CN115769597A

CN115769597A - Integrated hearing system and control method

Info

Publication number: CN115769597A
Application number: CN202080101624.6A
Authority: CN
Inventors: 马雷; 马佳弘; 张米乐; 赵佑铭
Original assignee: Leiming Technology Co ltd
Current assignee: Leiming Technology Co ltd
Priority date: 2020-06-02
Filing date: 2020-06-02
Publication date: 2023-03-07
Also published as: WO2021243560A1

Abstract

The invention provides an integrated auditory system and a control method, wherein the system comprises an entry type bone conduction sound production device, a non-entry type bone conduction sound production device, a loudspeaker device and a control device; the control device is in communication with the inlet bone conduction sound-emitting device, the non-inlet bone conduction sound-emitting device and the loudspeaker device in a wireless mode and/or a wired mode respectively, and is used for determining a device to be played from the inlet bone conduction sound-emitting device, the non-inlet bone conduction sound-emitting device and the loudspeaker device and starting the device to be played according to the related information of the sound source to be played; the invention integrates the inlet type bone conduction sound production device, the non-inlet type bone conduction sound production device and the loudspeaker device into a whole, thereby simply and conveniently realizing the purpose of enjoying surround sound effect anytime and anywhere and improving the user experience.

Description

Integrated hearing system and control method

Technical Field

The present application relates to the field of electronic technologies, and in particular, to an integrated auditory system and a control method thereof.

Background

With the development of electronic technology, surround sound equipment is generally used to better enjoy music or movies and enhance the user's presence.

However, the existing surround sound equipment is huge and is not easy to move, so that a user cannot enjoy the surround sound effect anytime and anywhere, and the user experience is poor.

Therefore, there is a need for a new integrated hearing system to enable users to enjoy surround sound effects anytime and anywhere.

Disclosure of Invention

In view of the above problems, the present invention provides an integrated auditory system and a control method.

In a first aspect, the present invention provides an integrated hearing system comprising: the system comprises an entrance bone conduction sound production device, a non-entrance bone conduction sound production device, a loudspeaker device and a control device; wherein, controlling means through wireless mode and/or wired mode respectively with the sound generating mechanism of entry formula osteoacusis, the sound generating mechanism and the speaker communication of non-entry formula osteoacusis, be used for following confirm the device of treating the broadcast among the sound generating mechanism of entry formula osteoacusis, the sound generating mechanism and the speaker of non-entry formula osteoacusis, and according to treat the relevant information of the sound source of broadcast, start treat the device of broadcast.

In other alternative embodiments, the control device is specifically configured to determine and drive the device to be played from the sound generating device of the inlet bone conduction, the sound generating device of the non-inlet bone conduction and the speaker device according to the type of the sound source to be played.

In other optional embodiments, the control device is specifically configured to determine and drive the device to be played from the inlet bone conduction sound-generating device, the non-inlet bone conduction sound-generating device, and the speaker device according to a position of the non-inlet bone conduction sound-generating device attached to the head of the human body and/or a position of the inlet bone conduction sound-generating device in the oral cavity of the human body.

In other optional embodiments, the control device is specifically configured to determine and drive the device to be played from the sound generating device of the entry type bone conduction, the sound generating device of the non-entry type bone conduction and the speaker device according to the position of the sound generating device of the non-entry type bone conduction attached to the head of the human body, the position of the sound generating device of the entry type bone conduction in the oral cavity of the human body, and/or the type of the user corresponding to the human body.

In other optional embodiments, the control device is further configured to sense an ambient sound of the human body, and increase or decrease the volume of the bone-conduction sound generating device, and/or the speaker device according to the ambient sound.

In other alternative embodiments, the entry bone conduction sound emitting device and/or the non-entry bone conduction sound emitting device is one of: an electromagnetic bone conduction device or a piezoelectric bone conduction sound production device.

In other optional embodiments, the apparatus further comprises a microphone, and the control device is further configured to acquire a voice signal through the microphone, and determine, according to the voice signal, a device to be played from the entry bone conduction sound generating device, the non-entry bone conduction sound generating device, and the speaker device; or, the control device is further configured to acquire a voice signal through the microphone, and start the device to be played according to the voice signal and the information related to the sound source to be played.

In other optional embodiments, the information about the audio source to be played includes: channel information and/or volume information.

In other alternative embodiments, the control device is a microphone.

In a second aspect, the present invention provides an integrated auditory control method comprising: determining a device to be played from the ingress bone conduction sound emitting device, the non-ingress bone conduction sound emitting device and the speaker device; and starting the device to be played according to the related information of the sound source to be played.

In another alternative embodiment, the determining the device to be played from the entry bone conduction sound generator, the non-entry bone conduction sound generator and the speaker device includes: and according to the type of the sound source to be played, determining a device to be played from the inlet type bone conduction sound production device, the non-inlet type bone conduction sound production device and the loudspeaker device.

In another alternative embodiment, the determining the device to be played from the entry bone conduction sound generator, the non-entry bone conduction sound generator and the speaker device includes: according to the position of the non-entrance type bone conduction sound-generating device fitting the head of the human body and/or the position of the entrance type bone conduction sound-generating device in the oral cavity of the human body, the device to be played is determined in the entrance type bone conduction sound-generating device, the non-entrance type bone conduction sound-generating device and the loudspeaker device.

In another alternative embodiment, the determining the device to be played from the entry bone conduction sound generator, the non-entry bone conduction sound generator and the speaker device includes: according to the position of the non-entry bone conduction sound-generating device fitting human head, the entry bone conduction sound-generating device is in the position in the human oral cavity, and/or the type of the human body corresponding user, the device to be played is determined in the entry bone conduction sound-generating device, the non-entry bone conduction sound-generating device and the loudspeaker device.

In other optional embodiments, the method further comprises: sensing the human body ambient environment sound; increasing or decreasing the volume of the entry bone conduction sound emitting device, the non-entry bone conduction sound emitting device, and/or the speaker device according to the ambient sound.

In other optional embodiments, the method further comprises: acquiring a voice signal through a microphone, and determining a device to be played from the inlet type bone conduction sound production device, the non-inlet type bone conduction sound production device and the loudspeaker device according to the voice signal; or, acquiring a voice signal through the microphone, and starting the device to be played according to the voice signal and the related information of the sound source to be played.

In other alternative embodiments, the control device is a microphone.

In other optional embodiments, the information about the audio source to be played includes: channel information and/or volume information. The invention provides an integrated auditory system and a control method, wherein the system comprises an entry type bone conduction sound production device, a non-entry type bone conduction sound production device, a loudspeaker device and a control device; the control device is in communication with the inlet bone conduction sound-emitting device, the non-inlet bone conduction sound-emitting device and the loudspeaker device in a wireless mode and/or a wired mode respectively, and is used for determining a device to be played from the inlet bone conduction sound-emitting device, the non-inlet bone conduction sound-emitting device and the loudspeaker device and starting the device to be played according to the related information of the sound source to be played; the invention integrates the inlet type bone conduction sound production device, the non-inlet type bone conduction sound production device and the loudspeaker device into a whole, thereby simply and conveniently realizing the purpose of enjoying the surround sound effect anytime and anywhere and improving the user experience.

Drawings

Fig. 1 is a schematic structural diagram of an integrated hearing system according to an example of the present invention;

fig. 2 is a schematic diagram of the use of an integrated hearing system according to an example of the present invention;

fig. 3 is a schematic diagram of another integrated hearing system according to an example of the present invention;

FIG. 4 is a schematic diagram of another integrated hearing system according to an example of the present invention;

FIG. 5 is a schematic flow chart of an integrated hearing control method according to the present invention;

fig. 6 is a schematic diagram of a hardware structure of a control device according to the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the technical solutions in the examples of the present invention will be clearly and completely described below with reference to the accompanying drawings in the examples of the present invention.

The terms to which the present invention relates will be explained first:

bone conduction sounding: the present invention relates to a technique for transmitting a sound signal directly to the auditory system of a human or other living body through biological tissues such as skin tissue, muscle tissue, teeth, and bones by means of vibration, and allowing the auditory system to receive the vibration signal and perceive the vibration signal as sound without transmitting sound waves through the air. The earphone manufactured by using the bone conduction sounding technology is generally called a bone conduction earphone, and the bone conduction earphone can convert an electric signal emitted by the media playing device into vibration corresponding to sound.

And (3) conducting and sounding by gas: the technology refers to a technology that sound signals are transmitted to the external ear of a person or other living beings in the air in the form of sound waves, the eardrum is caused to vibrate, then the sound signals enter the cochlea through the ossicular chain and the oval window membrane, and the sound signals are perceived as sound. The common earphone utilizes the air conduction sound production technology, namely, a micro loudspeaker is arranged in the earphone to convert an electric signal sent by a media player into sound waves.

With the development of electronic technology, in order to better enjoy music or movies and enhance the presence of users, surround sound devices, such as large sound devices in movie theaters and home theaters, are usually adopted, so that the existing surround sound devices are bulky and difficult to move, users cannot enjoy surround sound effects anytime and anywhere, and the user experience is poor.

The conventional stereo earphone which can be carried by a user is a common earphone and comprises a left sound channel and a right sound channel, wherein a micro loudspeaker is arranged in each sound channel, and two paths of different electric signals are converted into sound waves and then are transmitted into the left ear and the right ear of the user. However, the sound that can be distinguished by human ears is far from two directions, i.e. the traditional stereo earphone has poor stereo effect.

In view of the above technical problems, the technical idea of the present invention is to provide an integrated auditory system integrating a wearable sound-generating device integrated with entry bone conduction, a non-entry bone conduction sound-generating device, a speaker and a control device, so that a user can enjoy surround sound effect anytime and anywhere, and user experience is improved.

In a first aspect, the invention provides an integrated hearing system. Fig. 1 is a schematic structural diagram of an integrated hearing system according to an example of the present invention, as shown in fig. 1, the integrated hearing system includes:

an entry bone conduction sound emitting device 11, a non-entry bone conduction sound emitting device 12, a speaker device 13, and a control device 14. The control device 14 communicates with the sound generating device 11, the sound generating device 12 and the speaker 13 of the entry bone conduction, the non-entry bone conduction, and the speaker 13 of the entry bone conduction in a wireless manner and/or a wired manner, so as to determine a device to be played from the sound generating device 11, the sound generating device 12 and the speaker 13 of the entry bone conduction, and start the device to be played according to the related information of the sound source to be played. Optionally, the inlet bone conduction sound emitting devices 11 may be dental bone conduction earphones, the number of which is more than 1, and the earphones are distributed at different positions of the teeth. The non-entrance bone conduction sound generating devices 12 can be ordinary bone conduction earphones, the number of which is more than 1, and the sound generating devices are distributed at different positions of the top of the head, the back of the ears and the like of the human body. The loud speaker devices 13 may be ordinary loud speaker earphones, i.e. the above mentioned ordinary earphones, the number of which is 1 or 2, and the ordinary loud speaker earphones are distributed at the left and right ears of the human body. The control device 14 may be a dedicated control device, such as a central control unit, or may be a general-purpose device with a control function, such as a mobile terminal, such as a mobile phone and a tablet computer.

In addition, it should be noted that various different sound sources are stored in the control device 14, or an external interface is provided on the control device 14, and is used for connecting with other external devices to realize playing of sound sources on other external devices; the External interface may be a Universal Serial Bus (USB) interface in various forms, such as a TYPE a (TYPE-a) interface, a TYPE B (TYPE-B) interface, a TYPE C (TYPE-C) interface, an External Serial data (eSATA) interface, a Secure Digital Card (SD) interface, a micro SD Card (TF) interface, an audio interface, a video interface, a Wireless Fidelity (WiFi) interface, a bluetooth interface, a network port, a telephone port, a broadcast antenna, and the like. In this embodiment, the control device 14 is connected to the entry bone conduction sound emitting device 11, the non-entry bone conduction sound emitting device 12, and the speaker 13 wirelessly (for example, bluetooth, wiFi) or in a wired manner, respectively, so as to output a control instruction to at least one of the sound emitting devices, and determine that at least one of the sound emitting devices serves as a device to be played; the control device 14 processes the internally stored sound source or the received external sound source, divides the processed sound source into multiple output signals corresponding to the bone-conduction sound generating device 11, the non-bone-conduction sound generating device 12 or the speaker device 13, and controls the corresponding bone-conduction sound generating device 11, the non-bone-conduction sound generating device 12 or the speaker device 13 to generate corresponding vibration or sound according to the related information such as the sound channel or volume of each signal.

Optionally, the information about the sound source to be played includes: channel information and/or volume information.

Specifically, the device to be played may be started according to the sound track information or the volume information of the sound source. For example, if the control device 14 divides the sound source into several channels of sound track information, the device to be played is driven according to the sound track information; or, the device to be played is determined according to the volume, for example, if the volume is large, the sound generating device 11 of the portal bone conduction can be started to generate sound, and if the volume is small, the speaker 13 can be started to generate sound.

For example, fig. 2 is a schematic usage diagram of an integrated hearing system according to an example of the present invention, as shown in fig. 2, the integrated hearing system includes a central control unit A1, normal bone conduction earphones A2 and A3, normal loud speakers A4 and A5, and dental bone conduction earphones A6 and A7, where the central control unit A1 is wirelessly connected to the normal bone conduction earphones A2 and A3, the normal loud speakers A4 and A5, and the dental bone conduction earphones A6 and A7, respectively.

When the earphone is used, if the central control machine A1 determines that all earphones are devices to be played, the central control machine A1 processes the audio signals stored in the central control machine A1 and divides the audio signals into six paths of electric signals, namely left-back electric signals, right-left electric signals, right-right electric signals, left-front electric signals and right-front electric signals; then, six paths of electric signals are respectively sent to the common bone conduction earphones A2 and A3, the common loudspeaking earphones A4 and A5 and the dental bone conduction earphones A6 and A7 in a wireless mode, the common loudspeaking earphones A4 and A5 are controlled to generate corresponding sounds, the common bone conduction earphones A2 and A3 and the dental bone conduction earphones A6 and A7 are controlled to generate corresponding vibrations, and therefore the purpose that a user can hear the sounds or think that the sounds are heard through an air conduction or bone conduction mode is achieved, and finally a six-channel stereo effect is formed.

If the central control machine A1 determines that the common bone conduction earphone A2 and the common speaker earphone A4 are to-be-played devices, the central control machine A1 processes an audio signal stored inside, divides the audio signal into two paths of signals, and sends the two paths of signals to the common bone conduction earphone A2 and the common speaker earphone A4 respectively, so that a stereo effect of two sound channels is formed.

It should be noted that other numbers of bone conduction earphones and common speaker earphones can also be determined as the device to be played, which is not described herein again for example.

As an alternative embodiment, the control device 14 is specifically configured to determine and drive the device to be played from the inlet type bone conduction sound emitting device 11, the non-inlet type bone conduction sound emitting device 12 and the speaker 13 according to the type of the sound source to be played.

In this embodiment, the device to be played may also be determined according to the type of the sound source. Specifically, the sound source may be divided into various types such as light music and rock music, when the user selects light music, a stereo effect may not be needed, and the control device 14 may control one of the sound generating devices, for example, a common speaker headset, as a device to be played and drive the sound generating device to generate sound according to the type of the selected sound source as light music; when the user selects rock music, at which time a stereo effect is required for better hearing effect, the control device 14 may control all the sound generating devices as the devices to be played and drive them to generate sound according to the type of the sound source selected as rock music.

It should be noted that, which sounding devices are determined to be used as devices to be played and driven according to the types of the sound sources may be set by user definition or according to experience of a person skilled in the art, which is not limited in the present invention.

As an alternative embodiment, the control device 14 is specifically configured to determine and drive the device to be played from the inlet bone conduction sound generating device 11, the non-inlet bone conduction sound generating device 12 and the speaker 13 according to the position of the non-inlet bone conduction sound generating device 12 fitting the head of the human body and/or the position of the inlet bone conduction sound generating device 11 in the oral cavity of the human body.

In this embodiment, the device to be played may also be determined according to the position of the non-portal bone conduction sound generating device 12 attached to the head of the human body and/or the position of the portal bone conduction sound generating device 11 in the oral cavity of the human body. For example, when it is detected that the sound generating device 12 of non-portal bone conduction is not attached to the head or is not in a preset position of the head (such as behind the ear, etc.), the sound generating device 11 of portal bone conduction and/or the speaker 13 may be determined as a device to be played and driven to generate sound; if the sound generating device 12 of non-portal bone conduction is detected to be fitted behind the ear, the sound generating device 11 of non-portal bone conduction is determined as the device to be played, and is driven to generate sound. For another example, when it is detected that the entry bone conduction sound emission device 11 is not in the oral cavity, or is not in a preset position in the oral cavity, such as the posterior alveolar teeth, the non-entry bone conduction sound emission device 12 and/or the speaker 13 may be determined as a device to be played and driven to emit sound; if the entry bone conduction sound-emitting device 11 is located at the posterior alveolar tooth, the entry bone conduction sound-emitting device 11 is determined as a device to be played and is driven to emit sound. For example, if the sound emission device 12 of the non-portal bone conduction is not attached to the head and the sound emission device 11 of the portal bone conduction is not in the mouth, the speaker 13 is determined as the device to be played and is driven to emit sound.

It should be noted that, which devices are to be used as devices to be played and driven is determined according to the positions of the non-portal bone conduction sound emitting device 12 and/or the portal bone conduction sound emitting device 11, and the determination may be set according to user definition or experience of a person skilled in the art, which is not limited in the present invention.

As an alternative embodiment, the control device 14 is specifically configured to determine and drive the device to be played from the entry bone conduction sound emitting device 11, the non-entry bone conduction sound emitting device 12 and the speaker 13 according to the position of the non-entry bone conduction sound emitting device 12 fitting the head of the human body, the position of the entry bone conduction sound emitting device 11 in the oral cavity of the human body, and/or the type of the user corresponding to the human body.

In this embodiment, in addition to determining the device to be played according to the position of the non-portal bone conduction sound generating device 12 attached to the head of the human body and the position of the portal bone conduction sound generating device 11 in the oral cavity of the human body, the user type corresponding to the human body is considered. For example, whether the user type corresponding to the human body is an adult or a child can be determined by detecting the head circumference of the human body, and if the user type is determined to be an adult, all the sound-generating devices can be controlled to be used as devices to be played and driven to generate sound; if the child is determined to be a child, since the cochlea of the child may not be completely developed, in order to prevent the sound emitted by the speaker 13 from damaging the cochlea of the child, the non-portal bone conduction sound emitting device 12 and/or the portal bone conduction sound emitting device 11 may be determined to be a device to be played and driven to emit sound.

It should be noted that, which devices are determined and driven as the device to be played according to the position of the sound generating device 12 and/or the sound generating device 11 for non-portal bone conduction and the user type corresponding to the human body may be set according to user definition or according to experience of a person skilled in the art, which is not limited by the present invention.

As an alternative embodiment, the control device 14 is further configured to sense the ambient sound of the human body, and increase or decrease the volume of the bone-conduction sound generating device 11, the bone-conduction sound generating device 12, and/or the speaker 13 according to the ambient sound.

In this embodiment, the volume levels of the inlet bone conduction sound generator 11, the non-inlet bone conduction sound generator 12, and/or the speaker 13 may be controlled according to the ambient sound. Specifically, when the surrounding environment is detected to be noisy, the volume of the inlet bone conduction sound emitting device 11, the non-inlet bone conduction sound emitting device 12, and/or the speaker 13 may be increased; when the surrounding environment is relatively quiet, the sound volume of the inlet bone conduction sound emitting device 11, the non-inlet bone conduction sound emitting device 12, and/or the speaker 13 may be appropriately reduced.

As an alternative embodiment, the entry bone conduction sound generator 11 and/or the non-entry bone conduction sound generator 12 is one of the following: an electromagnetic bone conduction device or a piezoelectric bone conduction sound production device.

As an alternative embodiment, the control device 14 is a microphone. Specifically, when the control device 14 is a microphone, the microphone directly acquires a voice signal input by a user and controls the system, for example: the microphone receives a selected instruction input by a user, and determines a device to be played from the inlet type bone conduction sound production device 11, the non-inlet type bone conduction sound production device 12 and the loudspeaker device 13; or the microphone receives a playing instruction input by a user and starts a device to be played; or the microphone receives a sound source processing instruction input by the user, controls the volume of the sound source, switches the previous song or the next song of the sound source, and the like.

The integrated hearing system provided by the embodiment of the invention comprises an entrance type bone conduction sound production device, a non-entrance type bone conduction sound production device, a loudspeaker device and a control device; the control device is in communication with the entry bone conduction sound production device, the non-entry bone conduction sound production device and the loudspeaker device in a wireless mode and/or a wired mode respectively, and is used for determining a device to be played from the entry bone conduction sound production device, the non-entry bone conduction sound production device and the loudspeaker device and starting the device to be played according to the relevant information of the sound source to be played; in the embodiment of the invention, the sound generating device of the entrance bone conduction, the sound generating device of the non-entrance bone conduction and the loudspeaker device are integrated, so that the surround sound effect can be enjoyed at any time and any place simply and conveniently, and the user experience is improved.

With reference to the foregoing embodiments, fig. 3 is a schematic structural diagram of another integrated hearing system provided by an example of the present invention, as shown in fig. 3, the integrated hearing system includes:

an entry bone conduction sound emitting device 11, a non-entry bone conduction sound emitting device 12, a speaker 13, a control device 14, and a microphone 15; the control device 14 is in communication with the entry bone conduction sound-emitting device 11, the non-entry bone conduction sound-emitting device 12 and the speaker 13 in a wireless manner and/or a wired manner, and is configured to determine a device to be played from the entry bone conduction sound-emitting device 11, the non-entry bone conduction sound-emitting device 12 and the speaker 13, and start the device to be played according to the sound source to be played; the control device 14 is further configured to acquire a voice signal through the microphone 15, and determine a device to be played from the entry type bone conduction sound production device 11, the non-entry type bone conduction sound production device 12 and the speaker 13 according to the voice signal; or, the control device 14 is further configured to acquire a voice signal through the microphone 15, and start the device to be played according to the voice signal and the information related to the sound source to be played.

The implementations of the inlet bone conduction sound emitting device 11, the non-inlet bone conduction sound emitting device 12, the speaker 13 and the control device 14 in this embodiment are similar to the foregoing embodiments, and are not described herein again.

Unlike the previous embodiment, in this embodiment, in addition to the control device 14, the microphone 15 is provided, that is, the microphone 15 is only used for acquiring the voice signal of the user, and there is no control function, that is, the microphone 15 transmits the acquired voice signal to the control device 14, and the control device 14 controls the system according to the voice signal. In the present embodiment, the control device 14 is further configured to acquire a voice signal through the microphone 15, and determine a device to be played from the sound generating device 11 of the portal bone conduction, the sound generating device 12 of the non-portal bone conduction and the speaker 13 according to the voice signal; or, the control device 14 is further configured to acquire a voice signal through the microphone 15, and start the device to be played according to the voice signal and the related information of the sound source to be played. Specifically, the microphone 15 is connected with the control device 14 in a wireless and/or wired manner, the microphone 15 acquires a voice operation instruction input by a user and transmits the acquired voice operation instruction to the control device 14, and the control device 14 executes corresponding operation according to the voice operation instruction to determine a device to be played from the entry type bone conduction sound generating device 11, the non-entry type bone conduction sound generating device 12 and the loudspeaker device 13; or starting the device to be played.

Alternatively, the microphone 15 may be independent of the sound generating device 11 for entry bone conduction, the sound generating device 12 for non-entry bone conduction and the speaker 13, or may be integrated with one of the sound generating devices.

In addition, the microphone 15 can also enable the integrated hearing system to realize the functions of a telephone and an interphone.

For example, fig. 4 is a schematic usage diagram of another integrated hearing system according to an example of the present invention, as shown in fig. 4, the integrated hearing system includes a central controller B1, a normal speaker B2, a dental bone conduction headset B3, and a microphone B4, and a normal bone conduction headset (not shown in fig. 4), wherein the central controller A1 is wirelessly connected to the dental bone conduction headset B3, the normal speaker B2 and the microphone B4 are connected by wires, and the microphone B4 is integrated with the normal speaker B2.

When the device is used, a user can input an instruction for determining a device to be played to the central control computer B1 through the microphone B4, and if the common loudspeaking earphone B2 and the dental bone conduction earphone B3 are determined to be the devices to be played, the central control computer B1 processes an audio signal stored inside and divides the audio signal into a left electric signal and a right electric signal; then send to ordinary earphone B2 of raising one's voice and bone conduction earphone B3 for the tooth respectively through audio interface all the way and bluetooth interface all the way, produced corresponding sound or vibration to realized letting the people hear the sound or think that hear the sound through the mode of air conduction or bone conduction, formed the stereo effect of two sound channels.

In addition, when the embodiment shown in fig. 4 is used, only one common speaker B2 is provided, so that the user can listen to the stereo effect and simultaneously have the other ear to take care of the surrounding environment, thereby realizing the music enjoyment and safety.

On the basis of the foregoing embodiment, the control device is further configured to acquire a voice signal through a microphone, and determine a device to be played from the entry bone conduction sound generating device, the non-entry bone conduction sound generating device, and the speaker device according to the voice signal; or the control device is further configured to acquire a voice signal through the microphone, and start the device to be played according to the voice signal and the information related to the sound source to be played; different operations are executed according to the user instruction, and user experience is further improved.

In a second aspect, the present invention provides an integrated hearing control method, and fig. 5 is a schematic flow chart of the integrated hearing control method according to the present invention, as shown in fig. 5, the integrated hearing control method includes:

step 101, determining a device to be played from the sound generating device of the entry bone conduction, the sound generating device of the non-entry bone conduction and the loudspeaker device.

And step 102, starting the device to be played according to the relevant information of the sound source to be played.

In other optional embodiments, the method further comprises: acquiring a voice signal through a microphone, and determining a device to be played from the inlet type bone conduction sound production device, the non-inlet type bone conduction sound production device and the loudspeaker device according to the voice signal; or acquiring a voice signal through the microphone, and starting the device to be played according to the voice signal and the related information of the sound source to be played.

In other alternative embodiments, the control device is a microphone.

It should be noted that the main execution body of the control method of the present embodiment is the integrated auditory system described in any one of the foregoing embodiments. It can be clearly understood by those skilled in the art that, for convenience and brevity of description, the specific working process and corresponding beneficial effects of the above-described integrated auditory control method may refer to the corresponding process in the foregoing integrated auditory system example, and are not described herein again.

The integrated hearing control method provided by the invention determines a device to be played from the inlet type bone conduction sound production device, the non-inlet type bone conduction sound production device and the loudspeaker device; according to the related information of the sound source to be played, the device to be played is started, so that the surround sound effect can be enjoyed at any time and any place simply and conveniently, and the user experience is improved.

In a third aspect, an example of the present invention provides a control device, and fig. 6 is a schematic diagram of a hardware structure of the control device provided in the present invention, as shown in fig. 6, including:

at least one processor 601 and memory 602.

In a specific implementation, the at least one processor 601 executes computer-executable instructions stored by the memory 602 to cause the at least one processor 601 to perform the integrated auditory control method as described above, wherein the processor 601 and the memory 602 are connected by a bus 603.

For a specific implementation process of the processor 601, reference may be made to the above method embodiments, which implement the principle and the technical effect similarly, and details of this embodiment are not described herein again.

In the embodiment shown in fig. 6, it should be understood that the Processor may be a Central Processing Unit (CPU), other general purpose processors, a Digital Signal Processor (DSP), an Application Specific Integrated Circuit (ASIC), etc. A general purpose processor may be a microprocessor or the processor may be any conventional processor or the like. The steps of a method disclosed in connection with the present invention may be embodied directly in a hardware processor, or in a combination of hardware and software modules.

The memory may comprise high speed RAM memory and may also include non-volatile storage NVM, such as at least one disk memory.

The bus may be an Industry Standard Architecture (ISA) bus, a Peripheral Component Interconnect (PCI) bus, an Extended ISA (EISA) bus, or the like. The bus may be divided into an address bus, a data bus, a control bus, etc. For ease of illustration, the buses in the figures of the present application are not limited to only one bus or one type of bus.

In a fourth aspect, the present invention also provides a readable storage medium having stored therein computer executable instructions which, when executed by a processor, implement the integrated auditory control method as described above.

The readable storage medium described above may be implemented by any type of volatile or non-volatile memory device or combination thereof, such as Static Random Access Memory (SRAM), electrically erasable programmable read-only memory (EEPROM), erasable programmable read-only memory (EPROM), programmable read-only memory (PROM), read-only memory (ROM), magnetic memory, flash memory, magnetic or optical disk. Readable storage media can be any available media that can be accessed by a general purpose or special purpose computer.

An exemplary readable storage medium is coupled to the processor such the processor can read information from, and write information to, the readable storage medium. Of course, the readable storage medium may also be an integral part of the processor. The processor and the readable storage medium may reside in an Application Specific Integrated Circuits (ASIC). Of course, the processor and the readable storage medium may also reside as discrete components in the apparatus.

Those of ordinary skill in the art will understand that: all or a portion of the steps of implementing the above-described method embodiments may be performed by hardware associated with program instructions. The program may be stored in a computer-readable storage medium. When executed, the program performs steps comprising the method embodiments described above; and the aforementioned storage medium includes: various media that can store program codes, such as ROM, RAM, magnetic or optical disks.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.

Claims

An integrated hearing system, comprising: the system comprises an entrance bone conduction sound production device, a non-entrance bone conduction sound production device, a loudspeaker device and a control device; wherein the content of the first and second substances,

controlling means through wireless mode and/or wired mode respectively with the sound generating mechanism of entry formula osteoacusis, the sound generating mechanism and the speaker communication of non-entry formula osteoacusis for follow confirm the device of treating the broadcast among the sound generating mechanism of entry formula osteoacusis, the sound generating mechanism and the speaker of non-entry formula osteoacusis, and according to treat the relevant information of the sound source of broadcast, start treat the device of broadcast.
The integrated hearing system according to claim 1, wherein the control means is specifically configured to determine and drive the device to be played from among the ingress bone-conduction sound generator, non-ingress bone-conduction sound generator and speaker, depending on the type of the audio source to be played.
The integrated hearing system according to claim 1, wherein the control device is configured to determine and drive the device to be played from the inlet bone-conduction sound generator, the non-inlet bone-conduction sound generator, and the speaker device according to a position of the non-inlet bone-conduction sound generator on the head of the human body and/or a position of the inlet bone-conduction sound generator in the oral cavity of the human body.
The integrated hearing system according to claim 1, wherein the control device is configured to determine and drive the device to be played from the inlet bone-conduction sound generator, the non-inlet bone-conduction sound generator, and the speaker according to a position of the non-inlet bone-conduction sound generator on the head of the human body, a position of the inlet bone-conduction sound generator in the oral cavity of the human body, and/or a type of the user corresponding to the human body.
The integrated hearing system according to any one of claims 1 to 4, wherein the control device is further configured to sense ambient sounds of the human body and increase or decrease the volume of the inlet bone-conduction sound generator, the non-inlet bone-conduction sound generator, and/or the speaker based on the ambient sounds.
The integrated hearing system according to any one of claims 1 to 4, wherein the entry bone conduction sound generator and/or the non-entry bone conduction sound generator is one of: an electromagnetic bone conduction device or a piezoelectric bone conduction sound production device.
The integrated hearing system according to any one of claims 1 to 4, further comprising: the control device is also used for acquiring a voice signal through the microphone and determining a device to be played from the inlet type bone conduction sound production device, the non-inlet type bone conduction sound production device and the loudspeaker device according to the voice signal;

alternatively, the first and second electrodes may be,

the control device is also used for acquiring a voice signal through the microphone and starting the device to be played according to the voice signal and the related information of the sound source to be played.
The integrated hearing system according to claim 1, wherein the information about the sound source to be played comprises: channel information and/or volume information.
An integrated hearing system according to any of the claims 1-4, where the control means is a microphone.
An integrated auditory control method, comprising:

determining a device to be played from the ingress bone conduction sound emitting device, the non-ingress bone conduction sound emitting device and the speaker device;

and starting the device to be played according to the related information of the sound source to be played.
The integrated hearing control method of claim 10 wherein determining the device to be played from among the entry bone conduction sound emitting device, the non-entry bone conduction sound emitting device and the speaker device comprises:

and according to the type of the sound source to be played, determining a device to be played from the inlet type bone conduction sound production device, the non-inlet type bone conduction sound production device and the loudspeaker device.
The integrated auditory control method of claim 10 wherein determining the device to be played from among the portal bone conduction sound generator, non-portal bone conduction sound generator and speaker comprises:

according to the position of the non-entrance type bone conduction sound-generating device fitting the head of the human body and/or the position of the entrance type bone conduction sound-generating device in the oral cavity of the human body, the device to be played is determined in the entrance type bone conduction sound-generating device, the non-entrance type bone conduction sound-generating device and the loudspeaker device.
The integrated auditory control method of claim 10 wherein determining the device to be played from among the portal bone conduction sound generator, non-portal bone conduction sound generator and speaker comprises:

according to the position of the non-entry bone conduction sound-generating device fitting human head, the entry bone conduction sound-generating device is in the position in the human oral cavity, and/or the type of the human body corresponding user, the device to be played is determined and driven in the entry bone conduction sound-generating device, the non-entry bone conduction sound-generating device and the loudspeaker device.
The integrated auditory control method according to any of claims 10 to 13, further comprising:

sensing the human body ambient environment sound;

increasing or decreasing the volume of the entry bone conduction sound emitting device, the non-entry bone conduction sound emitting device, and/or the speaker device according to the ambient sound.
The integrated auditory control method according to any of claims 10 to 13, further comprising:

acquiring a voice signal through a microphone, and determining a device to be played from the inlet type bone conduction sound production device, the non-inlet type bone conduction sound production device and the loudspeaker device according to the voice signal;

alternatively, the first and second electrodes may be,

and acquiring a voice signal through the microphone, and starting the device to be played according to the voice signal and the related information of the sound source to be played.
The integrated auditory control method of claim 10, wherein the information about the sound source to be played comprises: channel information and/or volume information.
The integrated auditory control method according to any of claims 10 to 13, wherein the control device is a microphone.