WO2021147614A1 - Loudspeaker light-emitting structure and control method and system therefor - Google Patents

Abstract

The present invention relates to the technical field of Bluetooth loudspeakers, in particular, to a loudspeaker light-emitting structure and a control method and system therefor. The loudspeaker comprises a base, a speaker, a center shaft, a light emitter, and a housing; the center shaft is mounted on the central axis of the base; the speaker and the light emitter are respectively disposed on two adjacent sides of the center shaft; the light emitter can emit light toward the outside; the housing covers the light emitter and the central shaft, and is fixedly fastened to the base; the housing is made of a light-transmitting material. The present invention solves the problem that existing loudspeakers have a few functions, are only used as a speaker during song playback, and do not have ornamental characteristics.

Description

Acoustic light emitting structure and its control method and control system Technical field

The invention relates to the technical field of Bluetooth audio, in particular to an audio luminous structure and its control method and control system.

Background technique

Audio refers to a device that can transform audio signals into sound. According to the connection relationship between the audio and the equipment that generates the audio signal, it can be divided into wired audio and wireless audio. Among them, Bluetooth audio is the most popular. Bluetooth speakers, as the name suggests, are devices that connect to speakers through Bluetooth signals and transmit audio signals to the speakers. The main representatives are Tmall Elf, Xiaoai Audio, etc.

On the existing speakers, a display screen is usually added to realize the digital display of the electronic clock, or the electronic eyes are displayed to indicate that the current speaker has been activated, but its function is still relatively monotonous, and at the same time the song is played. In the process, it is only used as a speaker and does not have the problem of viewing.

Summary of the invention

The content of the present invention is to provide an audio light-emitting structure and its control method and control system, which mainly solves the problem of the monotonous function of the existing audio, which is only used as a speaker during song playback and does not have ornamental properties.

The present invention provides an acoustic light emitting structure, which includes a base, a horn, a central shaft, a luminous body, and a housing; the central shaft is installed at the central axis of the base; the horn and the luminous body are arranged on the central shaft The side of the luminous body can emit light toward the outside; the housing is arranged on the periphery of the luminous body and the central axis, and is clamped and fixed with the base; the housing is made of light-transmitting material.

Preferably, the light-emitting body is a first light-emitting structure having the same length direction as the central axis, and the first light-emitting structure is arranged at both ends of each side surface of the central axis; the horn is arranged on the The central axis is located on the central axis of either side of the central axis and sandwiched between the first light-emitting structures; the top end of the central axis is provided with a second light-emitting structure.

Preferably, the first light-emitting structure is a light-emitting panel, and the second light-emitting structure is a lamp bead; a fixing piece is engaged with the top of the central axis, and the central axis protrudes from the fixing piece; The second light emitting structure is annularly arranged on the fixing sheet around the central axis.

The present invention also provides a method for controlling the acoustic light emitting structure, which mainly includes the following steps:

S1, the speaker is powered on and initialized;

S2: Detect the activation mode of the control button on the speaker, and select the working mode of the speaker according to the activation mode;

S3, detecting whether the working mode of the speaker is lighting, and if so, further obtaining the music energy value;

S4: Detect whether the speaker is currently playing music according to the music energy value, if so, change the lighting effect according to the music energy value, and if not, display a preset lighting effect.

Preferably, the step S2 specifically includes:

S21: Detect whether the activation mode of the control button on the speaker is the first preset mode, if it is, execute the next step, if not, execute step S23;

S22, further detecting whether the first light emitting structure and the second light emitting structure are currently turned on, if so, turn off the first light emitting structure and the second light emitting structure, and return to step S21, if otherwise, turn on the first light emitting structure Structure and the second light-emitting structure, and step S3 is executed;

S23. It is further detected whether the activation mode of the control button is the second preset mode, and if so, the preset lighting effects of the first light-emitting structure and the second light-emitting structure are cyclically switched, and the next step is executed; otherwise, the next step is executed directly. step.

Preferably, the step S4 specifically includes:

S41: Detect whether the speaker is currently playing music according to the music energy value, and if so, change the lighting effects of the first light-emitting structure and the second light-emitting structure according to the real-time music energy value, and return to step S21 , Otherwise proceed to the next step;

S42. It is further detected whether the speaker has not played music within a preset time, and if so, the preset lighting effects of the first light-emitting structure and the second light-emitting structure are displayed, and the step S21 is returned; The music energy value changes the lighting effects of the first light-emitting structure and the second light-emitting structure.

Preferably, in the step S41 and the step S42, the changing the lighting effect of the first light-emitting structure and the second light-emitting structure is specifically, accelerating the playback of the current light of the first light-emitting structure and the second light-emitting structure Effect, or play the light effects of the first light-emitting structure and the second light-emitting structure at a slower rate, or play the light effects of the first light-emitting structure and the second light-emitting structure in a forward and reverse cycle.

The present invention also provides a control system for an acoustic light emitting structure, including the aforementioned acoustic, including a processor and a receiving module that are electrically connected; the processor is also electrically connected to the first light emitting structure and the second light emitting structure ；

The receiving module is configured to receive external control signals and send the external control signals to the processor;

The processor is configured to parse the corresponding control instruction according to the external control signal; and is also configured to control the first light-emitting structure and the second light-emitting structure to display corresponding lighting effects according to the control instruction.

Preferably, it also includes a communication port on the processor;

The communication port is used to send the current music energy value to the processor;

The processor is used for judging the working state of the speaker according to the music energy value received in real time; and is also used for changing the music energy value in real time according to the change of the music energy value when the speaker is playing music. A lighting effect of a light-emitting structure and a second light-emitting structure; and also used for controlling the first light-emitting structure and the second light-emitting structure to display a preset light effect when the speaker does not play music within a preset time period.

Preferably, the processor is configured to preset the first control instruction and the second control instruction;

The processor is configured to send the first control instruction to the first light-emitting structure and the second light-emitting structure when detecting that the speaker is playing music; and is also configured to detect that the speaker is within a preset time When no music is playing, sending a second control instruction to the first light-emitting structure and the second light-emitting structure;

The first light-emitting structure and the second light-emitting structure are used to change and display the lighting effect in real time according to the first control instruction and the music energy value that changes in real time; and are also used to change and display the light effect in real time according to the second control Instruction to display the preset lighting effect.

It can be seen from the above that the following beneficial effects can be obtained by applying the technical solution provided by the present invention:

First, the light source used in the audio device proposed by the present invention is a first light-emitting structure and a second light-emitting structure. The housing allows light to pass through each, and prevents the first light-emitting structure and the second light-emitting structure from contacting moisture in the air or the outside world. The waterproofness of the speaker in the present invention is improved, and at the same time, the light on the surface of the speaker can be diversified, and the appreciation of the speaker is improved;

Second, the first light-emitting structure and the second light-emitting structure on the sound proposed by the present invention avoid the horns, which ensures the normal light emission process of any light-emitting structure, and the positions of the first light-emitting structure and the second light-emitting structure are such that The speaker can achieve 360° luminescence, and at the same time ensure the sound effect of the speaker;

Third, the acoustic first light-emitting structure and the second light-emitting structure proposed by the present invention are respectively a light-emitting panel and a lamp bead, so that the first light-emitting structure and the second light-emitting structure respectively emit light of different intensities, and after mixing different lights, it has Softness and penetration;

Fourth, in the sound control method proposed by the present invention, different lighting effects are automatically selected according to the different working modes of the sound, so that the sound is enjoyable during the music playing process, and still has the lighting effect when no music is playing. Can be used with lamps and lanterns to expand the use environment of audio;

Fifth, in the sound control method proposed in the present invention, the lighting effect is changed according to the change of the music energy value, so that the ups and downs in the music melody are converted into the acceleration, deceleration, and forward and reverse of the lighting effect, so that the change of the music melody is concretized ；

Sixth, in the audio control system proposed by the present invention, the processor determines the current lighting effect corresponding to the first light-emitting structure and the second light-emitting structure, so that the audio can realize the process of automatically changing and displaying the light effect, ensuring the audio performance of the present invention. Dynamic display process.

Description of the drawings

In order to explain the embodiments of the present invention or the technical solutions in the prior art more clearly, the following will briefly introduce the drawings that need to be used in the description of the embodiments or the prior art. Obviously, the drawings in the following description are only These are some embodiments of the present invention. For those of ordinary skill in the art, other drawings can be obtained based on these drawings without creative labor.

Figure 1 is a partial structural cross-sectional view of Embodiment 1 of the present invention;

2 is a schematic diagram of a part of the structure of Embodiment 1 of the present invention;

3 is a schematic diagram of the overall structure of Embodiment 1 of the present invention;

Figure 4 is a flow chart of the control method according to Embodiment 2 of the present invention;

Fig. 5 is a system block diagram of a control system according to Embodiment 3 of the present invention.

Detailed ways

The technical solutions in the embodiments of the present invention will be clearly and completely described below in conjunction with the accompanying drawings in the embodiments of the present invention. Obviously, the described embodiments are only part of the embodiments of the present invention, rather than all the embodiments. Based on the embodiments of the present invention, all other embodiments obtained by those of ordinary skill in the art without creative work shall fall within the protection scope of the present invention.

The function of the existing audio is monotonous, and it is only used as a speaker during the song playback process, which does not pose a problem of viewing.

Example 1

As shown in Figures 1 and 2, in order to solve the above problems, this embodiment proposes an acoustic light emitting structure, which mainly includes a base 10, a speaker 20, a central shaft 30, a luminous body and a housing 50; the central shaft 30 is mounted on At the central axis of the base 10; the horn 20 and the luminous body are arranged on the side of the central axis 30; the luminous body can emit light toward the outside; the housing 50 is arranged on the periphery of the luminous body and the central axis 30, and is clamped and fixed with the base 10; The body 50 is made of a light-transmitting material, and is used for transmitting light from the luminous body to the outside.

Preferably, but not limited, the distribution of the light-transmitting material on the housing 50 in this embodiment is not limited, and the user can set the distribution of the light-transmitting material on the housing 50 according to his own preferences. For example, as shown in FIG. The light beam is made of light-transmitting material. It can also be shown in Figure 3. The light beam and the rest of the structure are made of different light-transmitting materials, which can form different light-transmitting effects at different positions of the housing 50, increasing the variety of acoustic light in this embodiment. sex.

Preferably, but not limited, the number of the horns 20 is two, and the two horns 20 are arranged on symmetrical sides of the central axis 30.

Preferably, but not limited, the aforementioned speaker 20 includes a tweeter 20 and a subwoofer 20 arranged on the same vertical line to ensure the surround sound effect of the speaker in this embodiment.

More specifically, the light-emitting body is the first light-emitting structure 41, and the first light-emitting structure 41 is arranged at both ends of each side of the central axis 30; the horn 20 is arranged on the central axis of either side of the central axis 30 and sandwiched therebetween Between the first light-emitting structure 41; the top of the central axis 30 is provided with a second light-emitting structure 42; the light-transmitting hole is provided on the side of the housing 50, and the top of the housing 50 is made of closed material and is connected to the side of the housing 50 Fixed connection.

Preferably, but not limited, there are 8 first light-emitting structures 41 in this embodiment, which are respectively arranged at both ends of each side surface on the central axis 30, and the symmetrical end faces on the central axis 30 are provided with horns 20, therefore The first light-emitting structure 41 with two sides on the central axis 30 is arranged on both sides of the horn 20, and the horn 20 and the first light-emitting structure 41 do not affect each other, that is, after the first light-emitting structure 41 is installed, it does not interact with the horn 20. get in touch with.

In this embodiment, the first light-emitting structure 41 and the second light-emitting structure 42 are respectively used to emit light toward the side and above of the speaker, so that the light emitted by the speaker can be observed from multiple angles; the light of the first light-emitting structure 41 mainly passes through The light holes are transmitted, and the light of the second light-emitting structure 42 is transmitted through the light-transmitting material; the number of light-transmitting holes is several, and they are evenly distributed on the side surface of the housing 50. In this embodiment, the housing 50 is specifically composed of a hemispherical top end and a side wall, the above-mentioned light-transmitting material specifically constitutes the hemispherical top end, and the corresponding second light-emitting structure 42 is slightly higher than the highest point of the side wall, so that the second light-emitting structure The light emitted by 42 needs to pass through a light-transmitting material.

Preferably, but not limited, the first light-emitting structure 41 is a light-emitting panel or a lamp bead. If the first light-emitting structure 41 is a light-emitting panel, the arrangement direction of the light-emitting panel is consistent with the length direction of the central axis 30. 41 is a lamp bead, then any of the first light-emitting structure 41 is arranged in a row with a number of lamp beads, and the second light-emitting structure 42 is a lamp bead; a fixing piece 60 is clamped at the top of the central axis 30, and the central axis 30 protrudes The fixing piece 60 is arranged; the second light emitting structure 42 is annularly arranged on the fixing piece 60 around the central axis 30.

In this embodiment, the fixing piece 60 is used to fix the position of the second light-emitting structure 42 so that the second light-emitting structure 42 is arranged in a ring around the central axis 30 to ensure that the light-emitting range of the second light-emitting structure 42 evenly covers the upper end of the speaker . Wherein, the height of the fixing piece 60 can be on the same level as the highest point of the side wall of the housing 50, so that the level of the second light-emitting structure 42 is within the level of the top of the hemisphere of the housing 50.

In this embodiment, the light of the light-emitting panel is softer than that of the lamp beads, and the lamp tube effect of the overall light-emitting panel changes more diversely, and the change process is more fluid, but the light transmitted through the light-transmitting hole It still retains its soft type. The light of the lamp beads is sharper and is point-emitting. Therefore, the light can be softer through the light-transmitting material, and the change is different from the change of the light-emitting panel, which makes the effect of the sound tube more diverse It is more beautiful and more ornamental.

Preferably, but not limited, the central axis 30 can be rotatably arranged on the base 10 to change the position of the first light-emitting structure 41. Therefore, the overall lighting effect of the audio has a process of rotating and changing, which enhances the overall viewing of the audio and expands the audio The coverage and coverage area of the upper light.

Example 2

As shown in FIG. 3, in order to solve the aforementioned problem, this embodiment proposes a method for controlling an acoustic light emitting structure, which mainly includes the following steps:

S1, the speaker is powered on and initialized;

S2, detecting the opening mode of the control buttons on the speaker, and selecting the working mode of the speaker according to the opening mode;

S3, detecting whether the working mode of the audio is lighting, if so, further obtaining the music energy value, if not returning to step S2;

S4: Detect whether the current speaker is playing music according to the music energy value, if so, change the lighting effect according to the music energy value, if not, display the preset lighting effect.

Preferably, but not limited, the control button can be a control button on the speaker, or a remote control device for the speaker, including a Bluetooth remote control, an infrared remote control and other equipment; in step S2 of this embodiment, The detection opening method can also be to intuitively detect the change of the external control signal received inside the speaker.

Preferably, but not limited, the lighting effect in this embodiment specifically refers to the lighting effect formed by combining the first light-emitting structure and the second light-emitting structure on the aforementioned acoustics.

In this embodiment, the power-on initialization of the speaker in step S1 is mainly used to complete the process of power-on startup of each module in the speaker and initializing to preset parameter values, so as to ensure the normal operation of the subsequent process.

In this embodiment, the sound can automatically make the sound surface show different lighting effects according to the working mode of the sound and whether the music is playing or not, that is, the different lighting effects on the sound surface correspond to the different states of the sound, so that the sound The change of state realizes visualization and visualization, and enhances the appreciation of the audio in the process of use.

Among them, step S2 specifically includes:

S21, detecting whether the turn-on mode of the control button on the speaker is the first preset mode, if yes, execute the next step, if otherwise, execute step S23;

S22, further detecting whether the current first light emitting structure and the second light emitting structure are turned on, if so, turn off the first light emitting structure and the second light emitting structure, and return to step S21, if otherwise, light up the first light emitting structure and the second light emitting structure, and Go to step S3;

S23, further detecting whether the control button is turned on in the second preset mode, and if so, sequentially switch the preset lighting effects of the first light-emitting structure and the second light-emitting structure, and execute the next step, if not, directly execute the next step.

Preferably, but not limited, the first preset method is long-pressing the control button, specifically the time of pressing the control button continuously exceeds 3s, and the second preset method is short-pressing the control button, specifically, the time of pressing the control button is at most equal to 1s, and when the control button's opening mode is not equal to the foregoing two, step S3 is directly executed.

Preferably, but not limited, in step S23, when the control button is pressed in the second preset manner, the lighting effect of the sound surface is switched to the next lighting effect, and when the control button is pressed again in the second preset manner, Switch the current lighting effect to the next lighting effect, cyclically.

In this embodiment, steps S21 to S23 are mainly used to determine whether the current sound is turned on, and to set the initial lighting effect of the sound. When the light of the sound is turned on, it is judged again in step S3 to ensure the normal state of the current sound. When it is determined in step S3 that the sound is not turned on, the process returns to step S21.

In addition, step S4 specifically includes:

S41: Detect whether the current speaker is playing music according to the music energy value, if so, change the lighting effects of the first light-emitting structure and the second light-emitting structure according to the real-time music energy value, and return to step S21, if otherwise, perform the next step;

S42. It is further detected whether the audio has not played music within the preset time, if so, the preset lighting effects of the first light-emitting structure and the second light-emitting structure are displayed, and step S21 is returned, if otherwise, the first light-emitting is changed according to the real-time music energy value. The lighting effect of the structure and the second light-emitting structure.

Preferably, but not limited, the preset time in step S41 is 5s. If there is no music playing within five seconds, it can be judged that the current speaker is in the power-on standby state. At this time, the audio surface displays the preset lighting effect; if it is within five seconds If there is music playing, it can be judged that the music currently played by the audio is a switching process. At this time, the lighting effect on the audio surface changes according to the change of the energy value of the music, making the change of the music melody appear concrete.

Preferably, but not limited, in step S41 and step S42, the light effects of the first light-emitting structure and the second light-emitting structure are changed, specifically, the current light effects of the first light-emitting structure and the second light-emitting structure are played faster, or the playback is slowed down The current lighting effects of the first light-emitting structure and the second light-emitting structure, or the current lighting effects of the first light-emitting structure and the second light-emitting structure are switched forward and backward.

Preferably, but not limited, in this embodiment, the music energy value increases, that is, when the musical scale increases, the change in the lighting effect is consistent with the change in the music energy value. Among them, the lighting effects of the first light-emitting structure and the second light-emitting structure include water-like lights, rotating lights, spot lights, and cross-rotating lights. The aforementioned change process of acceleration, deceleration, forward and reverse, taking the water striated light as an example, specifically refers to the state where the lighting lights of the first light emitting structure and the second light emitting structure move successively, assuming that the music energy value increases and accelerates. When the music energy value decreases and decelerates, the moving speed of the lighting lights of the first light-emitting structure and the second light-emitting structure slows down; In the directional state, the moving directions of the lighting lights of the first light-emitting structure and the second light-emitting structure are opposite; the changes of the other lights are analogous to the same.

In this embodiment, in step S42, the lighting effects of the first light-emitting structure and the second light-emitting structure are changed according to the real-time change of the music energy value. Since the change of the music energy value is equivalent to the change of the music melody, that is, this embodiment In the example, the lighting effects of the first light-emitting structure and the second light-emitting structure change with the change of the music melody, so that the lighting effects change at any time during the process of playing music on the speaker, which greatly improves the viewing quality.

At the same time, in order to ensure the normal implementation of step S42 in this embodiment, the preset lighting effects of the first light-emitting structure and the second light-emitting structure should also be provided as the lighting effect in the standby state of the sound, that is, the sound is not Play music, only as an ornament.

At step S4

Example 3

As shown in FIG. 4, in order to solve the foregoing problem, this embodiment proposes a control system of an acoustic light emitting structure, which includes the foregoing acoustics, and also includes processors 100 and 200 that are electrically connected; the processor 100 is also connected to the first The light emitting structure 41 and the second light emitting structure 42 are electrically connected. Among them, 200 is used to receive an external control signal and send the external control signal to the processor 100; the processor 100 is used to parse the corresponding control instruction according to the external control signal; it is also used to control the first light-emitting structure according to the control instruction 41 and the second light-emitting structure 42 display corresponding lighting effects.

Preferably, but not limited, 200 can refer to the aforementioned control buttons set on the speaker, or can refer to a tricky module used to receive the aforementioned infrared remote control or Bluetooth remote control inside the speaker. The 200 is not specifically limited here.

In this embodiment, the processor 100 directly controls the first light-emitting structure 41 and the second light-emitting structure 42 to display corresponding lighting effects according to the received external control instruction, and realizes the automatic control process of the sound, and it is indeed controlled according to the external control instruction. The lighting effects of the first light-emitting structure 41 and the second light-emitting structure 42 are adjusted.

More specifically, it also includes a communication port 110 on the processor 100 for acquiring music energy values; wherein, the communication port 110 is used to send the current music energy value to the processor 100; the processor 100 is used to receive the music energy value in real time. The music energy value is used to determine the working status of the speaker; it is also used to change the lighting effects of the first light-emitting structure 41 and the second light-emitting structure 42 in real time according to the change of music energy when the speaker is playing music; When no music is played within the time, the first light-emitting structure 41 and the second light-emitting structure 42 are controlled to display the preset light effects.

In this embodiment, the communication port 110 is mainly used to obtain the music energy value, and the music energy value is used as the basis for switching the light effects of the first light-emitting structure 41 and the second light-emitting structure 42, which serves as the basic structure in this embodiment.

More specifically, the processor 100 is used to set the first control instruction and the second control instruction in advance; the processor 100 is used to send the first light-emitting structure 41 and the second light-emitting structure 42 when it detects that the speaker is playing music. Control instruction; also used to send a second control instruction to the first light-emitting structure 41 and the second light-emitting structure 42 when it is detected that the audio is not playing music within a preset time; the first light-emitting structure 41 and the second light-emitting structure 42 are used It is used to change and display the lighting effect in real time according to the first control instruction and the music energy value that changes in real time; it is also used to display the preset lighting effect according to the second control instruction.

Preferably, but not limited, the first control instruction is a real-time replacement instruction. When the first light-emitting structure 41 and the second light-emitting structure 42 receive the first control instruction, the corresponding lighting effect will be displayed according to the real-time change of the music energy value. ; The second control instruction is a preset display instruction. When the first light-emitting structure 41 and the second light-emitting structure 42 receive the second control instruction, the preset lighting effect will be displayed in a straight line without changing.

In this embodiment, the change in the music energy value during music playback is equivalent to the ups and downs of the music melody. Therefore, the lighting effect that changes according to the music energy value is equivalent to the lighting effect that changes according to the ups and downs during the music playback. Realize the simultaneous enjoyment of hearing and vision.

In summary, the sound, sound control method and sound control system proposed in this embodiment change the display process of the sound surface lighting effect by identifying the current working state of the sound and the ups and downs of the music, so that the sound is in the process of playing music. , It is ornamental and expands the application environment of audio.

The above-mentioned embodiments do not constitute a limitation on the protection scope of the technical solution. Any modifications, equivalent replacements, and improvements made within the spirit and principles of the foregoing implementation manners should be included in the protection scope of the technical solution.

Claims (10)

1. An acoustic light emitting structure, which is characterized in that it comprises a base, a horn, a central shaft, a luminous body, and a housing; the central shaft is installed at the central axis of the base; the horn and the luminous body are arranged on the central shaft The side of the luminous body can emit light toward the outside; the housing is arranged on the periphery of the luminous body and the central axis, and is clamped and fixed with the base; the housing is made of light-transmitting material.
2. The acoustic light emitting structure according to claim 1, wherein the light-emitting body is a first light-emitting structure having the same length direction as the central axis, and the first light-emitting structure is disposed on each of the central axis. The two ends of the side surface; the horn is arranged on the central axis of either side of the central shaft and sandwiched between the first light-emitting structures; the top end of the central shaft is provided with a second light-emitting structure.
3. The acoustic light-emitting structure according to claim 2, wherein the first light-emitting structure is a light-emitting panel, the second light-emitting structure is a lamp bead; and a fixing piece is arranged at the top of the central axis. , And the central axis protrudes from the fixing plate; the second light-emitting structure is annularly arranged on the fixing plate around the central axis.
4. A control method of an acoustic light emitting structure is characterized in that it comprises the following steps:

   S1, the speaker is powered on and initialized;

   S2: Detect the activation mode of the control button on the speaker, and select the working mode of the speaker according to the activation mode;

   S3, detecting whether the working mode of the speaker is lighting, and if so, further obtaining the music energy value;

   S4: Detect whether the speaker is currently playing music according to the music energy value, if so, change the lighting effect according to the music energy value, and if not, display a preset lighting effect.
5. The control method of an acoustic light emitting structure according to claim 4, wherein the step S2 specifically includes:

   S21: Detect whether the activation mode of the control button on the speaker is the first preset mode, if it is, execute the next step, if not, execute step S23;

   S22, further detecting whether the first light emitting structure and the second light emitting structure are currently turned on, if so, turn off the first light emitting structure and the second light emitting structure, and return to step S21, if otherwise, turn on the first light emitting structure Structure and the second light-emitting structure, and step S3 is executed;

   S23. It is further detected whether the activation mode of the control button is the second preset mode, and if it is, the preset lighting effects of the first light-emitting structure and the second light-emitting structure are sequentially switched, and the next step is executed; otherwise, the next step is executed directly. step.
6. The method for controlling an acoustic light emitting structure according to claim 5, wherein the step S4 specifically includes:

   S41: Detect whether the speaker is currently playing music according to the music energy value, and if so, change the lighting effects of the first light-emitting structure and the second light-emitting structure according to the real-time music energy value, and return to step S21 , Otherwise proceed to the next step;

   S42. It is further detected whether the speaker has not played music within a preset time, and if so, the preset lighting effects of the first light-emitting structure and the second light-emitting structure are displayed, and the step S21 is returned; The music energy value changes the lighting effects of the first light-emitting structure and the second light-emitting structure.
7. The control method of an acoustic light emitting structure according to claim 6, wherein in the step S41 and step S42, the changing the light effect of the first light emitting structure and the second light emitting structure is specifically , Speed up playing the current light effects of the first light emitting structure and the second light emitting structure, or slow down playing the current light effects of the first light emitting structure and the second light emitting structure, or play the current first light in a forward and reverse cycle The lighting effect of the structure and the second light-emitting structure.
8. An acoustic light emitting structure control system, comprising the acoustic sound of any one of claims 1-3, characterized in that it further comprises a processor and a receiving module that are electrically connected; the processor is also connected to the first light emitting device. The structure and the second light-emitting structure are electrically connected;

   The receiving module is configured to receive an external control signal and send the external control signal to the processor;

   The processor is configured to parse the corresponding control instruction according to the external control signal; and is also configured to control the first light-emitting structure and the second light-emitting structure to display corresponding lighting effects according to the control instruction.
9. The control system of an acoustic light emitting structure according to claim 8, characterized in that it further comprises a communication port on the processor;

   The communication port is used to send the current music energy value to the processor;

   The processor is used for judging the working state of the speaker according to the music energy value received in real time; and is also used for changing the music energy value in real time according to the change of the music energy value when the speaker is playing music. A lighting effect of a light-emitting structure and a second light-emitting structure; and also used for controlling the first light-emitting structure and the second light-emitting structure to display a preset light effect when the speaker does not play music within a preset time period.
10. The control system of an acoustic light emitting structure according to claim 9, characterized in that:

    The processor is configured to preset a first control instruction and a second control instruction;

    The processor is configured to send the first control instruction to the first light-emitting structure and the second light-emitting structure when detecting that the speaker is playing music; and is also configured to detect that the speaker is within a preset time When no music is playing, sending a second control instruction to the first light-emitting structure and the second light-emitting structure;

    The first light-emitting structure and the second light-emitting structure are used to change and display the lighting effect in real time according to the first control instruction and the music energy value that changes in real time; and are also used to change and display the lighting effect in real time according to the second control Instruction to display the preset lighting effect.

Images