CN112911496A - Pairing method of sounding components, audio system and readable storage medium - Google Patents

Abstract

The invention discloses a pairing method of sounding components, an audio system and a readable storage medium, wherein the sounding components comprise a main sound box and a consonant box, and the pairing method comprises the following steps: the method comprises the steps that a main sound box sends a pairing request to a secondary sound box, wherein the secondary sound box feeds back pairing information to the main sound box according to the pairing request; the main sound box receives the fed-back pairing information; and the main sound box performs sound channel switching according to the pairing information and sends a pairing completion instruction to the consonant box, wherein the consonant box performs sound channel switching according to the pairing completion instruction. The technical scheme of the invention can effectively reduce the operation steps and improve the convenience of forming stereo sound by combination.

Description

Pairing method of sounding components, audio system and readable storage medium

Technical Field

The present invention relates to the field of audio technologies, and in particular, to a method for pairing sounding components, an audio system, and a readable storage medium.

Background

The sound box is an electronic device capable of playing sound, when a user uses the sound box, the user can combine the two sound boxes, the played sound is more three-dimensional through the combined sound box, and under the condition, the user can obtain better hearing experience.

At present, two sound boxes need to be combined together by means of a third party tool, for example, the two sound boxes need to be connected together through a smart phone, and thus the method for forming stereo is complex in operation and lacks convenience.

Disclosure of Invention

Therefore, in order to solve the problems of complicated operation and lack of convenience of the conventional method for combining two sound boxes to form stereo sound, a matching method of sound generating components, an audio system and a readable storage medium are needed, and the aim of effectively reducing operation steps and improving the convenience of combining to form stereo sound is achieved.

In order to achieve the above object, the present invention provides a method for pairing a sound generating assembly, where the sound generating assembly includes a main speaker and a consonant speaker, and the method includes:

the method comprises the steps that a main sound box sends a pairing request to a secondary sound box, wherein the secondary sound box feeds back pairing information to the main sound box according to the pairing request;

the main sound box receives the fed-back pairing information;

and the main sound box performs sound channel switching according to the pairing information and sends a pairing completion instruction to the consonant box, wherein the consonant box performs sound channel switching according to the pairing completion instruction.

Optionally, before the step of sending the pairing request to the consonant box, the method includes:

the main sound box sends confirmation information to the auxiliary sound box, wherein the auxiliary sound box feeds the identity information of the auxiliary sound box back to the main sound box according to the confirmation information;

the main sound box receives the fed back identity information of the auxiliary sound box;

and the main sound box judges whether to be connected with the auxiliary sound box in a pairing mode for the first time according to the identity information.

Optionally, the step of determining, by the main speaker, whether to pair with the consonant speaker for the first time according to the identity information includes:

the main sound box compares the identity information of the auxiliary sound box with locally stored identity information;

when the comparison results of the main sound boxes are the same, the main sound boxes exit the pairing process and carry out sound channel switching;

and when the comparison results of the main sound boxes are different, continuing executing the pairing process and updating the identity information of the auxiliary sound box to the local.

Optionally, after the step of receiving the pairing information fed back by the main sound box, the method includes:

and the main sound box updates the pairing state according to the pairing information and sends a pairing completion prompt.

Optionally, before the step of sending the pairing request to the consonant box, the method includes:

the main sound box receives a pairing instruction, and enters a pairing mode according to the pairing instruction and generates a pairing request.

Optionally, the step of sending a pairing request to the consonant box by the master speaker includes:

and the main sound box sends a pairing request to the auxiliary sound box through a near magnetic field induction technology.

In addition, in order to achieve the above object, the present invention further provides a method for pairing a sound generating assembly, where the sound generating assembly includes a main speaker and a consonant speaker, the method comprising:

the auxiliary sound box receives a pairing request sent by the main sound box;

the consonant box feeds back pairing information to the main sound box according to the pairing request, wherein the main sound box receives the fed-back pairing information, and the main sound box switches sound channels according to the pairing information and sends a pairing completion instruction to the consonant box;

and the consonant box receives the pairing completion instruction and performs sound channel switching according to the pairing completion instruction.

Optionally, before the step of receiving, by the consonant speaker, the pairing request sent by the master speaker, the method includes:

the auxiliary sound box receives confirmation information sent by the main sound box;

the auxiliary sound box feeds back the identity information of the auxiliary sound box to the main sound box according to the confirmation information;

and the consonant box judges whether to be connected with the main sound box in a pairing mode for the first time according to the confirmation information.

Optionally, the confirmation information includes identity information of the main sound box;

the step that the consonant box judges whether to pair with the main sound box for the first time according to the confirmation information comprises the following steps:

the auxiliary sound box compares the identity information of the main sound box with locally stored identity information;

when the comparison result is the same, the auxiliary sound box exits the pairing process and switches the sound channels;

and when the comparison results are different, the auxiliary sound box continues to execute the pairing process and updates the identity information of the main sound box to the local.

In addition, in order to achieve the above object, the present invention further provides an audio system, where the audio system includes a sound generation assembly, the sound generation assembly includes a main speaker and a consonant speaker, and the sound generation assembly includes: a memory, a processor, and a pairing program stored on the memory and executable on the processor; the pairing procedure, when executed by the processor, implements the steps of the method of pairing sound components as described above.

Furthermore, in order to achieve the above object, the present invention also provides a readable storage medium having stored thereon a pairing program, which when executed by a processor, implements the steps of the pairing method of the sound emitting assembly as described above.

According to the technical scheme, when the main sound box and the consonant box are combined, the main sound box sends a pairing request to the consonant box, and after the consonant box receives the pairing request, the consonant box feeds back pairing information to the main sound box. After the main sound box receives the pairing information, the main sound box performs sound channel switching, the main sound box sends a pairing completion instruction to the consonant box, the consonant box receives the pairing completion instruction, and the consonant box performs sound channel switching according to the pairing completion instruction. Therefore, the main sound box and the consonant box can complete the switching of sound channels, and the main sound box and the consonant box can be combined to form stereo. Therefore, the main sound box and the consonant box can be automatically combined to form stereo, the combination method is simple to operate, and the convenience of combination and pairing is effectively improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

Fig. 1 is a schematic flow chart of a first embodiment of a method for pairing sound modules according to the present invention;

FIG. 2 is a flowchart illustrating a method for pairing sound modules according to a second embodiment of the present invention;

FIG. 3 is a flowchart illustrating a method for pairing sound modules according to a third embodiment of the present invention;

FIG. 4 is a flowchart illustrating a method for pairing sound modules according to a fourth embodiment of the present invention;

FIG. 5 is a flow chart illustrating a fifth exemplary method of pairing sound modules according to the present invention;

fig. 6 is a flowchart illustrating a pairing method of sound emitting modules according to a sixth embodiment of the present invention;

fig. 7 is a flowchart illustrating a pairing method of sound modules according to a seventh embodiment of the present invention;

fig. 8 is a flowchart illustrating a method for pairing sound modules according to an eighth embodiment of the present invention.

The implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the related art, two sound boxes need to be combined together by means of a third-party tool, for example, the two sound boxes are connected through a smart phone, and the two sound boxes are controlled to be connected through a mobile phone, so that the method for forming the stereo sound is complex in operation and lacks convenience.

In order to solve the above problem, referring to fig. 1, a first embodiment of the present invention is proposed, in which the present invention provides a method for pairing a sound generating assembly, where the sound generating assembly includes a main speaker and a consonant speaker, and the main speaker may be a bluetooth speaker or a portable speaker. Likewise, the consonant boxes may be Bluetooth speakers, or portable speakers. The portable sound box is convenient to move. The pairing method comprises the following steps:

step S10, the main sound box sends a pairing request to the auxiliary sound box, wherein the auxiliary sound box feeds back pairing information to the main sound box according to the pairing request; data can be mutually transmitted between the main sound box and the auxiliary sound box by using Near Field Communication (Near Field Communication) technology. The Near Field communication technology includes NFMI (Near Field Magnetic Induction) communication technology, and the main sound box sends a pairing request to the auxiliary sound box through Near Field communication. In the process of sending the pairing request to the consonant speaker, the propagation of the signal is limited by the distance between the consonant speaker and the consonant speaker, or the intensity of the signal gradually attenuates in the process of signal propagation. Therefore, in the process of combining the main speaker and the sub-speaker to form stereo sound, the main speaker and the sub-speaker are usually close to each other. Can set up the distance interval of main audio amplifier and supplementary audio amplifier within 3 meters, at this distance within range, main audio amplifier and supplementary audio amplifier can effectual transmission sound. For example, the distance between the main sound box and the consonant box is 20 cm or 30 cm, and at the distance, the main sound box and the consonant box not only can effectively transmit signals, but also can form stereo sound with clearer sound, and can provide more shocking effects for users. After the auxiliary sound box receives the pairing request sent by the main sound box, the auxiliary sound box feeds back pairing information to the main sound box, and the pairing information comprises information that the auxiliary sound box can be in communication connection. The main sound box and the auxiliary sound box are respectively provided with an antenna, signal transmission is carried out through the antennas, the main sound box is internally provided with an NFMI chip, and the antennas transmit received signals to the NFMI chip. The main sound box is also provided with an SOC (System on Chip), the NFMI Chip and the SOC Chip are connected through an I2C interface, the NFMI Chip transmits the received signal to the SOC Chip through an I2C interface, and the SOC Chip can also transmit the generated signal out through the I2C interface, the NFMI Chip and the antenna in sequence. Likewise, an antenna, an NFMI chip, an I2C interface, and an SOC chip are also provided in the consonant box.

Step S20, the main sound box receives the fed-back pairing information; the pairing information comprises information that the auxiliary sound box can be in communication connection, the processor is arranged in the main sound box, and after the main sound box receives the pairing information, the processor analyzes and processes the pairing information so as to judge whether the main sound box can perform sound channel switching. Sound Channel (Sound Channel) refers to mutually independent audio signals that are acquired or played back at different spatial positions when Sound is recorded or played. The sound channel switching comprises that the main sound box is switched into a left sound channel, and the auxiliary sound box is switched into a right sound channel. Or the main sound box is switched to the right sound channel, and the auxiliary sound box is switched to the left sound channel. Through the form of left and right sound channels, the sound can be more three-dimensional in the sound playing process, so that stereo sound is formed, and the pairing of the generating components is completed.

And step S30, the main sound box performs sound channel switching according to the pairing information and sends a pairing completion instruction to the consonant box, wherein the consonant box performs sound channel switching according to the pairing completion instruction. After the pairing information comprises information that the auxiliary sound box can be connected with external communication, the main sound box switches sound channels, after the main sound box completes the sound channel switching, the main sound box sends a completion instruction of completing the sound channel switching to the auxiliary sound box, and after the auxiliary sound box receives the completion instruction, the auxiliary sound box also switches the sound channels.

In the technical scheme provided by this embodiment, when the main speaker and the consonant box are combined, the main speaker sends a pairing request to the consonant box, and after the consonant box receives the pairing request, the consonant box feeds back pairing information to the main speaker. After the main sound box receives the pairing information, the main sound box performs sound channel switching, the main sound box sends a pairing completion instruction to the consonant box, the consonant box receives the pairing completion instruction, and the consonant box performs sound channel switching according to the pairing completion instruction. Therefore, the main sound box and the consonant box can complete the switching of sound channels, and the main sound box and the consonant box can be combined to form stereo. Therefore, the main sound box and the consonant box can be automatically combined to form stereo, the combination method is simple to operate, and the convenience of combination and pairing is effectively improved.

Referring to fig. 2, a second embodiment of the present invention is proposed on the basis of the first embodiment of the present invention. When the main sound box and the auxiliary sound box are combined, the main sound box and the auxiliary sound box may be already paired and combined before the main sound box and the auxiliary sound box are combined, so as to improve the pairing efficiency of the main sound box and the auxiliary sound box. Before the step of sending the pairing request to the consonant box by the main sound box, the method comprises the following steps:

step S40, the main sound box sends confirmation information to the auxiliary sound box, wherein the auxiliary sound box feeds back the identity information of the auxiliary sound box to the main sound box according to the confirmation information; the identity information is mainly used to distinguish each sound emitting unit, that is, the identity information of each sound emitting unit is unique. The identity information can be a combination of numbers, letters or a mixed combination of numbers and letters. And after the consonant box receives the confirmation information, the consonant box feeds the identity information of the consonant box back to the main sound box according to the confirmation information.

Step S50, the master speaker receives the fed back identity information of the consonant speaker; the auxiliary sound box feeds the identity information back to the main sound box through the antenna, and the main sound box receives the identity information of the auxiliary sound box through the antenna.

And step S60, the main sound box judges whether the main sound box is connected with the auxiliary sound box in a first pairing mode according to the identity information. The main sound box is provided with a memory, if the main sound box and the auxiliary sound box are connected before, the memory stores the connected trace of the main sound box and the auxiliary sound box, namely the memory stores the identity information of the auxiliary sound box. The stored identity information and the received identity information can be compared, if the stored identity information and the received identity information are the same, the fact that the main sound box and the auxiliary sound box are in communication connection before is shown, and the main sound box and the auxiliary sound box are combined once to form stereo for use. Therefore, the sound channels of the main sound box and the consonant box are directly switched, so that the step of pairing connection is saved, and the pairing efficiency of the main sound box and the consonant box is improved.

Referring to fig. 3, a third embodiment of the present invention is proposed on the basis of the second embodiment of the present invention, in order to further improve the matching efficiency of the main sound box and the consonant box. The step that main speaker judges whether to pair with the consonant box for the first time according to identity information includes:

step S610, the main sound box compares the identity information of the auxiliary sound box with the locally stored identity information; the master loudspeaker box is provided with a memory, and the memory stores the identity information of other sound production units which are connected once, namely the identity information is locally stored in the master loudspeaker box. When the main sound box and the auxiliary sound box are judged to be connected for the first time, the locally stored identity information is extracted from the memory of the main sound box, and the received identity information of the auxiliary sound box is compared with the locally stored identity information of the main sound box, so that whether the main sound box and the auxiliary sound box are connected in a pairing mode for the first time is judged.

Step S611, when the comparison result is the same, the main sound box exits the pairing process and switches the sound channels; if the comparison result is the same, it indicates that the main sound box and the auxiliary sound box are paired and connected once, so that the pairing and connection process of the main sound box and the auxiliary sound box can be stopped, and the main sound box directly switches the sound channels, thereby improving the pairing efficiency.

And step S612, when the comparison results of the main sound boxes are different, continuing to execute the pairing process and updating the identity information of the auxiliary sound boxes to the local. If the comparison result is different, it indicates that the main sound box and the consonant box are paired and connected for the first time, in order to improve the connection efficiency when the main sound box and the consonant box are connected again, when the main sound box and the consonant box are paired and connected, the identity information of the consonant box is updated to the memory of the main sound box, so that the main sound box and the consonant box are connected next time, the process of pairing is saved, the pairing connection can be directly performed, and the pairing efficiency is improved.

Referring to fig. 4, a fourth embodiment of the present invention is proposed to accurately grasp the matching connection progress of the main speakers. After the step of the main sound box receiving the fed back pairing information, the method comprises the following steps:

and step S70, the main sound box updates the pairing state according to the pairing information and sends a pairing completion prompt. The pairing state is updated in time, connection between the main sound box and other sound generating units can be avoided, wherein the pairing state is updated mainly by updating the pairing state characters, for example, 0 represents that the main sound box is not in the connection state, 1 represents that the main sound box is already in the connection state, after the main sound box updates the pairing state characters to 1, other sound generating units are rejected by the main sound box after pairing requests are made to the main sound box, and connection disorder is avoided. After the pairing state is updated, the main sound box can send out a pairing completion prompt, for example, an LED is arranged in the main sound box, the prompt is carried out in a light flickering mode, a sound prompt mode can be adopted, and an intelligent voice prompt mode can be adopted. After receiving the prompt, the user can know that the main sound box completes the sound channel switching in time, and can play the sound by using the main sound box.

Referring to fig. 5, a fifth embodiment of the present invention is provided, before the step of sending the pairing request to the consonant boxes by the master speaker, including:

and step S80, the main sound box receives the pairing instruction, and enters a pairing mode according to the pairing instruction and generates a pairing request. The main sound box can be provided with a pairing key, a pairing instruction is generated after the pairing key is pressed down, the main sound box enters a pairing mode after receiving the pairing instruction, a pairing request is generated in the main sound box, and the pairing request is sent to the auxiliary sound box. In addition, it should be noted that the sounding component includes a remote control device, the pairing key can be arranged on the remote control device, when the main sound box and the consonant box need to be combined, the key is paired with the key, and the remote control device sends a pairing instruction to the main sound box.

Referring to fig. 6, a sixth embodiment of the present invention is provided, and the present invention further provides a method for pairing a sound generating assembly, where the sound generating assembly includes a main speaker and a consonant speaker, and the speaker may be a portable speaker which is convenient to move. The pairing method comprises the following steps:

s100, the consonant box receives a pairing request sent by the main sound box; the mutual communication between the main sound box and the sub sound box may utilize a Near Field communication technology, such as NFMI (Near Field Magnetic Induction) communication technology. When the consonant box receives the pairing request sent by the main sound box, the propagation of the signal is limited by the distance between the consonant box and the main sound box, or the intensity of the signal gradually attenuates in the process of signal propagation. Therefore, in the process of combining the main speaker and the sub-speaker to form stereo sound, the main speaker and the sub-speaker are usually close to each other. Can set up the distance interval of main audio amplifier and supplementary audio amplifier within 3 meters, at this distance within range, main audio amplifier and supplementary audio amplifier can effectual transmission sound. For example, the distance between the main sound box and the consonant box is 20 cm or 30 cm, and at the distance, the main sound box and the consonant box not only can effectively transmit signals, but also can form stereo sound with clearer sound, and can provide more shocking effects for users. After the auxiliary sound box receives the pairing request sent by the main sound box, the auxiliary sound box feeds back pairing information to the main sound box, and the pairing information comprises information that the auxiliary sound box can be in communication connection. The main sound box and the auxiliary sound box are respectively provided with an antenna, signal transmission is carried out through the antennas, the main sound box is internally provided with an NFMI chip, and the antennas transmit received signals to the NFMI chip. The main sound box is also provided with an SOC (System on Chip), the NFMI Chip and the SOC Chip are connected through an I2C interface, the NFMI Chip transmits the received signal to the SOC Chip through an I2C interface, and the SOC Chip can also transmit the generated signal out through the I2C interface, the NFMI Chip and the antenna in sequence. Likewise, an antenna, an NFMI chip, an I2C interface, and an SOC chip are also provided in the consonant box.

Step S200, the consonant box feeds back pairing information to the main sound box according to the pairing request, wherein the main sound box receives the fed pairing information, the main sound box performs sound channel switching according to the pairing information, and sends a pairing completion instruction to the consonant box; the pairing information comprises information that the auxiliary sound box can be in communication connection, the processor is arranged in the main sound box, and after the main sound box receives the fed-back pairing information, the processor analyzes and processes the pairing information so as to judge whether the main sound box can perform sound channel switching. And after the main sound box completes the sound channel switching, the main sound box sends a pairing completion instruction to the auxiliary sound box.

Step S300, the consonant box receives the pairing completion instruction and switches the sound channels according to the pairing completion instruction. And after the auxiliary sound box receives the completion instruction, the auxiliary sound box also switches the sound channels. For example, the main speakers are switched to the left channel and the consonant boxes are switched to the right channel, or the main speakers are switched to the right channel and the consonant boxes are switched to the left channel. Through the form of left and right sound channels, the sound can be more three-dimensional in the sound playing process, so that stereo sound is formed, and the pairing of the generating components is completed.

In the technical scheme provided by this embodiment, when the main speaker and the consonant box are combined, the main speaker sends a pairing request to the consonant box, and after the consonant box receives the pairing request, the consonant box feeds back pairing information to the main speaker. After the main sound box receives the pairing information, the main sound box performs sound channel switching, the main sound box sends a pairing completion instruction to the consonant box, the consonant box receives the pairing completion instruction, and the consonant box performs sound channel switching according to the pairing completion instruction. Therefore, the main sound box and the consonant box can complete the switching of sound channels, and the main sound box and the consonant box can be combined to form stereo. Therefore, the main sound box and the consonant box can be automatically combined to form stereo, the combination method is simple to operate, and the convenience of combination and pairing is effectively improved.

Referring to fig. 7, a seventh embodiment of the present invention is proposed on the basis of the sixth embodiment of the present invention, when the main sound box and the auxiliary sound box are combined, the main sound box and the auxiliary sound box may have been already paired and combined before, in order to improve the pairing efficiency of the main sound box and the auxiliary sound box. Before the step of the consonant box receiving the pairing request sent by the main sound box, the method comprises the following steps:

step S400, the consonant box receives the confirmation information sent by the main sound box; the confirmation information includes identity information of the main speaker and the information request instruction, and the identity information is mainly used for distinguishing each sound generating unit, that is, the identity information of each sound generating unit is unique. The identity information can be a combination of numbers, letters or a mixed combination of numbers and letters. Auxiliary sound box receiving

Step S500, the auxiliary sound box feeds back the identity information of the auxiliary sound box to the main sound box according to the confirmation information; after the consonant box receives the confirmation information, the consonant box feeds the identity information of the consonant box back to the main sound box according to the information request instruction, and the main sound box receives the identity information of the consonant box through the antenna.

And step S600, the consonant box judges whether to be connected with the main sound box in a pairing mode for the first time according to the confirmation information. The auxiliary sound box is provided with a memory, and if the auxiliary sound box and the main sound box are connected before, the memory stores the connected trace of the auxiliary sound box and the main sound box, namely the memory stores the identity information of the main sound box. The stored identity information can be compared with the received identity information, if the stored identity information is the same as the received identity information, the fact that the auxiliary sound box and the main sound box are in communication connection before is explained, and the auxiliary sound box and the main sound box are combined once to form stereo for use. So, supplementary audio amplifier and main audio amplifier directly carry out the sound channel and switch to save and pair the connection step, improve main audio amplifier and supplementary audio amplifier pair efficiency.

Referring to fig. 8, an eighth embodiment of the present invention is proposed on the basis of the seventh embodiment of the present invention. In order to further improve the matching efficiency of the main sound box and the auxiliary sound box. The confirmation information includes identity information of the main speaker.

The step that the consonant box judges whether to pair with the main speaker for the first time according to the confirmation information includes:

step S601, the identity information of the main sound box is compared with the locally stored identity information by the consonant box; the consonant box is provided with a memory, and the memory stores the identity information of other sound production units which are connected once, namely the identity information is locally stored in the consonant box. When the auxiliary sound box and the main sound box are judged to be connected for the first time, the identity information stored locally is extracted from the storage of the auxiliary sound box, and the received identity information of the main sound box and the identity information stored locally of the auxiliary sound box are compared, so that whether the auxiliary sound box and the main sound box are connected in a matching mode for the first time is judged.

Step S602, when the comparison result is the same, the auxiliary sound box exits the pairing process and switches the sound channels; if the comparison result is the same, it is described that the auxiliary sound box and the main sound box are paired and connected once, so that the pairing and connection process of the auxiliary sound box and the main sound box can be stopped, and the auxiliary sound box directly switches the sound channels, thereby improving the pairing efficiency.

And step S603, when the comparison results are different, continuing to execute the pairing process and updating the identity information of the main sound box to the local. If the comparison result is different, it indicates that the auxiliary sound box and the main sound box are paired and connected for the first time, in order to improve the connection efficiency when the auxiliary sound box and the main sound box are connected again, when the auxiliary sound box and the main sound box are paired and connected, the identity information of the main sound box is updated to the memory of the auxiliary sound box, so that the identification and pairing process is saved when the auxiliary sound box and the main sound box are connected next time, and the pairing connection can be directly performed, thereby improving the pairing efficiency. And after the auxiliary sound box completes the sound channel switching, the auxiliary sound box updates the pairing state and sends a pairing completion prompt. The pairing state is updated in time, connection between the auxiliary sound box and other sound generating units can be avoided, wherein the pairing state is updated mainly by updating the pairing state characters, for example, 0 represents that the auxiliary sound box is not in the connection state, 1 represents that the auxiliary sound box is in the connection state, and after the auxiliary sound box updates the pairing state characters to 1, other sound generating units are rejected by the auxiliary sound box after pairing requests are made to the auxiliary sound box, so that connection disorder is avoided. After the matching state is updated, the consonant box can send out a matching completion prompt, for example, an LED is arranged in the consonant box, the prompt is carried out in a light flashing mode, a sound prompt can be carried out, and an intelligent voice prompt can be carried out. After receiving the prompt, the user can timely know that the sound channel switching of the auxiliary sound box is finished, and can play sound by using the auxiliary sound box.

The invention also provides an audio system, the audio system comprises a sounding component, the sounding component comprises a main sound box and a consonant box, and the sounding component comprises: a memory, a processor, and a pairing program stored on the memory and executable on the processor; the pairing procedure, when executed by the processor, implements the steps of the pairing method as described above for the sound components. The memory and the processor can be arranged in the main sound box, and the memory and the processor can also be arranged in the auxiliary sound box. The main sound box and the consonant box are respectively provided with a processor and a memory, pairing programs are stored in the memories, and the pairing programs in the corresponding memories are executed through the processors of the main sound box or the consonant box. When the main sound box is adopted to execute the pairing operation, the main sound box and the auxiliary sound box are in wireless communication connection.

The specific implementation of the audio system of the present invention may refer to the embodiments of the pairing method for the sounding component, which are not described herein again.

The invention also provides a readable storage medium, wherein the readable storage medium stores a pairing program, and the pairing program realizes the steps of the pairing method of the sounding component when being executed by the processor. The processor may be located in the main sound box or in the consonant box. That is, the main speaker may perform the pairing method of the sound generating components, or the consonant speaker may perform the pairing method of the sound generating components.

The memory, which is a readable storage medium, may include a pairing program therein. The processor in the main speaker may be configured to call the pairing program stored in the memory, and perform the following operations related to the pairing program in the embodiment in which the main speaker is the control subject.

In addition, the processor in the auxiliary sound box may be configured to call the pairing program stored in the memory, and execute the following operations related to the pairing program in the embodiment in which the auxiliary sound box is used as the control subject.

The specific implementation of the readable storage medium of the present invention may refer to the embodiments of the pairing method for the sounding component, which are not described herein again.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or system 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 system. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other like elements in a process, method, article, or system that comprises the element.

The above-mentioned serial numbers of the embodiments of the present invention are merely for description and do not represent the merits of the embodiments.

Through the above description of the embodiments, those skilled in the art will clearly understand that the method of the above embodiments can be implemented by software plus a necessary general hardware platform, and certainly can also be implemented by hardware, but in many cases, the former is a better implementation manner. Based on such understanding, the technical solution of the present invention may be embodied in the form of a software product, which is stored in a storage medium (e.g., ROM/RAM, magnetic disk, optical disk) as described above and includes instructions for enabling a terminal device (e.g., a mobile phone, a computer, a server, or a network device) to execute the method according to the embodiments of the present invention.

The above description is only a preferred embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications and equivalents of the present invention, which are made by the contents of the present specification and the accompanying drawings, or directly/indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (11)

1. A pairing method of sounding components, wherein the sounding components comprise a main sound box and a consonant box, the pairing method comprising:

the method comprises the steps that a main sound box sends a pairing request to a secondary sound box, wherein the secondary sound box feeds back pairing information to the main sound box according to the pairing request;

the main sound box receives the fed-back pairing information;

and the main sound box performs sound channel switching according to the pairing information and sends a pairing completion instruction to the consonant box, wherein the consonant box performs sound channel switching according to the pairing completion instruction.

2. The method of pairing sound modules as claimed in claim 1, wherein the step of the master speaker sending a pairing request to the consonant speaker is preceded by the step of:

the main sound box sends confirmation information to the auxiliary sound box, wherein the auxiliary sound box feeds the identity information of the auxiliary sound box back to the main sound box according to the confirmation information;

the main sound box receives the fed back identity information of the auxiliary sound box;

and the main sound box judges whether to be connected with the auxiliary sound box in a pairing mode for the first time according to the identity information.

3. The method for matching sounding components according to claim 2, wherein the step of determining, by the master speaker, whether to match and connect with the consonant speaker for the first time according to the identity information includes:

the main sound box compares the identity information of the auxiliary sound box with locally stored identity information;

when the comparison results of the main sound boxes are the same, the main sound boxes exit the pairing process and carry out sound channel switching;

and when the comparison results of the main sound boxes are different, continuing executing the pairing process and updating the identity information of the auxiliary sound box to the local.

4. The method for pairing sound emitting assemblies according to any one of claims 1 to 3, wherein the step of receiving the pairing information fed back by the main sound box is followed by:

and the main sound box updates the pairing state according to the pairing information and sends a pairing completion prompt.

5. A method of pairing sound emitting assemblies according to any one of claims 1 to 3, wherein the step of the master loudspeaker sending a pairing request to the consonant loudspeakers is preceded by the step of:

the main sound box receives a pairing instruction, and enters a pairing mode according to the pairing instruction and generates a pairing request.

6. The method of pairing sound modules of claim 5, wherein the step of the master speaker sending a pairing request to the consonant boxes comprises:

and the main sound box sends a pairing request to the auxiliary sound box through a near-magnetic field induction technology.

7. A pairing method of sounding components, wherein the sounding components comprise a main sound box and a consonant box, the pairing method comprising:

the auxiliary sound box receives a pairing request sent by the main sound box;

the consonant box feeds back pairing information to the main sound box according to the pairing request, wherein the main sound box receives the fed-back pairing information, and the main sound box switches sound channels according to the pairing information and sends a pairing completion instruction to the consonant box;

and the consonant box receives the pairing completion instruction and performs sound channel switching according to the pairing completion instruction.

8. The method for pairing sound modules according to claim 7, wherein the step of receiving the pairing request from the primary speaker by the secondary speaker is preceded by the steps of:

the auxiliary sound box receives confirmation information sent by the main sound box;

the auxiliary sound box feeds back the identity information of the auxiliary sound box to the main sound box according to the confirmation information;

and the consonant box judges whether to be connected with the main sound box in a pairing mode for the first time according to the confirmation information.

9. The method for pairing sound emitting modules according to claim 8, wherein the confirmation information includes identity information of the main sound box;

the step that the consonant box judges whether to pair with the main sound box for the first time according to the confirmation information comprises the following steps:

the auxiliary sound box compares the identity information of the main sound box with locally stored identity information;

when the comparison result is the same, the auxiliary sound box exits the pairing process and switches the sound channels;

and when the comparison results are different, the auxiliary sound box continues to execute the pairing process and updates the identity information of the main sound box to the local.

10. The utility model provides an audio system, its characterized in that, audio system includes the sound production subassembly, the sound production subassembly includes main audio amplifier and consonant case, the sound production subassembly includes: a memory, a processor, and a pairing program stored on the memory and executable on the processor; the pairing procedure, when executed by the processor, implements the steps of the method of pairing the sound emitting assemblies of any one of claims 1 to 9.

11. A readable storage medium, characterized in that the readable storage medium has stored thereon a pairing program, which when executed by a processor implements the steps of the method of pairing the sound emitting assemblies according to any one of claims 1 to 9.

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