CN115914915A - Wireless earphone light-emitting control method and device, terminal and wireless earphone - Google Patents

Abstract

The invention discloses a light-emitting control method, a light-emitting control device and a terminal of a wireless earphone, and the method comprises the following steps: the terminal receives the input of a user; the terminal determines the light effect mode of a wireless headset connected with the terminal according to the input of a user; the terminal determines the color of the light effect according to the input of a user; the terminal generates a light control signal of the wireless earphone according to the light effect mode and the light effect color; the terminal sends the light control signal to the wireless earphone, and the wireless earphone is controlled to work in a light effect mode to light with the light effect. According to the invention, the terminal can customize the mode, brightness and color of the lighting effect of the wireless earphone in an individualized way according to the input of the user, so that the intelligent setting of the wireless earphone is realized, and the user experience is improved.

Description

Wireless earphone light-emitting control method and device, terminal and wireless earphone

Technical Field

The invention relates to the field of electronics, in particular to a wireless headset, a light-emitting control method and device of the wireless headset, a terminal and the wireless headset.

Background

The Wireless earphone is an earphone connected through Wireless, and will gradually replace the wired earphone with the continuous innovation of technology, especially the market of True Wireless Stereo earphone (TWS) is growing at a high speed, and the annual growth rate is about 20%. More and more consumers are concerned about wireless headsets as one of the everyday fashion accessories in addition to their functionality.

In daily life, young people who chase fashion pay great attention to the street look of individuals, and a plurality of sets of clothes are provided, but only one set of earphone is provided. Because earphones are a relatively non-fast-moving class, consumers usually only have to worry about choosing the "best fit" pair when buying earphones, even if they see several favorite earphone styles or colors.

In the market, the fixed color of the earphone and the appearance with serious homogenization can be realized, most of consumers can only realize the personalized configuration of the consumers by a DIY or a charging box protective sleeve replacing mode, and compared with the whole earphone, the cost is lower.

In the related art, the headset generally emits light by simple operation by controlling the headset wire of the wired headset, and it is not possible to control the light emission of the wireless headset through the terminal and to customize the wireless headset to a user in a personalized manner through the terminal.

Disclosure of Invention

The invention provides a light-emitting control method and device of a wireless earphone, a terminal and the wireless earphone, which are used for solving the problems that the light-emitting control of the wireless earphone can not be realized through the terminal and the personalized customization of a user of the wireless earphone can not be realized through the terminal in the related technology.

According to an aspect of the present invention, there is provided a lighting control method of a wireless headset, including: the terminal receives the input of a user; the terminal determines the light effect mode of a wireless headset connected with the terminal according to the input of the user; the terminal determines the color of the light effect according to the input of the user; the terminal generates a light control signal of the wireless earphone according to the light effect mode and the light effect color; and the terminal sends the light control signal to the wireless earphone, and controls the wireless earphone to work in the light effect mode to light the light with the color of the light effect.

Preferably, the terminal determining a mode of a light effect of a wireless headset connected with the terminal according to the user input includes: the terminal acquires the light effect mode input by the user; or, the terminal determines the mode of the light effect according to the use scene of the wireless earphone by the user and the corresponding relation between the use scene and the mode of the light effect; wherein the pattern of light effects comprises: the wireless earphone comprises a normally-on lamp, a breathing lamp, a unidirectional rhythm or a bidirectional rhythm, wherein the unidirectional rhythm is that the light of the wireless earphone goes from one end of the wireless earphone to the other end of the wireless earphone, and the bidirectional rhythm is that the light of the wireless earphone goes from the middle of the wireless earphone to the two ends of the wireless earphone.

Preferably, the terminal determining the color of the light effect according to the user input comprises: the terminal determines one or more colors for performing light control operation on the wireless earphone according to a first picture taken by the user or a second picture selected by the user from the terminal storage; or the terminal acquires one or more colors selected by the user from preset theme colors of the terminal.

Preferably, the terminal generating the light control signal of the wireless headset according to the pattern of the light effect and the color of the light effect comprises: the light effect mode is the one-way rhythm or the two-way rhythm, and the terminal analyzes the audio played by the user to obtain the amplitude of the audio played by the user; the terminal determines the number of the lighting lamp beads of the plurality of lamp beads in the light control signal and the brightness level corresponding to the lighting lamp beads according to the corresponding relation between the amplitude of the audio and the preset audio amplitude and the brightness levels of the plurality of lamp beads and the number of the lighting lamp beads of the wireless earphone; wherein, a plurality of lamp pearl sets up on wireless earphone's the light-operated fitting.

Preferably, the determining, by the terminal, the number and the brightness level of the lighted lamp beads in the plurality of lamp beads in the light control signal according to the correspondence between the amplitude of the audio and the brightness levels and the numbers of the plurality of lamp beads of the wireless headset respectively includes: the corresponding relation between the plurality of lamp beads of the plurality of lamp beads and the amplitude range of the oscillogram of the preset audio frequency is as follows: the amplitude range of a waveform diagram corresponding to a first lamp bead in the plurality of lamp beads is [0, max/N ], the amplitude range of a waveform diagram corresponding to a second lamp bead is (max/N, 2 x max/N ], \8230 \\ 8230;, the amplitude range of a waveform diagram of a preset audio corresponding to an Nth lamp bead in the plurality of lamp beads is ((N-1) max/N, max ], wherein max is a preset audio amplitude value, the amplitude of the audio played by a user at the current moment belongs to ((N-1) max/N, N x max/N), the terminal determines that the first N lamp beads in the plurality of lamp beads are lighted, the terminal determines that the brightness level of the first N-1 lamp beads in the plurality of lamp beads is Z, the terminal determines that the brightness level of the nth lamp beads in the plurality of lamp beads is Q/(N) Z, wherein Q is the remainder of dividing M by the number of max/N, M is the sampling amplitude value of the audio amplitude value played by the user at the current moment, and the number of the N beads is not less than 0 and N is the natural brightness range of the plurality of the lamp beads from Z, wherein N is not more than 0.

Preferably, the wireless headset comprises: the light control device comprises an in-ear body, a light control accessory and a shell accessory. The light control accessory is detachably combined with the in-ear body of the wireless earphone and receives the light control signal sent by the terminal; the light control accessory operates a light source on the light control accessory in accordance with the light control signal, the light control accessory comprising: circuit board, lamp accuse chip, light source display module assembly and even light lens piece, the light source includes: the light source includes: a light-emitting diode (LED) lamp set, a LED lamp set display screen, a liquid crystal LCD display screen, or a Plasma display.

Preferably, the ear insertion body comprises: one or more first magnetic attracting elements; the light control accessory includes: one or more second magnetic attraction pieces which are respectively attracted with the one or more first magnetic attraction pieces; the one or more second magnetic attraction pieces are respectively attracted with the corresponding first magnetic attraction pieces in the one or more first magnetic attraction pieces and are repelled from other first magnetic attraction pieces in the one or more first magnetic attraction pieces; or the like, or, alternatively,

the ear-in body comprises a first groove, and the light control accessory comprises a first boss corresponding to the first groove; or the like, or, alternatively,

the ear-insertion body comprises: one or more first card slots; the light control accessory includes: one or more first buckles respectively buckled with the one or more first clamping grooves; the one or more first buckles are respectively clamped with the corresponding first card slots in the one or more card slots and interfere with other card slots in the one or more first card slots.

According to another aspect of the present invention, there is also provided a light emission control method of a wireless headset, including: the method comprises the steps that a wireless earphone receives a light control signal sent by a terminal connected with the wireless earphone, wherein the light control signal is generated by the terminal according to a light effect mode and a light effect color, and the light effect mode is determined by the terminal according to input of a user; the color of the light effect is determined by the terminal according to the input of the user; and the wireless earphone is controlled to work in the light effect mode according to the light control signal, and light with the color of the light effect is lightened.

Preferably, the light effect mode is a light effect mode of the user input acquired by the terminal; or the light effect mode and the brightness are the light effect mode determined by the terminal according to the use scene of the wireless earphone by the user and the corresponding relation between the use scene and the light effect mode; wherein the pattern of light effects comprises: the wireless earphone comprises a normally-on lamp, a breathing lamp, a unidirectional rhythm or a bidirectional rhythm, wherein the unidirectional rhythm is that the light of the wireless earphone goes from one end of the wireless earphone to the other end of the wireless earphone, and the bidirectional rhythm is that the light of the wireless earphone goes from the middle of the wireless earphone to the two ends of the wireless earphone.

Preferably, the color of the light effect is one or more colors determined by the terminal for performing light control operation on the wireless headset according to a first picture taken by the user or a second picture selected by the user from a terminal storage; or the color of the light effect is one or more colors selected by the user from preset theme colors of the terminal and acquired by the terminal.

Preferably, the light effect pattern is the unidirectional rhythm or the bidirectional rhythm, and the information in the light control signal acquired by the wireless headset is determined by the following steps: the terminal analyzes the audio played by the user to obtain the amplitude of the audio played by the user; the terminal determines the number of the lighting lamp beads of the plurality of lamp beads in the light control signal and the brightness level corresponding to the lighting lamp beads according to the corresponding relation between the amplitude of the audio frequency and the preset audio frequency amplitude and the brightness level and the number of lighting lamp beads of the plurality of lamp beads of the wireless earphone; wherein, a plurality of lamp pearl sets up on wireless earphone's the light-operated fitting.

Preferably, the number and the brightness level of the lighting lamp beads in the plurality of lamp beads in the light control signal received by the wireless earphone include: the correspondence is as follows: the method comprises the steps that a preset audio amplitude range corresponding to a first lamp bead in a plurality of lamp beads is [0, max/N ], a preset audio amplitude range corresponding to a second lamp bead is (max/N, 2 x max/N ], \8230; \\8230;, a preset audio amplitude range corresponding to an Nth lamp bead in the plurality of lamp beads is ((N-1) max/N, max ], wherein max is the preset audio amplitude value, the amplitude of audio played by a user at the current moment belongs to ((N-1) max/N, N x max/N), the terminal determines that the first N lamp beads in the plurality of lamp beads are lighted, the terminal determines that the brightness level of the first N-1 lamp beads in the plurality of lamp beads is Z, the terminal determines that the brightness level of the nth lamp beads in the plurality of lamp beads is Q/(N) Z, wherein Q is the remainder of dividing M by the number of the remainders of the user max/N, M is the sampling number of the audio amplitude value at the current moment, and the number of the N beads is not more than 0, and the brightness level of the number of the plurality of the lamp beads from the N is not more than 0, and the natural brightness adjustment range from the number of the plurality of the N.

Preferably, the wireless headset comprises: the light control device comprises an in-ear body, a light control accessory and a shell accessory. The light control accessory is detachably combined with the in-ear body of the wireless earphone and receives the light control signal sent by the terminal; the light control accessory operates a light source on the light control accessory in accordance with the light control signal, the light control accessory comprising: circuit board, lamp accuse chip, light source display module assembly and even light lens piece, the light source includes: a Light Emitting Diode (LED) light group, a Light Emitting Diode (LED) light group display screen, a liquid crystal LCD display screen or a Plasma display.

Preferably, the ear insertion body comprises: one or more first magnetic attracting elements; the light control accessory includes: one or more second magnetic attraction pieces which are respectively attracted with the one or more first magnetic attraction pieces; the one or more second magnetic attraction pieces are respectively attracted with the corresponding first magnetic attraction pieces in the one or more first magnetic attraction pieces and are repelled from other first magnetic attraction pieces in the one or more first magnetic attraction pieces; or the like, or a combination thereof,

the in-ear body comprises a first groove, and the light control accessory comprises a first boss corresponding to the first groove; or the like, or, alternatively,

the ear-insertion body comprises: one or more first card slots; the light control accessory includes: one or more first buckles respectively buckled with the one or more first clamping grooves; the one or more first buckles are respectively clamped with the corresponding first card slots in the one or more card slots and interfere with other card slots in the one or more first card slots.

Preferably, a first earphone in the wireless earphones is a master earphone, and a second earphone is a slave earphone; the first earphone sends a synchronization instruction to the second earphone at a preset time interval;

and the first earphone and the second earphone are simultaneously lightened or extinguished according to the synchronous instruction.

According to an aspect of the present invention, there is also provided a terminal, including: the first receiving module is used for receiving the input of a user; the first determining module is used for determining the mode of the light effect of the wireless earphone connected with the terminal according to the input of the user; the second determination module is used for determining the color of the light effect according to the input of the user; the generating module is used for generating a light control signal of the wireless earphone according to the mode of the light effect and the color of the light effect; and the sending module is used for sending the light control signal to the wireless earphone and controlling the wireless earphone to work in the light effect mode to light the light with the color of the light effect.

Preferably, the second determining module comprises: a first obtaining module, configured to obtain a mode of the light effect input by the user; or, a third determining module, configured to determine the mode of the light effect according to a usage scenario of the wireless headset by the user and a corresponding relationship between the usage scenario and the mode of the light effect; wherein the pattern of light effects comprises: constantly lighting, breathing, one-way rhythm, or two-way rhythm, wherein the one-way rhythm is that the light of the wireless headset goes from one end of the wireless headset to the other end, and the two-way rhythm is that the light of the wireless headset goes from the middle of the wireless headset to the two ends.

Preferably, the second determining module comprises: a fourth determining module, configured to determine one or more colors for performing a light control operation on the wireless headset according to the first picture taken by the user or a second picture selected by the user from the terminal storage; or, the second obtaining module is configured to obtain one or more colors selected by the user from preset theme colors of the terminal.

Preferably, the generating module comprises: the analysis module is used for analyzing the audio played by the user when the light effect mode is the one-way rhythm or the two-way rhythm to obtain the amplitude of the audio played by the user; a fifth determining module, configured to determine, according to a correspondence between the audio amplitude and a preset audio amplitude and the brightness levels of multiple lamp beads and the number of light-up lamp beads of the wireless headset, the number of light-up lamp beads of the multiple lamp beads and the brightness level corresponding to the light-up lamp beads in the light control signal; wherein, a plurality of lamp pearl sets up on wireless earphone's light-operated fitting.

Preferably, the fifth determining module is configured to determine that the first N light beads of the plurality of light beads are lit when the amplitude of the audio played by the user at the current time belongs to ((N-1) × max/N, N × max/N) ];

the fifth determining module is used for determining the brightness level of the first n-1 lamp beads of the plurality of lamp beads as Z;

the fifth module is configured to determine that a brightness level of an nth one of the plurality of lamp beads is: Q/(max/N) × Z, wherein Q is the remainder of dividing M by max/N, and M is the amplitude value of the audio sample played by the user at the current moment; the correspondence is as follows: the range of the preset audio frequency amplitude corresponding to a first lamp bead in the plurality of lamp beads is [0, max/N ], the range of the preset audio frequency amplitude corresponding to a second lamp bead is (max/N, 2 x max/N ], \8230, and \8230, the range of the preset audio frequency amplitude corresponding to an Nth lamp bead in the plurality of lamp beads is ((N-1) max/N, max), wherein max is the preset audio frequency amplitude value, N is more than or equal to 1 and less than or equal to N, N and N are natural numbers, the number of the plurality of lamp beads is N, and the adjustable range of the brightness of the plurality of lamp beads is 0 to Z.

Preferably, the wireless headset comprises: the light control device comprises an in-ear body, a light control accessory and a shell accessory. The light control accessory is detachably jointed with the in-ear body of the wireless headset and receives the light control signal sent by the terminal; the light control accessory operates a light source on the light control accessory according to the light control signal, the light control accessory comprising: circuit board, lamp accuse chip, light source display module assembly and even light lens piece, the light source includes: a Light Emitting Diode (LED) light group, a Light Emitting Diode (LED) light group display screen, a liquid crystal LCD display screen or a Plasma display.

Preferably, the ear insertion body comprises: one or more first magnetic attracting elements; the light control accessory includes: one or more second magnetic attraction pieces which are respectively attracted with the one or more first magnetic attraction pieces; the one or more second magnetic attraction pieces are respectively attracted with the corresponding first magnetic attraction pieces in the one or more first magnetic attraction pieces and are repelled from other first magnetic attraction pieces in the one or more first magnetic attraction pieces; or the like, or a combination thereof,

the in-ear body comprises a first groove, and the light control accessory comprises a first boss corresponding to the first groove; or the like, or, alternatively,

the ear-insertion body comprises: one or more first card slots; the light control accessory includes: one or more first buckles respectively buckled with the one or more first clamping grooves; the one or more first buckles are respectively clamped with the corresponding first card slots in the one or more card slots and interfere with other card slots in the one or more first card slots.

According to still another aspect of the present invention, there is also provided a wireless headset including: a second receiving module, configured to receive a light control signal sent by a terminal connected to the wireless headset, where the light control signal is generated by the terminal according to a light effect mode and a light effect color, and the light effect mode is determined by the terminal according to an input of a user; the color of the light effect is determined by the terminal according to the input of the user; and the control module is used for controlling the wireless earphone to work in the light effect mode according to the light control signal and lightening the light with the light effect color.

Preferably, the mode of the light effect is a mode of the light effect of the input of the user acquired by the terminal; or the light effect mode is determined by the terminal according to the use scene of the wireless headset by the user and the corresponding relation between the use scene and the light effect mode. Wherein the pattern of light effects comprises: constantly lighting, breathing, one-way rhythm, or two-way rhythm, wherein the one-way rhythm is that the light of the wireless headset goes from one end of the wireless headset to the other end, and the two-way rhythm is that the light of the wireless headset goes from the middle of the wireless headset to the two ends.

Preferably, the color of the light effect is the color of the wireless headset light control operation determined by the terminal according to a first picture taken by a user or a second picture selected by the user from the terminal storage; or, the color of the light effect is a color selected by the user from preset theme colors of the terminal, which is acquired by the terminal.

Preferably, the light effect mode is the one-way rhythm or the two-way rhythm, and the information in the light control signal acquired by the terminal is determined as follows: the terminal analyzes the audio played by the user to obtain the amplitude of the audio played by the user; the terminal determines the number of the lighting lamp beads of the plurality of lamp beads in the light control signal and the brightness level corresponding to the lighting lamp beads according to the corresponding relation between the amplitude of the audio frequency and the preset audio frequency amplitude and the brightness level and the number of lighting lamp beads of the plurality of lamp beads of the wireless earphone; wherein, a plurality of lamp pearl sets up on wireless earphone's the light-operated fitting.

Preferably, the number and the brightness level of the lighting lamp beads in the light control signal received by the wireless headset include: the correspondence is as follows: the method comprises the steps that a preset audio amplitude range corresponding to a first lamp bead in a plurality of lamp beads is [0, max/N ], a preset audio amplitude range corresponding to a second lamp bead is (max/N, 2 x max/N ], \8230; \\8230;, a preset audio amplitude range corresponding to an Nth lamp bead in the plurality of lamp beads is ((N-1) max/N, max ], wherein max is the preset audio amplitude value, the amplitude of audio played by a user at the current moment belongs to ((N-1) max/N, N x max/N), the terminal determines that the first N lamp beads in the plurality of lamp beads are lighted, the terminal determines that the brightness level of the first N-1 lamp beads in the plurality of lamp beads is Z, the terminal determines that the brightness level of the nth lamp beads in the plurality of lamp beads is Q/(N) Z, wherein Q is the remainder of dividing M by the number of the remainders of the user max/N, M is the sampling number of the audio amplitude value at the current moment, and the number of the N beads is not more than 0, and the brightness level of the number of the plurality of the lamp beads from the N is not more than 0, and the natural brightness range of the number of the plurality of the lamp beads.

Preferably, the wireless headset comprises: the light control device comprises an in-ear body, a light control accessory and a shell accessory. The light control accessory is detachably jointed with the in-ear body of the wireless headset and receives the light control signal sent by the terminal; the light control accessory operates a light source on the light control accessory according to the light control signal, the light control accessory comprising: circuit board, lamp accuse chip, light source display module assembly and even light lens piece, the light source includes: the LED lamp group, the LED lamp group display screen, the liquid crystal LCD display screen or the Plasma display.

Preferably, the ear insertion body comprises: one or more first magnetic elements; the light control accessory includes: one or more second magnetic attraction pieces which are respectively attracted with the one or more first magnetic attraction pieces; the one or more second magnetic attraction pieces are respectively attracted with the corresponding first magnetic attraction pieces in the one or more first magnetic attraction pieces and are repelled from other first magnetic attraction pieces in the one or more first magnetic attraction pieces; or the like, or, alternatively,

the ear-in body comprises a first groove, and the light control accessory comprises a first boss corresponding to the first groove; or the like, or a combination thereof,

the ear insertion body comprises: one or more first card slots; the light control accessory includes: one or more first buckles respectively buckled with the one or more first clamping grooves; the one or more first buckles are respectively clamped with the corresponding first card slots in the one or more card slots and interfere with other card slots in the one or more first card slots.

Preferably, a first earphone in the wireless earphones is a master earphone, and a second earphone is a slave earphone; the first earphone sends a synchronization instruction to the second earphone at a preset time interval; and the first earphone and the second earphone are simultaneously lightened or extinguished according to the synchronous instruction.

According to yet another aspect of the present invention, there is also provided a computer-readable storage medium comprising computer instructions which, when run on an electronic device, cause the electronic device to perform the above-mentioned method.

According to yet another aspect of the present invention, there is also provided a computer program product, which, when run on a computer, causes the computer to perform the method as described above.

According to the invention, the terminal can customize the light effect mode and the light effect color of the wireless earphone in an individualized way according to the input of the user, so that the intelligent setting of the wireless earphone is realized, and the user experience is improved.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the invention without limiting the invention. In the drawings:

fig. 1 is a first flowchart of a lighting control method of a wireless headset according to an embodiment of the present invention;

fig. 2 is a second flowchart of a lighting control method of a wireless headset according to an embodiment of the present invention;

fig. 3 is a schematic diagram of synchronization of a wireless headset according to an embodiment of the invention;

fig. 4 is a block diagram of a terminal according to an embodiment of the present invention;

fig. 5 is a block diagram of a preferred structure of a terminal according to an embodiment of the present invention;

fig. 6 is a block diagram of a wireless headset according to an embodiment of the present invention;

FIG. 7 is a schematic diagram of a user interface of a terminal according to an embodiment of the invention;

fig. 8 is a schematic diagram of a wireless headset according to an embodiment of the present invention.

Detailed Description

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present invention will be described in detail below with reference to the embodiments with reference to the attached drawings.

The present embodiment provides a lighting control method of a wireless headset, and fig. 1 is a first flowchart of a lighting control method of a wireless headset according to an embodiment of the present invention, as shown in fig. 1, the method includes the following steps S102 to S110.

And step S102, the terminal receives the input of the user.

And step S104, the terminal determines the light effect mode of the wireless headset connected with the terminal according to the input of the user.

And step S106, the terminal determines the color of the light effect according to the input of the user.

And S108, the terminal generates a light control signal of the wireless earphone according to the light effect mode and the light effect color.

And step S110, the terminal sends the light control signal to the wireless earphone, and the wireless earphone is controlled to work in a light effect mode to light the light with the light effect.

Through the embodiment, the terminal can customize the light effect mode and the light effect color of the wireless earphone in an individualized mode according to the input of the user, so that the intelligent setting of the wireless earphone is realized, and the user experience is improved.

As a preferred embodiment, the step S104 can adopt the following two modes:

the first method is as follows: the terminal acquires a pattern of light effects of the user's input.

For the first mode, the user may input on the APP of the terminal to select a mode of light effect required by the user. For example, the light effect mode can be set on the mobile phone APP and is normally bright, breathing unidirectional rhythm or bidirectional rhythm, wherein the unidirectional rhythm is that the light of the wireless earphone goes from one end of the wireless earphone to the other end, the bidirectional rhythm is that the light of the wireless earphone goes from the middle of the wireless earphone to the two ends, and the user uses the APP corresponding to the wireless earphone on the terminal to select the favorite mode of the user. Referring to fig. 7, a user may select a mode of light effects on an APP interface of a terminal.

The second method comprises the following steps: and the terminal determines the light effect mode and the light effect according to the use scene of the wireless earphone by the user and the corresponding relation between the use scene and the light effect mode.

The mode can be used for customizing the use scene of the user in a personalized way, for example, running outdoors, adopting one-way rhythm or two-way rhythm, and under the working condition, adopting a breathing mode to prompt that colleagues using wireless earphones are in a meeting. It should be noted that, those skilled in the art may perform corresponding settings of the scenarios and modes according to actual needs, and the settings are only used as examples herein and do not constitute a limitation to the present application.

As another preferred embodiment, the step S106 can adopt the following two modes:

the first method is as follows: the terminal may determine one or more colors of the wireless headset light control signal based on a first picture taken by the user or a second picture selected by the user from the terminal's memory. As shown in fig. 7, a camera can be called to take a picture through a picture taking icon at the upper right corner on an operation interface of the terminal APP.

In this way, the terminal can adopt the default camera of the mobile phone system to take pictures or pictures in the mobile phone gallery, and then select the colors in the pictures to realize the setting of personalized colors. It should be noted that, in this manner, there may be multiple colors in the picture selected by the terminal, and the multiple colors may be determined according to different color selection algorithms. It should be noted that the terminal may select colors with different area ratios or colors with different color saturations in the picture, and those skilled in the art may select a plurality of colors according to an algorithm.

The second method comprises the following steps: the terminal may acquire a color selected by a user from preset theme colors of the terminal. In this manner, the terminal may select one or more colors (a set of colors) from the APP default colors of the wireless headset. For example, the mobile phone APP may preset 30 groups of colors as a preset scheme, and the user selects one group of colors (referring to fig. 7, under a menu of colors, a default preset theme color of the APP is selected). For example: the wireless earphone adopts the mode of a plurality of lamp pearls, and the number of a plurality of lamp pearls is N, and light-operated signal includes a set of colour, and this group of colour can include N colour. The two modes not only realize the personalized customization of the color, but also realize the change of the color by the user in the mobile phone APP, and adapt to different use scenes or different moods. In operation, if the user changes the color of the wireless headset in the APP and the terminal does not play music at this time, the terminal may play a preset audio cue that the color has changed. In actual operation, the color of the lamp bead can adopt an RGB color mode.

As a preferred embodiment, when the light effect mode is normal brightness or breathing, the terminal may determine the default brightness of the lamp bead to perform the light control operation, or perform the light control operation according to the brightness input by the user. As shown in fig. 7, on the light effect selection bar, the user can select the brightness of the light control of the wireless headset.

As another preferred embodiment, when the light effect pattern is a one-way rhythm or a two-way rhythm, step S108 may include: analyzing the audio played by the user to obtain the amplitude of the audio played by the user; the terminal determines the number of the lighting lamp beads of the plurality of lamp beads in the light control signal and the brightness level corresponding to the lighting lamp beads according to the corresponding relation between the amplitude of the audio played by the user and the preset audio amplitude and the brightness levels of the plurality of lamp beads of the wireless earphone and the number of the lighting lamp beads; wherein, a plurality of lamp pearls set up on wireless earphone's light-operated accessory. According to the preferred embodiment, the lamp beads and the brightness level are determined through the amplitude of the audio, so that the brightness control of the wireless earphone is realized.

Preferably, the determining, by the terminal, the number and the brightness level of the center lighting lamp bead of the plurality of lamp beads in the light control signal according to the correspondence between the amplitude of the audio played by the user and the preset audio amplitude and the brightness level and the number of the plurality of lamp beads of the wireless headset includes:

the correspondence is as follows: the preset audio amplitude range corresponding to a first lamp bead in the plurality of lamp beads is [0, max/N ], the preset audio amplitude range corresponding to a second lamp bead is (max/N, 2 x max/N ], \8230; the preset audio amplitude range corresponding to an Nth lamp bead in the plurality of lamp beads is ((N-1) max/N, max ], wherein max is the preset audio amplitude value;

the amplitude of the audio played by the user at the current moment belongs to ((N-1) × max/N, N × max/N), and the terminal determines that the first N lamp beads in the plurality of lamp beads are lightened;

the terminal determines the brightness level of the first n-1 lamp beads of the plurality of lamp beads to be Z;

the terminal determines the brightness level of the nth lamp bead of the plurality of lamp beads as follows: Q/(max/N) × Z, wherein Q is the remainder of dividing M by max/N, and M is the amplitude value of the audio sample played by the user at the current moment;

n is more than or equal to 1 and less than or equal to N, N and N are natural numbers, the number of the plurality of lamp beads is N, and the brightness level adjustment range of the plurality of lamp beads is 0 to Z.

For example, there are 6 lamp beads in the wireless headset, the brightness level of the lamp bead is 0 to 255, z is 255, max =255 × 6, then the amplitude range of the waveform diagram corresponding to the first lamp bead is [0, 255], the amplitude value of the audio sample played by the user at the current time is 256, then the first lamp bead is on, and the brightness level is 255, the second lamp bead is on, and the brightness level is 1.

In an implementation, a wireless headset includes: the light-operated lamp comprises an ear-entering body, a light-operated accessory and a shell accessory. The light control accessory is detachably connected with the ear inlet body of the wireless earphone and receives a light control signal sent by the terminal; the light control assembly operates the light source on the light control assembly according to the light control signal, and the light control assembly may include: circuit board, lamp accuse chip, light source display module assembly and even light lens piece, the light source includes: light Emitting Diode (LED) banks, LED banks display screen, liquid crystal display LCD display screen or Plasma display, wherein, LED banks can contain but not only be limited to different encapsulation size, different encapsulation mode, different power size, different colour temperature, monochromatic polychrome ordinary LED, mini LED, micro LED, RGB LED), LED banks display screen can contain but not only be limited to LED, OLED, mini LED, micro LED and Quantum Dot Light Emitting diode (Quantum Dot Light Emitting Diodes, for short QLED).

Light-operated accessory detachably combines with going into the ear body in this mode, and among the correlation technique, wireless earphone is integrative, and wireless earphone's light efficiency function is along with the promotion of hardware, experiences and also can promote, combines together light-operated module as a detachable subassembly with going into the ear body, can realize wireless earphone and realize the light efficiency upgrade under lower cost, improves user experience.

As shown in fig. 8, the wireless headset may include: an in-ear body 82, a light control fitting 84, and a housing fitting 86. The housing fitting may be combined with the light control fitting. In practice, the in-ear body and the light control fitting may also be formed as a single unit that is adapted to a single housing fitting that may be provided with a variety of housing surfaces, preferably, the surface of the housing fitting that is customizable by the user.

As a preferred embodiment of this mode, the following mode can be adopted for the detachability:

the first method is as follows: the ear-in body may include: one or more first magnetic elements; the light control fitting or housing fitting includes: one or more second magnetic attraction pieces which are respectively attracted with the one or more first magnetic attraction pieces; the one or more second magnetic attraction pieces are respectively attracted with the corresponding first magnetic attraction pieces in the one or more first magnetic attraction pieces and are repelled from other first magnetic attraction pieces in the one or more first magnetic attraction pieces.

The second method comprises the following steps: the ear-in body comprises a first groove, and the light control accessory comprises a first boss corresponding to the first groove.

The third method comprises the following steps: the ear insertion body comprises: one or more first card slots; the light control accessory includes: one or more first buckles respectively buckled with the one or more first clamping grooves; the one or more first buckles are respectively buckled with the corresponding first clamping grooves in the one or more clamping grooves and interfere with other clamping grooves in the one or more first clamping grooves.

This preferred mode enables the removable mounting of the light control fitting. It should be noted that the electrical and communication connection between the light control module and the in-ear body may be implemented by using a PIN.

The present embodiment provides a lighting control method of a wireless headset, and fig. 2 is a second flowchart of the lighting control method of the wireless headset according to the embodiment of the present invention, as shown in fig. 2, the method includes the following steps S202 to S204.

Step S202, a wireless earphone receives a light control signal sent by a terminal connected with the wireless earphone, wherein the light control signal is generated by the terminal according to a light effect mode and a color, and the light effect mode is determined by the terminal according to input of a user; the color of the light effect is determined by the terminal based on the input of the user.

And step S204, the wireless earphone controls the wireless earphone to work in a mode according to the light control signal, and the color light is lightened.

Through the embodiment, the wireless earphone can realize personalized customization of the light effect mode and the light effect color of the wireless earphone according to the input of a user at the terminal side through the control of the terminal side, so that the intelligent setting of the wireless earphone is realized, and the user experience is improved.

As a preferred embodiment, the light effect pattern of the wireless headset can be determined according to the following two ways:

the first method is as follows: and the terminal obtains the mode of the light effect input by the user.

For the first mode, the user may input on the APP of the terminal and select a mode of light effects required by the user. For example, the mode that can set up the light efficiency on the cell-phone APP is normally bright, breathes one-way rhythm or two-way rhythm, and wherein one-way rhythm is the light of wireless earphone from the one end to the other end of this wireless earphone, and two-way rhythm is the light of wireless earphone from the middle to both ends of this wireless earphone, and the user uses the APP that wireless earphone corresponds on the terminal, selects the mode that oneself liked. Referring to fig. 7, a user may select a mode of light effects on an APP interface of a terminal.

The second method comprises the following steps: and the terminal determines the light effect mode according to the use scene of the wireless earphone by the user and the corresponding relation between the use scene and the light effect mode.

The mode can be used for customizing the use scene of the user in a personalized way, for example, running outdoors, adopting a rhythm mode, and under the working condition, adopting a breathing mode to prompt that colleagues using wireless earphones are in a meeting. This is by way of example only and is not intended as a limitation on the present application.

As another preferred embodiment, the color of the light effect of the wireless headset may be determined by:

the method I comprises the following steps: the terminal may determine one or more colors of the wireless headset light control signal based on a first picture taken by the user or a second picture selected from a memory of the terminal. As shown in fig. 7, a camera can be called to take a picture through a picture taking icon at the upper right corner on an operation interface of the terminal APP.

In this way, the terminal can adopt the default camera of the mobile phone system to take pictures or pictures in the mobile phone gallery, and then select the colors in the pictures to realize the setting of personalized colors. It should be noted that, in this manner, there may be multiple colors in the picture selected by the terminal, and the multiple colors may be determined according to different color selection algorithms. It should be noted that the terminal may select colors with different area ratios or colors with different color saturations in the picture, and those skilled in the art may select a plurality of colors according to an algorithm.

The second method comprises the following steps: the terminal may acquire a color selected by a user from preset theme colors of the terminal. In this way, the terminal may select one or more (a set of) colors from the APP default colors of the wireless headset. For example, the cell phone APP may preset 30 groups of colors as a preset scheme, and the user selects one group of colors (referring to fig. 7, under a menu of colors, a default preset theme color of the APP is selected). For example: the wireless earphone adopts the mode of a plurality of lamp pearls, and the number of a plurality of lamp pearls is N, and light-operated signal includes a set of colour, and this group of colour can include N colour. The two modes not only realize the personalized customization of the color, but also realize the change of the color by the user in the mobile phone APP, and adapt to different use scenes or different moods. In operation, if the user changes the color of the wireless headset in the APP and the terminal does not play music at this time, the terminal may play a preset audio cue that the color has changed. In actual operation, the color of the lamp bead can adopt an RGB color mode.

As a preferred embodiment, when the light effect mode is normal brightness or breathing, the terminal may determine the default brightness of the lamp bead to perform the light control operation, or perform the light control operation according to the brightness input by the user. As shown in fig. 7, on the light effect selection bar, the user can select the brightness of the light control of the wireless headset.

As another preferred embodiment, when the light effect is a unidirectional rhythm or a bidirectional rhythm, the light control signal that the terminal can acquire includes: analyzing the audio played by the user to obtain the amplitude of the audio played by the user; the terminal determines the number of the lighting lamp beads of the plurality of lamp beads in the light control signal and the brightness level corresponding to the lighting lamp beads according to the corresponding relation between the amplitude of the audio played by the user and the preset amplitude of the audio and the brightness levels of the plurality of lamp beads and the number of the lighting lamp beads of the wireless earphone; wherein, a plurality of lamp pearls set up on wireless earphone's light-operated accessory. According to the preferred embodiment, the lamp beads and the brightness level are determined through the amplitude of the audio, so that the brightness control of the wireless earphone is realized.

Preferably, the determining, by the terminal, the number and the brightness level of the center lighting lamp bead of the plurality of lamp beads in the light control signal according to the correspondence between the amplitude of the audio played by the user and the preset audio amplitude and the brightness levels and the numbers of the plurality of lamp beads of the wireless headset includes:

the correspondence is as follows: the preset audio amplitude range corresponding to a first lamp bead in the plurality of lamp beads is [0, max/N ], the preset audio amplitude range corresponding to a second lamp bead is (max/N, 2 x max/N ], \8230; the preset audio amplitude range corresponding to an Nth lamp bead in the plurality of lamp beads is ((N-1) max/N, max ], wherein max is the preset audio amplitude value;

the amplitude of the audio played by the user at the current moment belongs to ((N-1) × max/N, N × max/N), and the terminal determines that the first N lamp beads in the plurality of lamp beads are lightened;

the terminal determines the brightness level of the first n-1 lamp beads of the plurality of lamp beads to be Z;

the terminal determines the brightness level of the nth lamp bead of the plurality of lamp beads as follows: Q/(max/N) × Z, wherein Q is the remainder of dividing M by max/N, and M is the amplitude value of the audio sample played by the user at the current moment;

wherein N is more than or equal to 1 and less than or equal to N, N and N are natural numbers, the number of the plurality of lamp beads is N, and the adjustable range of the brightness level of the plurality of lamp beads is 0 to Z.

For example, there are 6 beads in the wireless headset, the brightness level of the bead is 0 to 255, max =255 × 6, then, the amplitude range of the waveform map corresponding to the first bead is [0, 255], the amplitude value of the audio sample played by the user at the current time is 256, then the first bead is on, and the brightness level is 255, the second bead is on, and the brightness level is 1.

In an implementation, a wireless headset may include: the light-operated lamp comprises an ear-entering body, a light-operated accessory and a shell accessory. The light control accessory is detachably connected with the ear inlet body of the wireless earphone and receives a light control signal sent by the terminal; the light control assembly operates a light source on the light control assembly in accordance with a light control signal, the light source comprising: light Emitting Diode (LED) banks, LED banks display screen, liquid crystal display LCD display screen or Plasma display, wherein, LED banks can contain but not only be limited to different encapsulation size, different encapsulation mode, different power size, different colour temperature, monochromatic polychrome ordinary LED, mini LED, micro LED, RGB LED), LED banks display screen can contain but not only be limited to LED, OLED, mini LED, micro LED and Quantum Dot Light Emitting diode (Quantum Dot Light Emitting Diodes, for short QLED).

Light-operated accessory detachably combines with going into the ear body in this mode, and among the correlation technique, wireless earphone is integrative, and wireless earphone's light efficiency function is along with the promotion of hardware, experiences and also can promote, combines together light-operated module as a detachable subassembly with going into the ear body, can realize wireless earphone and realize the light efficiency upgrade under lower cost, improves user experience.

As a preferred embodiment of this aspect, the ear insertion body may include: one or more first magnetic elements; the light control fitting or housing fitting includes: one or more second magnetic attraction pieces which are respectively attracted with the one or more first magnetic attraction pieces; the one or more second magnetic attraction pieces are respectively attracted with the corresponding first magnetic attraction pieces in the one or more first magnetic attraction pieces and are repelled from other first magnetic attraction pieces in the one or more first magnetic attraction pieces. This preferred mode enables the removable mounting of the light control fitting. It should be noted that the electrical and communication connection between the light control module and the in-ear body may be implemented by using a PIN.

In implementation, the light control accessory is detachably connected with the in-ear body of the wireless earphone and receives a light control signal sent by the terminal; the light control assembly operates the light source on the light control assembly according to the light control signal, and the light control assembly may include: circuit board, lamp accuse chip, light source display module assembly and even light lens piece, the light source includes: light Emitting Diode (LED) banks, LED banks display screen, liquid crystal display LCD display screen or Plasma display, wherein, LED banks can contain but not only be limited to different encapsulation sizes, different encapsulation modes, different power size, different colour temperatures, monochromatic polychrome ordinary LED, mini LED, micro LED, RGB LED), LED banks display screen can contain but not only be limited to LED, OLED, mini LED, micro LED and Quantum Dot Light Emitting diode (Quantum Dot Light Emitting Diodes, for short QLED) Light-operated fitting detachably in this mode combines with the income ear body, in the correlation technique, wireless earphone is integrative, wireless earphone's Light efficiency function is along with the promotion of hardware, experience also can promote, combine together Light-operated module as a detachable subassembly with the income ear body, can realize that wireless earphone realizes the Light efficiency upgrading under lower cost, improve user experience.

As a preferred embodiment of this mode, the following mode can be adopted for the detachability:

the first method is as follows: the ear-in body may include: one or more first magnetic elements; the light control fitting or housing fitting includes: one or more second magnetic attraction pieces which are respectively attracted with the one or more first magnetic attraction pieces; the one or more second magnetic attraction pieces are respectively attracted with the corresponding first magnetic attraction pieces in the one or more first magnetic attraction pieces and are repelled from other first magnetic attraction pieces in the one or more first magnetic attraction pieces.

The second method comprises the following steps: the ear-in body comprises a first groove, and the light control accessory comprises a first boss corresponding to the first groove.

The third method comprises the following steps: the ear insertion body comprises: one or more first card slots; the light control accessory includes: one or more first buckles respectively buckled with the one or more first clamping grooves; the one or more first buckles are respectively buckled with the corresponding first clamping grooves in the one or more clamping grooves and interfere with other clamping grooves in the one or more first clamping grooves.

This preferred mode enables the removable mounting of the light control fitting. It should be noted that the electrical and communication connection between the light control module and the in-ear body may be implemented by using a PIN.

As another preferred embodiment, the first earphone in the wireless earphones is a master earphone, and the second earphone is a slave earphone; the first earphone sends a synchronization instruction to the second earphone at a preset time interval; and the first earphone and the second earphone are simultaneously lightened or extinguished according to the synchronous instruction. Fig. 3 is a schematic diagram of synchronization of a wireless headset according to an embodiment of the present invention, as shown in fig. 3, having two independent headsets: the first earphone 32 and the second earphone 34 receive the light control signals of the terminals through the two light control accessories, and after the operation time is long, the operation may be asynchronous. In the preferred embodiment, the two earphones of the wireless earphone can be synchronized during operation.

The present embodiment provides a terminal, fig. 4 is a block diagram of a structure of the terminal according to the embodiment of the present invention, and as shown in fig. 4, the structure is described in detail below.

A first receiving module 42 for receiving an input of a user; a first determining module 44 connected to the first receiving module 42, for determining a mode of light effect of a wireless headset connected to the terminal according to the input of the user received by the first receiving module 42; a second determining module 46, connected to the first receiving module 42, for determining the color of the light effect according to the input of the user received by the first receiving module 42; a generating module 48, connected to the first determining module 44 and the second determining module 46, for generating a light control signal of the wireless headset according to the mode of the light effect and the color of the light effect; and the sending module 40 is connected to the generating module 48, and is configured to send the light control signal generated by the generating module 48 to the wireless headset, and control the wireless headset to work in a light effect mode, so as to illuminate light with a color of a light effect.

Preferably, the first determining module 44 includes: a first obtaining module 442, configured to obtain a pattern of light effects input by the user; or, the third determining module 444 is configured to determine a mode of the light effect according to a usage scenario of the wireless headset by the user and a corresponding relationship between the usage scenario and the mode of the light effect; wherein the pattern of light effects comprises: constantly lighting, breathing, one-way rhythm, or two-way rhythm, wherein the one-way rhythm is that the light of the wireless headset goes from one end of the wireless headset to the other end, and the two-way rhythm is that the light of the wireless headset goes from the middle of the wireless headset to the two ends.

Preferably, the second determination module 46 comprises: a fourth determining module 462, configured to determine a color for performing a light control operation on the wireless headset according to the first picture taken by the user or the second picture selected by the user from the terminal storage; or, the second obtaining module 464 is configured to obtain a color selected by the user from the preset theme colors of the terminal.

Preferably, the generating module 48 comprises: the analyzing module 482 is configured to analyze the audio played by the user when the mode is a one-way rhythm or a two-way rhythm, so as to obtain an amplitude of the audio played by the user; a fifth determining module 484, configured to determine, according to a correspondence between an amplitude of an audio played by a user and a preset audio amplitude and brightness levels of a plurality of lamp beads and the number of light-up lamp beads of the wireless headset, the number of light-up lamp beads of the plurality of lamp beads in the light control signal and the brightness level corresponding to the light-up lamp beads; wherein, a plurality of lamp pearls set up on wireless earphone's light-operated accessory

Preferably, the fifth determining module 484 is configured to determine that the first N beads in the plurality of beads are lit when the amplitude of the audio played by the user at the current time belongs to ((N-1) × max/N, N × max/N).

The fifth determining module 484 is configured to determine the brightness level of the first n-1 light beads of the plurality of light beads as Z; the fifth module is used for determining the brightness level of the nth lamp bead of the plurality of lamp beads as follows: Q/(max/N) × Z, wherein Q is the remainder of dividing M by max/N, and M is the amplitude value of the audio sample played by the user at the current moment; the corresponding relationship is as follows: the preset audio amplitude range corresponding to a first lamp bead in the plurality of lamp beads is [0, max/N ], the preset audio amplitude range corresponding to a second lamp bead is (max/N, 2 x max/N ], \8230; the preset audio amplitude range corresponding to an Nth lamp bead in the plurality of lamp beads is ((N-1) max/N, max ], wherein the max is the preset audio amplitude value, N is more than or equal to 1 and less than or equal to N, N and N are natural numbers, the number of the plurality of lamp beads is N, and the adjustable range of the brightness of the plurality of lamp beads is 0 to Z.

Preferably, the wireless headset comprises: the light-operated lamp comprises an ear-entering body, a light-operated accessory and a shell accessory. The light control accessory is detachably connected with the ear inlet body of the wireless earphone and receives a light control signal sent by the terminal; the light control accessory operates a light source on the light control accessory according to a light control signal, the light control accessory including: circuit board, lamp accuse chip, light source display module assembly and even light lens piece, the light source includes: light Emitting Diode (LED) banks, LED banks display screen, liquid crystal display LCD display screen or Plasma display, wherein, LED banks can contain but not only be limited to different encapsulation size, different encapsulation mode, different power size, different colour temperature, monochromatic polychrome ordinary LED, mini LED, micro LED, RGB LED), LED banks display screen can contain but not only be limited to LED, OLED, mini LED, micro LED and Quantum Dot Light Emitting diode (Quantum Dot Light Emitting Diodes, for short QLED).

Preferably, the above-mentioned detachable structure may adopt the following ways:

the first method is as follows: the in-ear body includes: one or more first magnetic elements; the light control accessory includes: one or more second magnetic attraction pieces which are respectively attracted with the one or more first magnetic attraction pieces; the one or more second magnetic attraction pieces are respectively attracted with the corresponding first magnetic attraction pieces in the one or more first magnetic attraction pieces and are repelled from other first magnetic attraction pieces in the one or more first magnetic attraction pieces.

The second method comprises the following steps: the ear-in body comprises a first groove, and the light control accessory comprises a first boss corresponding to the first groove.

The third method comprises the following steps: the ear insertion body comprises: one or more first card slots; the light control accessory includes: one or more first buckles respectively buckled with the one or more first clamping grooves; the one or more first buckles are respectively buckled with the corresponding first clamping grooves in the one or more clamping grooves and interfere with other clamping grooves in the one or more first clamping grooves.

The present embodiment provides a wireless headset, and fig. 6 is a block diagram illustrating a structure of a wireless headset according to an embodiment of the present invention, as shown in fig. 6, which will be described in detail below.

The second receiving module 62 is configured to receive a light control signal sent by the terminal connected to the wireless headset, where the light control signal is generated by the terminal according to a light effect mode and a light effect color, and the light effect mode is determined by the terminal according to an input of a user; the color of the light effect is determined by the terminal according to the input of the user;

and a control module 64 connected to the second receiving module 62 and configured to control the wireless headset to operate in a mode and emit light of a color according to the light control signal.

Preferably, the mode of the light effect is a mode of the light effect of the input of the user acquired by the terminal; or the light effect mode is determined by the terminal according to the use scene of the wireless earphone by the user and the corresponding relation between the use scene and the light effect mode. Wherein the pattern of light effects may include: constantly lighting, breathing, one-way rhythm, or two-way rhythm, wherein the one-way rhythm is that the light of the wireless headset goes from one end of the wireless headset to the other end, and the two-way rhythm is that the light of the wireless headset goes from the middle of the wireless headset to the two ends. Preferably, the color of the light effect is the color of the light control signal of the wireless headset determined by the terminal according to a first picture taken by a user or a second picture selected from the terminal storage; or, the color of the light effect is a color selected by the terminal from preset colors of the terminal obtained by the user.

Preferably, the light effect mode is a one-way rhythm or a two-way rhythm, and the information in the light control signal acquired by the terminal is determined by the following method: the terminal analyzes the audio played by the user to obtain the amplitude of the audio played by the user; the terminal determines the number of the lighting lamp beads of the plurality of lamp beads in the light control signal and the brightness level corresponding to the lighting lamp beads according to the corresponding relation between the amplitude of the audio played by the user and the preset audio amplitude and the brightness levels and the lighting lamp numbers of the plurality of lamp beads of the wireless earphone; wherein, a plurality of lamp pearls set up on wireless earphone's light-operated accessory.

Preferably, the number and the brightness level of the lighting lamp beads in the middle of the plurality of lamp beads in the light control signal received by the wireless earphone include: the corresponding relationship is as follows: the method comprises the steps that a preset audio amplitude range corresponding to a first lamp bead in a plurality of lamp beads is [0, max/N ], a preset audio amplitude range corresponding to a second lamp bead is (max/N, 2 x max/N ], \8230, \\8230, a preset audio amplitude range corresponding to an Nth lamp bead in the plurality of lamp beads is ((N-1) max/N, max ], wherein max is the preset audio frequency, the amplitude of the audio frequency played by a user at the current moment belongs to ((N-1) max/N, N x max/N), the terminal determines that the front N lamp beads in the plurality of lamp beads are lightened, the terminal determines that the brightness level of the front N-1 lamp beads of the plurality of lamp beads is Z, the terminal determines that the brightness level of the nth lamp beads of the plurality of lamp beads is Q/(max/N) Z, wherein Q is the remainder of dividing M by the division of N, M is the amplitude value of the audio sampling amplitude value played by the user at the current moment, N is not less than 1, the number of the N and the number of the lamp beads from Z to N, and the number of the plurality of the lamp beads can be adjusted in the range from Z to the natural brightness.

Preferably, the wireless headset comprises: the light control device comprises an in-ear body, a light control accessory and a shell accessory. The light control accessory is detachably connected with the in-ear body of the wireless earphone and receives a light control signal sent by the terminal; the light control assembly operates a light source on the light control assembly in response to a light control signal, the light control assembly comprising: circuit board, lamp accuse chip, light source display module assembly and even light lens piece, the light source includes: light Emitting Diode (LED) banks, LED banks display screen, liquid crystal display LCD display screen or Plasma display, wherein, LED banks can contain but not only be limited to different encapsulation sizes, different encapsulation mode, different power size, different colour temperature, monochromatic polychrome ordinary LED, mini LED, micro LED, RGB LED), LED banks display screen can contain but not only be limited to LED, OLED, mini LED, micro LED and Quantum Dot Light Emitting diode (Quantum Dot Light Emitting Diodes, for short QLED).

Preferably, the above-mentioned detachable structure may adopt the following ways:

the first method is as follows: the in-ear body includes: one or more first magnetic elements; the light control accessory includes: one or more second magnetic attraction pieces which are respectively attracted with the one or more first magnetic attraction pieces; the one or more second magnetic attraction pieces are respectively attracted with the corresponding first magnetic attraction pieces in the one or more first magnetic attraction pieces and are repelled from other first magnetic attraction pieces in the one or more first magnetic attraction pieces.

The second method comprises the following steps: the ear-in body comprises a first groove, and the light control accessory comprises a first boss corresponding to the first groove.

The third method comprises the following steps: the in-ear body includes: one or more first card slots; the light control accessory includes: one or more first buckles respectively buckled with the one or more first clamping grooves; the one or more first buckles are respectively clamped with the corresponding first clamping grooves in the one or more clamping grooves and interfere with other clamping grooves in the one or more first clamping grooves.

Preferably, the first earphone in the wireless earphones is a master earphone, and the second earphone is a slave earphone; the first earphone sends a synchronization instruction to the second earphone at a preset time interval;

and the first earphone and the second earphone are simultaneously lightened or extinguished according to the synchronous instruction.

The embodiment of the present application further provides a computer-readable storage medium, in which a computer program code is stored, and when the computer program code is executed by the processor, the electronic device executes the relevant method steps in fig. 1 or fig. 2 to implement the method in the foregoing embodiment.

The embodiments of the present application also provide a computer program product, which when run on a computer causes the computer to execute the relevant method steps in fig. 1 or fig. 2 to implement the method in the above embodiments. The terminal, the computer-readable storage medium, or the computer program product provided in the embodiments of the present application are all configured to execute the corresponding method provided above, and therefore, the beneficial effects that can be achieved by the terminal, the computer-readable storage medium, or the computer program product may refer to the beneficial effects in the corresponding method provided above, and are not described herein again.

Through the description of the foregoing embodiments, it will be clear to those skilled in the art that, for convenience and simplicity of description, only the division of the functional modules is illustrated, and in practical applications, the above function distribution may be completed by different functional modules as needed, that is, the internal structure of the apparatus may be divided into different functional modules to complete all or part of the above described functions. In the several embodiments provided in the present application, it should be understood that the disclosed apparatus and method may be implemented in other ways. For example, the above-described device embodiments are merely illustrative, and for example, the division of the modules or units is only one type of logical functional division, and other divisions may be realized in practice, for example, multiple units or components may be combined or integrated into another device, or some features may be omitted, or not executed. In addition, the shown or discussed mutual coupling or direct coupling or communication connection may be an indirect coupling or communication connection through some interfaces, devices or units, and may be in an electrical, mechanical or other form. The units described as separate parts may or may not be physically separate, and parts displayed as units may be one physical unit or multiple physical units, that is, may be located in one place, or may be distributed in multiple different places. Some or all of the units can be selected according to actual needs to achieve the purpose of the solution of the embodiment. In addition, functional units in the embodiments of the present application may be integrated into one processing unit, or each unit may exist alone physically, or two or more units are integrated into one unit. The integrated unit may be implemented in the form of hardware, or may be implemented in the form of a software functional unit. The integrated unit, if implemented in the form of a software functional unit and sold or used as a stand-alone product, may be stored in a readable storage medium. Based on such understanding, the technical solutions of the embodiments of the present application may be essentially or partially contributed to by the prior art, or all or part of the technical solutions may be embodied in the form of a software product, which is stored in a storage medium and includes several instructions for enabling a device (which may be a single chip, a chip, or the like, or a processor) to execute all or part of the steps of the methods described in the embodiments of the present application. And the aforementioned storage medium includes: various media capable of storing program codes, such as a U disk, a removable hard disk, a ROM, a RAM, a magnetic disk, or an optical disk.

It is noted that, in this document, relational terms such as "first" and "second," and the like, may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrases "comprising a," "8230," "8230," or "comprising" does not exclude the presence of additional like elements in a process, method, article, or apparatus that comprises the element.

In summary, the embodiments and preferred embodiments thereof provide a light-emitting control method, device, terminal and wireless headset of the wireless headset, which can customize the mode, brightness and color of the wireless headset individually according to the input of the user, thereby realizing intelligent setting of the wireless headset and improving the user experience.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (32)

1. A method for controlling lighting of a wireless headset, comprising:

the terminal receives the input of a user;

the terminal determines the mode of the light effect of the wireless earphone connected with the terminal according to the input of the user;

the terminal determines the color of the light effect according to the input of the user;

the terminal generates a light control signal of the wireless earphone according to the mode of the light effect and the color of the light effect;

and the terminal sends the light control signal to the wireless earphone, and controls the wireless earphone to work in the light effect mode to light the light with the color of the light effect.

2. The method of claim 1, wherein the terminal determining the pattern of light effects of a wireless headset connected to the terminal based on user input comprises:

the terminal acquires the light effect mode input by the user; or the like, or a combination thereof,

the terminal determines the light effect mode according to the use scene of the wireless earphone by the user and the corresponding relation between the use scene and the light effect mode;

wherein the pattern of light effects comprises: constantly lighting, breathing, one-way rhythm, or two-way rhythm, wherein the one-way rhythm is that the light of the wireless headset goes from one end of the wireless headset to the other end, and the two-way rhythm is that the light of the wireless headset goes from the middle of the wireless headset to the two ends.

3. The method of claim 1, wherein the terminal determining the color of the light effect according to the user input comprises:

the terminal determines one or more colors for performing light control operation on the wireless headset according to a first picture taken by the user or a second picture selected by the user from the terminal storage; or the like, or a combination thereof,

and the terminal acquires one or more colors selected by the user from preset theme colors of the terminal.

4. The method of claim 2, wherein the terminal generating the light control signal of the wireless headset according to the pattern of light effects and the color of the light effects comprises:

the light effect mode is the one-way rhythm or the two-way rhythm, and the terminal analyzes the audio played by the user to obtain the amplitude of the audio played by the user;

the terminal determines the number of the lighting lamp beads of the plurality of lamp beads in the light control signal and the brightness level corresponding to the lighting lamp beads according to the corresponding relation between the amplitude of the audio played by the user and the preset amplitude of the audio and the brightness levels of the plurality of lamp beads of the wireless earphone and the number of the lighting lamp beads;

wherein, a plurality of lamp pearl sets up on wireless earphone's light-operated fitting.

5. The method of claim 4, wherein the determining, by the terminal, the number and the brightness level of a lighting lamp bead of the plurality of lamp beads in the light control signal according to the correspondence between the amplitude of the audio and the brightness level and the number of the plurality of lamp beads of the wireless headset respectively comprises:

the corresponding relation between the plurality of lamp beads of the plurality of lamp beads and the amplitude range of the oscillogram of the preset audio frequency is as follows: the range of the preset audio frequency amplitude corresponding to the first lamp bead in the plurality of lamp beads is [0, max/N ], the range of the preset audio frequency amplitude corresponding to the second lamp bead is (max/N, 2 x max/N ], \8230 \\ 8230;, the range of the preset audio frequency amplitude corresponding to the Nth lamp bead in the plurality of lamp beads is ((N-1) max/N, max ], wherein max is the preset audio frequency amplitude value;

the amplitude of the audio played by the user at the current moment belongs to ((N-1) × max/N, N × max/N), and the terminal determines that the first N lamp beads in the plurality of lamp beads are lightened;

the terminal determines the brightness level of the first n-1 lamp beads of the plurality of lamp beads to be Z;

the terminal determines that the brightness level of the nth lamp bead of the plurality of lamp beads is as follows: Q/(max/N) × Z, wherein Q is the remainder of dividing M by max/N, and M is the amplitude value of the audio sample played by the user at the current moment;

n is more than or equal to 1 and less than or equal to N, N and N are natural numbers, the number of the plurality of lamp beads is N, and the adjustable range of the brightness level of the plurality of lamp beads is 0 to Z.

6. The method according to any one of claims 1 to 5,

the wireless headset includes: the light control device comprises an in-ear body, a light control accessory and a shell accessory;

the light control accessory is detachably jointed with the in-ear body and receives the light control signal sent by the terminal;

the light control accessory operates a light source on the light control accessory according to the light control signal, the light control accessory comprising: circuit board, lamp accuse chip, light source display module assembly and even light lens piece, the light source includes: the LED lamp set comprises an LED lamp set, an LED lamp set display screen, a Liquid Crystal Display (LCD) display screen or a Plasma display.

7. The method of claim 6,

the ear insertion body comprises: one or more first magnetic elements; the light control accessory includes: one or more second magnetic attraction pieces which are respectively attracted with the one or more first magnetic attraction pieces; the one or more second magnetic attraction pieces are respectively attracted with the corresponding first magnetic attraction pieces in the one or more first magnetic attraction pieces and are repelled from other first magnetic attraction pieces in the one or more first magnetic attraction pieces; or the like, or a combination thereof,

the in-ear body comprises a first groove, and the light control accessory comprises a first boss corresponding to the first groove; or the like, or a combination thereof,

the ear-insertion body comprises: one or more first card slots; the light control accessory includes: one or more first buckles respectively buckled with the one or more first clamping grooves; the one or more first buckles are respectively clamped with the corresponding first card slots in the one or more card slots and interfere with other card slots in the one or more first card slots.

8. A method for controlling lighting of a wireless headset, comprising:

the method comprises the steps that a wireless earphone receives a light control signal sent by a terminal connected with the wireless earphone, wherein the light control signal is generated by the terminal according to a light effect mode and light effect colors, and the light effect mode is determined by the terminal according to input of a user; the color of the light effect is determined by the terminal according to the input of the user;

and the wireless earphone is controlled to work in the light effect mode according to the light control signal, and light with the color of the light effect is lightened.

9. The method of claim 8,

the light effect mode is a light effect mode of the user input acquired by the terminal; or the like, or a combination thereof,

the light effect mode is determined by the terminal according to the use scene of the wireless earphone by the user and the corresponding relation between the use scene and the light effect mode.

Wherein the pattern of light effects comprises: constantly lighting, breathing, one-way rhythm, or two-way rhythm, wherein the one-way rhythm is that the light of the wireless headset goes from one end of the wireless headset to the other end, and the two-way rhythm is that the light of the wireless headset goes from the middle of the wireless headset to the two ends.

10. The method of claim 8,

the color of the light effect is one or more colors determined by the terminal for carrying out light control operation on the wireless earphone according to a first picture taken by the user or a second picture selected by the user from the terminal storage; or the color of the light effect is one or more colors selected by the user from preset theme colors of the terminal and acquired by the terminal.

11. The method of claim 8,

the light effect mode is the unidirectional rhythm or the bidirectional rhythm, and the information in the light control signal acquired by the wireless earphone is determined by the following steps:

the terminal analyzes the audio played by the user to obtain the amplitude of the audio played by the user;

the terminal determines the number of the lighting lamp beads of the plurality of lamp beads in the light control signal and the brightness level corresponding to the lighting lamp beads according to the corresponding relation between the amplitude of the audio played by the user and the preset audio amplitude and the brightness levels and the lighting lamp numbers of the plurality of lamp beads of the wireless earphone;

wherein, a plurality of lamp pearl sets up on wireless earphone's light-operated fitting.

12. The method of claim 11,

the number and the brightness level of the lighting lamp beads in the light control signal received by the wireless earphone comprise:

the corresponding relation between a plurality of lamp beads of the plurality of lamp beads and the preset audio frequency amplitude is as follows: the preset audio amplitude range corresponding to a first lamp bead in the plurality of lamp beads is [0, max/N ], the preset audio amplitude range corresponding to a second lamp bead is (max/N, 2 x max/N ], \8230; the preset audio amplitude range corresponding to an Nth lamp bead in the plurality of lamp beads is ((N-1) max/N, max ], wherein max is the preset audio amplitude value;

the amplitude of the audio played by the user at the current moment belongs to ((N-1) × max/N, N × max/N), and the terminal determines that the first N lamp beads in the plurality of lamp beads are lightened;

the terminal determines the brightness level of the first n-1 lamp beads of the plurality of lamp beads to be Z;

the terminal determines that the brightness level of the nth lamp bead of the plurality of lamp beads is as follows: Q/(max/N) × Z, wherein Q is the remainder of dividing M by max/N, and M is the amplitude value of the audio sample played by the user at the current moment;

n is greater than or equal to 1 and less than or equal to N, N and N are natural numbers, the number of the plurality of lamp beads is N, and the adjustable range of the brightness of the plurality of lamp beads is 0-Z.

13. The method according to any one of claims 8 to 12,

the wireless headset includes: the light control device comprises an ear inlet body, a light control accessory and a shell accessory;

the light control accessory is detachably combined with the in-ear body of the wireless earphone and receives the light control signal sent by the terminal;

the light control accessory operates a light source on the light control accessory according to the light control signal, the light control accessory comprising: circuit board, lamp accuse chip, light source display module assembly and even light lens piece, the light source includes: the LED lamp set comprises an LED lamp set, an LED lamp set display screen, a Liquid Crystal Display (LCD) display screen or a Plasma display.

14. The method of claim 13,

the ear-insertion body comprises: one or more first magnetic elements; the light control fitting or the housing fitting includes: one or more second magnetic attraction pieces which are respectively attracted with the one or more first magnetic attraction pieces; the one or more second magnetic attraction pieces are respectively attracted with the corresponding first magnetic attraction pieces in the one or more first magnetic attraction pieces and are repelled from other first magnetic attraction pieces in the one or more first magnetic attraction pieces; or the like, or a combination thereof,

the ear-in body comprises a first groove, and the light control accessory comprises a first boss corresponding to the first groove; or the like, or a combination thereof,

the ear-insertion body comprises: one or more first card slots; the light control accessory includes: one or more first buckles respectively buckled with the one or more first clamping grooves; the one or more first buckles are respectively clamped with the corresponding first clamping grooves in the one or more clamping grooves and interfere with other clamping grooves in the one or more first clamping grooves.

15. The method according to any one of claims 8 to 13,

a first earphone in the wireless earphones is a master earphone, and a second earphone in the wireless earphones is a slave earphone;

the first earphone sends a synchronization instruction to the second earphone at a preset time interval;

and the first earphone and the second earphone are simultaneously lightened or extinguished according to the synchronous instruction.

16. A terminal, comprising:

the first receiving module is used for receiving the input of a user;

the first determining module is used for determining the light effect mode of a wireless headset connected with the terminal according to the input of the user;

the second determining module is used for determining the color of the light effect according to the input of the user;

the generating module is used for generating a light control signal of the wireless earphone according to the mode of the light effect and the color of the light effect;

and the sending module is used for sending the light control signal to the wireless earphone and controlling the wireless earphone to work in the light effect mode to light the light with the color.

17. The terminal of claim 16, wherein the first determining module comprises:

a first obtaining module, configured to obtain a mode of the light effect input by the user; or the like, or a combination thereof,

a third determining module, configured to determine a mode of the light effect according to a usage scenario of the wireless headset by the user and a corresponding relationship between the usage scenario and the mode of the light effect;

wherein the pattern of light effects comprises: constantly lighting, breathing, one-way rhythm, or two-way rhythm, wherein the one-way rhythm is that the light of the wireless headset goes from one end of the wireless headset to the other end, and the two-way rhythm is that the light of the wireless headset goes from the middle of the wireless headset to the two ends.

18. The terminal of claim 16, wherein the second determining module comprises:

a fourth determining module, configured to determine a color for performing a light control operation on the wireless headset according to the first picture taken by the user or a second picture selected by the user from the terminal storage; or the like, or, alternatively,

and the second acquisition module is used for acquiring the color selected by the user from the preset theme colors of the terminal.

19. The terminal of claim 17, wherein the generating module comprises:

the analysis module is used for analyzing the audio played by the user when the light effect mode is the one-way rhythm or the two-way rhythm to obtain the amplitude of the audio played by the user;

a fifth determining module, configured to determine, according to a correspondence between the audio amplitude and a preset audio amplitude and the brightness levels of multiple lamp beads and the number of light-up lamp beads of the wireless headset, the number of light-up lamp beads of the multiple lamp beads and the brightness level corresponding to the light-up lamp beads in the light control signal;

wherein, a plurality of lamp pearl sets up on wireless earphone's the light-operated fitting.

20. The terminal of claim 19,

the fifth determining module is configured to determine that the first N beads of the plurality of beads are lit when the amplitude of the audio played by the user at the current time belongs to ((N-1) × max/N, N × max/N) ];

the fifth determining module is used for determining the brightness level of the first n-1 lamp beads of the plurality of lamp beads as Z;

the fifth module is configured to determine that a brightness level of an nth bead of the plurality of beads is: Q/(max/N) × Z, wherein Q is the remainder of dividing M by max/N, and M is the amplitude value of the audio sample played by the user at the current moment;

the corresponding relation between a plurality of lamp beads of the plurality of lamp beads and the preset audio frequency amplitude is as follows: the range of the preset audio frequency amplitude corresponding to the first lamp bead in the plurality of lamp beads is [0, max/N ], the range of the preset audio frequency amplitude corresponding to the second lamp bead is (max/N, 2 x max/N ], \8230 \\ 8230;, the range of the preset audio frequency amplitude corresponding to the Nth lamp bead in the plurality of lamp beads is ((N-1) max/N, max ], wherein max is the preset audio frequency amplitude value;

n is greater than or equal to 1 and less than or equal to N, N and N are natural numbers, the number of the plurality of lamp beads is N, and the adjustable range of the brightness of the plurality of lamp beads is 0-Z.

21. The terminal of claim 19,

the light control accessory is detachably jointed with the in-ear body of the wireless headset and receives the light control signal sent by the terminal;

the light control accessory operates a light source on the light control accessory in accordance with the light control signal, the light control accessory comprising: circuit board, lamp accuse chip, light source display module assembly and even light lens piece, the light source includes: the LED lamp set comprises an LED lamp set, an LED lamp set display screen, a Liquid Crystal Display (LCD) display screen or a Plasma display.

22. The terminal according to any of the claims 16 to 21,

the wireless headset includes: the light control device comprises an ear inlet body, a light control accessory and a shell accessory;

wherein, go into ear body includes: one or more first magnetic elements; the light control accessory includes: one or more second magnetic attraction pieces which are respectively attracted with the one or more first magnetic attraction pieces; the one or more second magnetic attraction pieces are respectively attracted with the corresponding first magnetic attraction pieces in the one or more first magnetic attraction pieces and are repelled from other first magnetic attraction pieces in the one or more first magnetic attraction pieces; or the like, or a combination thereof,

the ear-in body comprises a first groove, and the light control accessory comprises a first boss corresponding to the first groove; or the like, or, alternatively,

the ear-insertion body comprises: one or more first card slots; the light control accessory includes: one or more first buckles respectively buckled with the one or more first clamping grooves; the one or more first buckles are respectively clamped with the corresponding first clamping grooves in the one or more clamping grooves and interfere with other clamping grooves in the one or more first clamping grooves.

23. A wireless headset, comprising:

the second receiving module is used for receiving a light control signal sent by the terminal connected with the wireless earphone, wherein the light control signal is generated by the terminal according to a light effect mode and a light effect color, and the light effect mode is determined by the terminal according to input of a user; the color of the light effect is determined by the terminal according to the input of the user;

and the control module is used for controlling the wireless earphone to work in the light effect mode according to the light control signal and lightening the light with the color.

24. The wireless headset of claim 23,

the light effect mode is a light effect mode of the user input acquired by the terminal; or the like, or a combination thereof,

the light effect mode is determined by the terminal according to the use scene of the wireless earphone by the user and the corresponding relation between the use scene and the light effect mode;

wherein the pattern of light effects comprises: constantly lighting, breathing, one-way rhythm, or two-way rhythm, wherein the one-way rhythm is that the light of the wireless headset goes from one end of the wireless headset to the other end, and the two-way rhythm is that the light of the wireless headset goes from the middle of the wireless headset to the two ends.

25. The wireless headset of claim 23,

the color of the light effect is determined by the terminal according to a first picture taken by a user or a second picture selected by the user from the terminal storage; or, the color of the light effect is a color selected by the user from preset theme colors of the terminal, which is acquired by the terminal.

26. The wireless headset of claim 24,

the light effect mode is the one-way rhythm or the two-way rhythm, and the information in the light control signal acquired by the terminal is determined by the following method: the terminal analyzes the audio played by the user to obtain the amplitude of the audio played by the user;

the terminal determines the number of the lighting lamp beads of the plurality of lamp beads in the light control signal and the brightness level corresponding to the lighting lamp beads according to the corresponding relation between the amplitude of the audio frequency and the preset audio frequency amplitude and the brightness level and the number of lighting lamp beads of the plurality of lamp beads of the wireless earphone;

wherein, a plurality of lamp pearl sets up on wireless earphone's the light-operated fitting.

27. The wireless headset of claim 26,

the number and the brightness level of the lighting lamp beads in the light-operated signal received by the wireless earphone comprise:

the corresponding relation between a plurality of lamp beads of the plurality of lamp beads and the preset audio amplitude is as follows: the preset audio amplitude range corresponding to the first lamp bead in the plurality of lamp beads is [0, max/N ], the audio amplitude range corresponding to the second lamp bead is (max/N,

2 x max/N', \8230, wherein the preset audio amplitude range corresponding to the Nth lamp bead in the plurality of lamp beads is ((N-1) x max/N, max ], and the max is the preset audio amplitude value;

the amplitude of the audio played by the user at the current moment belongs to ((N-1) × max/N, N × max/N), and the terminal determines that the first N lamp beads in the plurality of lamp beads are lightened;

the terminal determines the brightness level of the first n-1 lamp beads of the plurality of lamp beads to be Z;

the terminal determines that the brightness level of the nth lamp bead of the plurality of lamp beads is as follows: q-

(max/N) × Z, where Q is the remainder of dividing M by max/N, and M is the amplitude value of the audio sample played by the user at the current time;

n is more than or equal to 1 and less than or equal to N, N and N are natural numbers, the number of the plurality of lamp beads is N, and the adjustable range of the brightness of the plurality of lamp beads is 0 to Z.

28. The wireless headset of any one of claims 23 to 27,

the wireless headset includes: the light control device comprises an ear inlet body, a light control accessory and a shell accessory;

the light control accessory is detachably jointed with the in-ear body of the wireless headset and receives the light control signal sent by the terminal;

the light control accessory operates a light source on the light control accessory in accordance with the light control signal, the light control accessory comprising: circuit board, lamp accuse chip, light source display module assembly and even light lens piece, the light source includes: the LED lamp set comprises an LED lamp set, an LED lamp set display screen, a Liquid Crystal Display (LCD) display screen or a Plasma display.

29. The wireless headset of claim 28,

the ear insertion body comprises: one or more first magnetic attracting elements; the light control accessory includes: one or more second magnetic attraction pieces which are respectively attracted with the one or more first magnetic attraction pieces; the one or more second magnetic attraction pieces are respectively attracted with the corresponding first magnetic attraction pieces in the one or more first magnetic attraction pieces and are repelled from other first magnetic attraction pieces in the one or more first magnetic attraction pieces; or the like, or a combination thereof,

the ear-in body comprises a first groove, and the light control accessory comprises a first boss corresponding to the first groove; or the like, or a combination thereof,

the ear-insertion body comprises: one or more first card slots; the light control accessory includes: one or more first buckles respectively buckled with the one or more first clamping grooves; the one or more first buckles are respectively clamped with the corresponding first clamping grooves in the one or more clamping grooves and interfere with other clamping grooves in the one or more first clamping grooves.

30. A wireless headset according to any of claims 23 to 27,

a first earphone in the wireless earphones is a master earphone, and a second earphone in the wireless earphones is a slave earphone;

the first earphone sends a synchronization instruction to the second earphone at a preset time interval;

and the first earphone and the second earphone are simultaneously lightened or extinguished according to the synchronous instruction.

31. A computer readable storage medium comprising computer instructions which, when run on an electronic device, cause the electronic device to perform the method of any one of claims 1-7 or claims 8-15.

32. A computer program product, which, when run on a computer, causes the computer to perform the method of any one of claims 1 to 7 or claims 8 to 15.

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