strip module in the middle of the lighting part; when the number of the lamp strip modules is more than twenty, the lighted lamp strip modules can be the lamp strip modules which are positioned at one third of the lighting part and are adjacent to one side of the control box.

In some embodiments, the LED lamp on the preset lamp strip module may be turned on by operating a key on the control box to cause the lighting assembly to enter a corresponding mode; or the lighting assembly can be lightened in a mode of entering a corresponding mode through operation and control in an application program on the intelligent terminal device which is in communication connection with the lighting assembly.

In some embodiments, the color and brightness of the illuminated predetermined light strip module may be set by a user, or may be determined according to actual conditions, for example, according to the brightness of the ambient light where the lighting assembly is located. When the lamp area module of predetermineeing that lights is a plurality of, the colour and the luminance that the LED lamp sent on a plurality of lamp area modules of lighting can be the same, also can be inequality, specifically can set up according to the actual demand, for example, the lamp area module quantity of predetermineeing that lights is three, wherein, the colour of the LED lamp on the lamp area module of middle one is lighter than the colour of the LED lamp of two rest lamp area modules, the luminance of the LED lamp on the lamp area module of middle is weaker than the luminance of the LED lamp of two rest lamp area modules.

And S302, acquiring the environmental sound information of the lighting assembly in real time, and generating a control signal for controlling the lighting of other corresponding lamp belt modules according to the acquired environmental sound information.

In some embodiments, the obtained environmental sound information refers to sound information in an environment where the lighting assembly is located, and the environmental sound information can be collected and obtained through a sound sensing unit arranged in the control box.

In some embodiments, the environmental sound information includes a sound intensity value, and the control signal may be a control signal for controlling the lighting assembly to extend and light the LED lamps on a corresponding number of other light strip modules along at least one direction away from the preset light strip module, starting from the lighted preset light strip module according to the sound intensity value in the environment. When the preset lighted lamp strip module is positioned at the edge of the lighting assembly, other lamp strip modules can be sequentially lighted along the direction towards the edge of the other end; when the preset lamp belt module to be lightened is located at the non-edge position of the lighting assembly, other lamp belt modules can be sequentially lightened towards the edges of the two ends along the direction away from the preset lamp belt module.

In some embodiments, the number of the other lighted strip modules is related to the sound level of the sound in the environment, and the larger the sound level is within the preset sound level threshold range, the larger the number of the other lighted strip modules is. In one embodiment, a first lowest sound threshold, a first highest sound threshold, and a first fixed decibel value may be preset, and the number of other lighted strip modules may be determined by analyzing a relationship between the sound decibel value in the environmental sound information and the first lowest sound threshold, the first highest sound threshold, and the first fixed decibel value. When the sound shellfish value in the environment is lower than the first lowest sound shellfish threshold value, the other lamp belt modules are not lightened; when the sound shellfish value in the environment is higher than the first highest sound shellfish threshold value, all other lamp belt modules are lightened; and when the sound intensity value in the environment is higher than the first lowest sound intensity threshold and lower than the first highest sound intensity threshold, lighting part of other lamp strip modules, wherein the specific number of the lighted other lamp strip modules is related to the sound intensity value, for example, lighting a fixed number of other lamp strip modules each time the sound intensity value in the environment is increased by a first fixed decibel value between the first lowest sound intensity threshold and the first highest sound intensity threshold, so that the number of the lighted other lamp strip modules is changed along with the change of the sound intensity value in the environment between the first lowest sound intensity threshold and the first highest sound intensity threshold, and thus, a user can control the number of the lighted lamp strip modules according to the sound intensity emitted by the user, and the experience feeling of the user is greatly improved. In a specific embodiment, both ends of the lit preset lamp strip module include k other lamp strip modules, and m sound threshold values d1 and d2 … dm are stored in a program in the control box in advance, wherein the sizes of the m sound threshold values d1 and d2 … dm are sequentially increased according to a specific rule, and m is smaller than or equal to k. More specifically, the magnitude of m sound shellfish threshold values d1 and d2 … dm increases progressively in a fixed value difference manner, m is equal to k, when the obtained sound shellfish value in the environment is greater than the sound shellfish threshold value di and smaller than di +1, wherein i is smaller than m, the number of other lamp strip modules positioned at one end of the preset lamp strip module is lighted as i; and when the sound shellfish value is larger than the sound shellfish threshold value dm, all other lamp belt modules are lightened. In other embodiments, when the number of other light strip modules at two ends of the preset light strip module to be lit is not equal, the end including the larger number of other light strip modules is used as a reference.

In some embodiments, the brightness of the other lighted lamp strip module is also related to the sound intensity of the sound in the environment, and the brightness of the other lighted lamp strip module is brighter as the sound intensity in the environment sound information is larger within the preset sound intensity threshold range. In one embodiment, a second lowest sound threshold, a second highest sound threshold, and a second fixed decibel value may be preset, and the number of other lighted strip modules may be determined by analyzing the relationship between the sound decibel value in the environmental sound information and the second lowest sound threshold, the second highest sound threshold, and the second fixed decibel value. When the sound intensity of the ambient sound information is lower than the second lowest sound intensity threshold, the brightness of the other lighted lamp strip modules can be made to be the lowest brightness, for example, 20% of the maximum brightness; when the sound intensity value in the environmental sound information is higher than a second highest sound intensity threshold value, the brightness of other lighted lamp belt modules can reach the maximum brightness; when the sound decibel value in the environmental sound information is increased by a second fixed decibel value between a second lowest sound decibel threshold value and a second highest sound decibel threshold value, the brightness of other lighted lamp belt modules can be increased by a fixed brightness, so that when the sound decibel value in the environmental sound information is changed between the lowest sound decibel threshold value and the highest sound decibel threshold value, the brightness of the other lighted lamp belt modules is changed along with the change, a user can control the light brightness of the lighted lamp belt modules according to the sound emitted by the user, and the experience of the user is greatly improved. The brightness of the preset lighted lamp strip module can also be changed together with the brightness of other lamp strip modules along with the change of the sound decibel value in the preset range in the environment.

Wherein, the quantity and the luminance of other lamp area modules of lighting can receive the sound shellfish value in the environmental sound information at the change of predetermineeing the within range simultaneously and change together, that is, along with the increase of sound shellfish value in the environmental sound information at the within range of predetermineeing, the quantity of other lamp area modules of lighting is more, the luminance of other lamp area modules of lighting is brighter, make the user can control the quantity and the luminance of the lamp area module of lighting simultaneously according to the sound of oneself sending, for example, the user is when singing, the quantity and the luminance that the lamp area module among the lighting components was lighted change along with user's singing sound change, realize the atmosphere and the rhythm of the change of light in order to set off singing. In some embodiments, the brightness of the other light strip modules sequentially lighted is gradually increased from the preset light strip module as a starting point to the edge of at least one end of the lighting assembly, so that the lighted light strip modules gradually brighten along with the increase of the sound intensity value, and the light strip modules are gradually brightened, thereby bringing visual experience different from that of ordinary light to users.

In some embodiments, the LED lights on the other light strip modules that are lit are progressively lit as the sound decibel value in the environment increases, in a manner that the number of light strip modules per interval is fixed. For example, with the preset light strip module as a starting point, the other light strip modules are lit at intervals of one light strip module, that is, when the sound shellfish value gradually increases, an unlit other light strip module is spaced between the adjacent lit other light strip modules, and this way, the light strip modules gradually lit along with the increase of the sound shellfish value in the environment can integrally present a visual sense of starlight embellishment.

It should be noted that the colors of the other lighted lamp strip modules may be the same or may not be all the same. When the colors of the other lighted lamp strip modules are the same, the colors can be selected by a user through operating keys on the control box, and can also be selected by the user through operating and controlling in an application program on the intelligent terminal device in communication connection with the lighting assembly. When the colors of the other lighted lamp strip modules are not all the same, the colors of the other lighted lamp strip modules can change along with the sound intensity in the environment. Specifically, a program of the control box stores a plurality of light color change modes in advance, such as a seven-color loop horse race mode, a seven-color gradient mode, a three-color gradient mode, and the like, colors of other lighted lamp band modules can be adaptively changed randomly according to one mode, and also can be switched along with the change of sound intensity, that is, a fixed sound intensity threshold range corresponds to one light color change mode.

In some embodiments, the color of the illuminated other light strip module is related to the tone information of the sound in the ambient sound information, and the color presented by the illuminated other light strip module is determined by obtaining the tone information of the sound in the ambient sound information in real time and analyzing the male and female sounds in the tone information. When the tone color information of the sound in the acquired environment sound information is male sound, the color of the other lighted lamp belt modules is warm tone, wherein the specifically lighted color of the lamp belt modules can be presented in a manner of changing among a plurality of warm tones; when the acquired tone information of the sound in the environment is female sound, the colors of the other lighted lamp strip modules are cool tones, wherein the colors displayed by the lighting of the lamp strip modules can be changed among a plurality of cool tones; when the tone color information of the sound in the acquired environment sound information simultaneously comprises a male sound and a female sound, the colors of the other lighted lamp strip modules are alternately changed and presented between a cool tone and a warm tone. The mode enables the color of the lighted lamplight to change along with the change of the sound tone, and further sets off the environmental atmosphere. In some embodiments, the male voice may correspond to a cool tone and the female voice may correspond to a warm tone.

And S303, controlling the corresponding LED lamps of other lamp belt modules to be lightened in preset time according to the control signal.

In some embodiments, since the sound in the environment is not always present, in order to enable the other light strip modules to be lit in real time along with the sound information in the environment, the lit other light strip modules need to be extinguished after a preset time elapses. In a specific embodiment, in consideration of the collection of the sound information and the transmission of the control signal, the applicant has conducted intensive studies to find that it is preferable to set the preset time to 0.2 s. Of course, the specific preset time can also be artificially set according to the actual sensory status of the user.

The embodiment of the application provides a control method of lighting, make lighting components's lamp area module can use the lamp area module of presetting of initial lighting as the starting point, keep away from this edge direction of presetting the lamp area module to at least one, along with the sound information in the environment, light other lamp area modules, make the quantity of lighting of lamp area module, luminance and/or colour change along with the sound change in the environment, the illumination change through lamp area module brings real-time light rhythm to the environment and feels, set off the environment atmosphere, especially be fit for the environmental atmosphere of singing, because the sound information real-time change in the singing environment is great, make the illumination rhythm of light also follow the singing sound in the environment and change in real time, the light experience who has brought the sunken environment for the user feels.

Referring to fig. 4, a block diagram of a lighting control apparatus 400 according to an embodiment of the present disclosure is shown. The control device 400 may include a preset lighting control module 410, a sound acquisition module 420, a varying lighting control module 430, and a lighting extinction control module 440. The preset lighting control module 410 is configured to control an LED lamp on at least one preset lamp strip module in the lighting assembly to be turned on; the sound acquisition module 420 is used for acquiring and acquiring the environmental sound information of the lighting assembly in real time; the varied lighting control module 430 is configured to generate a corresponding control signal according to the environment sound information acquired in real time, so as to control other lamp strip modules in the lighting assembly to be turned on according to the environment sound information; the lighting extinction control module 440 is configured to control the other lighted lamp strip modules to extinguish after a preset time.

In some embodiments, the varying lighting module may be specifically configured to: and determining the number of other lamp belt modules which are sequentially or alternately lightened according to the sound shellfish value in the environment acquired by the sound acquisition module.

In some embodiments, the varying illumination module may be further specifically configured to: and determining the brightness of other lighted lamp belt modules according to the sound shellfish value in the environment acquired by the sound acquisition module.

In some embodiments, the varying illumination module may be further specifically configured to: and determining the color of the other lighted lamp belt modules according to the environmental sound information acquired by the sound acquisition module.

It should be noted that the modules of the control device communicate via one or more buses. It will be appreciated by those skilled in the art that the configuration of the control device shown in the figures is not intended to limit the invention, and may be a bus or star configuration, and may include more or fewer components than those shown, or some components may be combined, or a different arrangement of components.

The lighting control device that this application embodiment provided, make lighting components's lamp area module can use the lamp area module of predetermineeing of initial lighting as the starting point, keep away from this edge direction of predetermineeing the lamp area module to at least one, along with the sound information in the environment, light other lamp area modules, make the quantity of lighting of lamp area module, luminance and/or colour change along with the sound in the environment, change for the environment brings real-time light rhythm through the illumination change of lamp area module and feels, setoff the environment atmosphere.

Referring to fig. 5, a block diagram of a control device 10 according to an embodiment of the present disclosure is provided. The control device in the present application comprises at least one or more of the following components: a processor 510, a memory 520, and a sound collection device 530, wherein the memory 520 has stored therein one or more program instructions configured to be executed by the one or more processors, the one or more programs configured to perform the methods as described in the foregoing method embodiments. Processor 510 may include one or more processing cores. The processor 510 connects various parts within the overall control device using various interfaces and lines, performs various functions of the terminal device and processes data by executing or executing instructions, programs, code sets, or instruction sets stored in the memory, and calling data stored in the memory. Alternatively, the processor 510 may be implemented in at least one hardware form of digital signal processing, field programmable gate array, programmable logic array. The processor may be integrated with one or a combination of a central processor and a modem. The memory may include random access memory or read only memory. The memory 520 may be used to store instructions, programs, code sets, or instruction sets. The memory may include a stored program area and a stored data area, wherein the stored program area may store instructions for implementing the illumination assembly, instructions for implementing at least one function (such as illuminating the number, brightness and/or color, etc. of other light strips), and the like. The storage data area may also store data created by the control device in use, and the like. In the embodiment of the present application, the sound collection device 530 is used to collect sound information of the environment where the control apparatus 10 is located.

Referring to fig. 6, based on the lighting assembly 100 including the plurality of strip modules 30, the plurality of strip modules 30 are sequentially connected to form a lighting portion of the lighting assembly. An embodiment of the present application provides another method for controlling lighting, which includes the following steps.

S601, dividing a lighting portion including a plurality of light strip modules into a plurality of sequentially adjacent control units, where each control unit corresponds to a certain number of adjacent light strip modules.

In some embodiments, starting from the strip light module at one end edge of the lighting portion, each adjacent n strip light modules are divided into one control unit until the last control unit includes n or less strip light modules, so that the lighting portion is composed of a plurality of adjacent control units, where n is a positive integer, each control unit is controlled by one control signal, and different control units are affected by different control signals, that is, the strip light modules under the same control unit are controlled by one control signal to emit light. In some embodiments, the inventors have verified that the lighting section comprises j light strip modules, where j divided by n needs to be greater than or equal to 10, should have at least ten or more control units, so that the light variation effect of the mood can be achieved by the light control of the light strip modules. Wherein n is equal to 3, which can achieve the ideal effect of light change control.

In some embodiments, the identities of the partitioned control units may be compiled such that each control unit has a separate fixed ID information. For example, the divided control units are sequentially numbered, such as numerical serial numbers: 1, 2, and 3 … …, starting from one of the end edges of the lighting section, so that each control unit has a corresponding independent numerical number.

And S602, acquiring the selected control unit to be controlled.

In some embodiments, the control units to be controlled may be selected arbitrarily, that is, one or more control units of all the control units may be selected according to the requirement of the user, and the ID of the selected control unit may also be arbitrary.

In some embodiments, the control unit to be controlled may be selected by selecting the control unit to be controlled through an application program of the smart mobile terminal in communication with the lighting assembly 100. As shown in fig. 7, fig. 7 shows a partial view of a selection interface in an embodiment, where the partial view of the selection interface is a part of a selection interface in an application program communicatively connected to a lighting assembly, the application program may be an application program downloaded by a user in a smart phone and used for controlling the lighting assembly 100, the partial view of the selection interface includes 15 selection modules sequentially connected to each other and 15 control units sequentially connected to each other corresponding to the lighting assembly 100, and the user may select a control unit to be controlled by clicking on a screen of the smart phone to determine the control unit to be controlled.

And S603, receiving the light color control signal of each control unit to be controlled, and controlling the lamp strip module included in the corresponding control unit to display the corresponding color.

After the user selects the control unit to be controlled, the user can control the color of the light emitted by the LED lamp of the lamp strip module corresponding to the selected control unit on the control interface, so that the lamp strip module included in the control unit presents the color corresponding to the control of the user, wherein the specific color of the light emitted can be selected by the user from a color wheel or a color bar on the control interface, and the specific color of the light emitted is not limited in this embodiment.

In some embodiments, the lighting brightness control signal for each selected control unit may be further received, so as to control the selected control unit to be manipulated to present the corresponding brightness based on the corresponding color. The user can control the luminous brightness of the LED lamps of the lamp belt modules corresponding to the selected control units on the control interface, so that the luminous brightness of the LED lamps of the lamp belt modules corresponding to each selected control unit can be set randomly according to the requirements of the user.

In some embodiments, each control unit comprises a plurality of light strip modules, and when the number of the selected control units is more than one, in the selected control units, the color of light emitted by at least one lamp strip module of each control unit close to another control unit between the adjacent control units is the mixture of the colors presented by the two adjacent control units controlled and lightened in the light color control signal, the lamp strip modules of the two adjacent control units sequentially display three colors, wherein the middle color is a mixed color of the colors at the two ends, and in the displayed light, even if the difference of the colors of the control lighting between the selected adjacent control units is large, the user does not feel the sudden difference change of the colors between the adjacent control units, and more comfortable feelings are brought to the lighting experience of the user in the environment. For example, the first control unit and the second control unit are two adjacent control units in the selected control units, the first control unit is controlled to display blue, the second control unit is controlled to display green, and a color displayed by lighting of one lamp strip module adjacent to the second control unit in the first control unit is a color obtained by mixing blue and green, that is, the lighting color is cyan; similarly, the color displayed by lighting the lamp strip module adjacent to the first control unit in the second control unit is also a color obtained by mixing blue and green, i.e. cyan.

In some embodiments, after controlling the light strip module included in the corresponding control unit to present the corresponding color, the controller may further receive a first color change control signal for one of the selected control units, and control the light strip module included in the control unit to present a color corresponding to the first color change control signal; acquiring a color change difference value after the control unit receives the first color change control signal; generating a second color change control signal corresponding to the selected other control unit based on the difference and the color information presented by the selected other control unit; and controlling the lamp strip modules included in the other control units to respectively present the colors corresponding to the respective second color change control signals according to the second color change control signals corresponding to each other control unit. For example, the color presented by one of the selected control units is red, and after receiving a first color change control signal generated by user operation, the color presented by the control unit changes into orange; the difference value of the color change is the color difference value between orange and red, and the difference value can be R, G, B ternary difference or interval difference value on a color bar; assuming that there are two control units among the other control units, one exhibiting yellow and one exhibiting cyan, the control unit exhibiting yellow changes to green and the control unit exhibiting cyan changes to blue based on the respective corresponding second color change control signals generated by the color difference value and the respective color information exhibited by the other control units. The method can enable the user to change the color presented by one selected control unit in a self-adaptive manner and then change the color presented by other selected control units, so that the light change is simpler, more convenient and more intelligent, and the user experience is improved. The function can be determined by the user whether to start, for example, a selection field can be added on the operation interface, and the user can select or not select the selection field to determine whether to start the function.

In some embodiments, after the time after the lighting strip module included in the corresponding control unit is controlled to be lit exceeds a preset change time value, the color of the lighting strip module included in the corresponding control unit is controlled to be changed according to the lighting color change parameter. The preset change time value may be set by a user before selecting a control unit to be controlled, may also be set in the manufacturing process of the lighting assembly, and may also be set after controlling the lighting of the lamp strip module included in the corresponding control unit, which is not specifically limited in the present application. The lighting color change parameter may cause the color of the lamp strip module included in the currently lit control unit to change according to a specific color change sequence corresponding to the lighting color change parameter, for example, the color presented by the lamp strip module included in one of the selected control units is red, and the color presented by the lamp strip module included in the control unit may be controlled to change into orange according to the lighting color change parameter; the specific color change sequence corresponding to the light color change parameter may be set by a user or set in a manufacturing process, and the specific color change sequence is not limited in this application. The method can enable the color of the selected control unit to be controlled after being controlled and lightened to automatically change according to the specific change sequence after a specific time, so that the effect of light change is more intelligent and diversified, and the user experience is improved.

In some embodiments, the method further comprises: storing the selected control units to be controlled and the related data of the light color control signals of each control unit; and when the lamp strip component is turned on again after being turned off, reading the related data to control the lamp strip module included by the corresponding control unit to be directly lightened and present a corresponding color. The method enables the lighted lamp strip component to directly light the originally selected control unit when the lighted lamp strip component is restarted after being closed, and enables user experience to be better by adopting the memory function. The lamp strip component is provided with a light source, a light source module and a light guide module, wherein a selection function can be set when the lamp strip component is restarted, so that a user can select whether to control and light the corresponding control unit according to the stored related data.

The lighting control method provided by the embodiment of the application divides the lighting part into a plurality of control units which are adjacent in sequence, and enables the user to edit the quantity and the color of the lighted light according to the interest of the user through the control unit which is selected by the user at will and the lighted color, so that the lighting control experience of the user is improved, and the product can attract more users.

Referring to fig. 8, a block diagram of a lighting control apparatus 800 according to an embodiment of the present disclosure is shown. The control apparatus 800 may include a control unit dividing module 810, a control unit selecting module 820, a color control module 830, and a brightness control module 840. The control unit dividing module 810 is configured to divide the lighting portion including the plurality of light strip modules into a plurality of sequentially adjacent control units; the control unit selecting module 820 is used for selecting a control unit to be controlled; the color control module 830 is configured to control lighting of the light strip module included in the corresponding control unit and display a corresponding color; the brightness control module 840 is configured to control the light strip module included in the corresponding control unit to display corresponding brightness. The control device of light illumination that this application embodiment provided can divide into a plurality of adjacent the control unit in proper order with the illumination part to through the control unit that wants the illumination that the user selected wantonly and the colour of lighting, make the user can go to edit the light quantity and the colour of lighting according to the interest of oneself, promoted user's light and controlled experience, make the product can attract more users.

An embodiment of the present application further provides a control device, where the control device includes at least one or more of the following components: a processor and a memory, wherein the memory has stored therein one or more program instructions configured to be executed by the one or more processors, the one or more programs configured to perform the method as described in the aforementioned method embodiments. A processor may include one or more processing cores. The processor connects various parts within the overall control device using various interfaces and lines, performs various functions of the terminal device and processes data by executing or executing instructions, programs, code sets, or instruction sets stored in the memory, and calling data stored in the memory.

The above embodiments are only used to illustrate the technical solutions of the present application, and not to limit the same; although the present application has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not necessarily depart from the spirit and scope of the corresponding technical solutions in the embodiments of the present application.

Claims (10)

1. A control method of lamplight illumination is applied to an illumination assembly comprising a plurality of lamp strip modules, the lamp strip modules are electrically connected in sequence to form an illumination part of the illumination assembly, and each lamp strip module can be independently controlled to be lightened, and the control method is characterized by comprising the following steps of:

dividing a lighting part comprising the plurality of lamp strip modules into a plurality of control units which are adjacent in sequence, wherein each control unit corresponds to a certain number of adjacent lamp strip modules;

acquiring a selected control unit to be controlled;

and receiving a light color control signal of each selected control unit to be controlled, and controlling the lamp strip module included in the corresponding control unit to be lightened and present a corresponding color.

2. The method of claim 1, further comprising:

and receiving a light brightness control signal for each selected control unit to be controlled, and controlling the lamp strip module included in the corresponding control unit to present corresponding brightness.

3. The method according to claim 1, wherein the number of the light strip modules included in each control unit is plural, and when the number of the selected control units is plural, the controlling the light strip modules included in the corresponding control units to present corresponding colors comprises:

and in the selected control units, the color presented by at least one lamp strip module of each control unit close to the other control unit between the adjacent control units is controlled to be the color mixture presented by the two adjacent control units in the light color control signal.

4. The method of claim 1, further comprising:

receiving a first color change control signal of one selected control unit, and controlling a lamp strip module included in the control unit to present a color corresponding to the first color change control signal;

acquiring a color change difference value after the control unit receives the first color change control signal;

generating a second color change control signal corresponding to the selected other control unit based on the difference value and the color information presented by the selected other control unit;

and controlling the lamp strip modules included in the other control units to respectively present the colors corresponding to the respective second color change control signals according to the second color change control signals corresponding to each other control unit.

5. The method of claim 1, further comprising:

acquiring a preset change time value and a light color change parameter;

and after the time after the lamp strip module included in the corresponding control unit is controlled to be lightened exceeds the change time value, controlling the lightening color of the lamp strip module included in the corresponding control unit to change according to the light color change parameter.

6. The method of claim 1, further comprising:

storing the selected control units to be controlled and the related data of the light color control signals of each control unit;

and when the lamp strip component is restarted, reading the related data to control the lamp strip module included by the corresponding control unit to be directly lightened and present a corresponding color.

7. The method of claim 1, wherein: the manner of selecting the control unit to be controlled is selected by an application program communicatively coupled to the lighting assembly.

8. A lamp illumination control device is characterized by comprising a control unit dividing module, a control unit selecting module, a color control module and a brightness control module, wherein the control unit dividing module is used for dividing an illumination part comprising a plurality of lamp belt modules into a plurality of control units which are adjacent in sequence; the control unit selection module is used for selecting a control unit to be controlled; the color control module is used for controlling the lighting of the lamp strip module included in the corresponding control unit and displaying the corresponding color; the brightness control module is used for controlling the lamp strip module included by the corresponding control unit to display corresponding brightness.

9. A computer-readable storage medium having stored thereon program instructions that are callable by a processor to perform the method according to any one of claims 1 to 7.

10. A lighting assembly, comprising:

the lamp strip modules are sequentially and electrically connected to form an illumination part of the illumination assembly, and each lamp strip module can be independently controlled to be lightened;

one or more processors;

a memory;

one or more program instructions, wherein the one or more program instructions are stored in the memory and configured to be executed by the one or more processors, the one or more program instructions configured to perform the method of any of claims 1-7.

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