CN218473341U - Intelligent Bluetooth earphone - Google Patents

Abstract

The utility model relates to the technical field of earphones, and an intelligent bluetooth headset is disclosed, intelligent bluetooth headset includes: the bone conduction speaker, the noise sensor, the Bluetooth module, the conversion button and the processing control module; the processing control module is respectively connected with the noise sensor, the Bluetooth module, the conversion button, the loudspeaker and the bone conduction loudspeaker; the noise sensor sends the collected noise signals to the processing control module so that the processing control module can select the loudspeaker and/or the bone conduction loudspeaker to operate; the conversion signal collected by the conversion button is sent to the processing control module so that the processing control module can select the loudspeaker and/or the bone conduction loudspeaker to operate. The utility model discloses a judge the noisy degree of environment around the user who wears intelligent bluetooth headset, automatic selection speaker and/or bone conduction speaker to, improve the user and wear bluetooth headset's practicality, and improve the sound that the user received the earphone transmission, and then reduce the injury to the eardrum.

Description

Intelligent Bluetooth earphone

Technical Field

The utility model relates to the technical field of earphones, especially, relate to an intelligent bluetooth headset.

Background

With the development of science and technology and the improvement of people's standard of living, bluetooth headset more and more becomes indispensable electronic equipment, and the user is through wearing bluetooth headset in order to carry out the amusement activities such as conversation, listening to music or watching video.

Under the general condition, the place that the user wore bluetooth headset is outdoor, perhaps noisy environment such as public place, and prior art's bluetooth headset can be according to external environment's sound automatically regulated earphone's volume to, through the function of intelligent tuning, brought convenient bluetooth headset sense of use for the user.

However, when external environment's sound is too noisy, the user adjusts the volume up unconsciously, perhaps, bluetooth headset's intelligent tuning function adjusts the volume up along with external sound, injures the eardrum of wearing bluetooth headset user easily, after wearing the bluetooth headset of big volume for a long time, dizziness, headache circumstances can appear even, nevertheless, even under the mode of big volume, the user also often can not hear the sound inside the earphone, the practicality that the user wore bluetooth headset has seriously been reduced.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a main aim at provides an intelligence bluetooth headset aims at through the noisy degree of environment around the user who judges to wear intelligence bluetooth headset, automatic selection speaker and/or bone conduction speaker broadcast sound to, improve the practicality that bluetooth headset was worn to the user, and under noisy external environment, improve the sound that the user received the earphone transmission, and then reduce the injury to the eardrum.

In order to achieve the above object, the utility model provides an intelligent bluetooth headset, intelligent bluetooth headset includes: the bone conduction speaker, the noise sensor, the Bluetooth module, the conversion button and the processing control module;

the processing control module is respectively connected with the noise sensor, the Bluetooth module, the conversion button, the loudspeaker and the bone conduction loudspeaker;

the noise sensor sends the collected noise signals to the processing control module so that the processing control module can select the loudspeaker and/or the bone conduction loudspeaker to operate;

and the conversion signal acquired by the conversion button is sent to the processing control module so that the processing control module can select the loudspeaker and/or the bone conduction loudspeaker to operate.

Optionally, the processing control module further comprises: a processing unit;

the processing unit is connected with the noise sensor, and the noise sensor sends the collected noise signal to the processing unit so that the processing unit can process the noise signal to obtain a volume value.

Optionally, the processing control module further comprises: an adjustment unit;

the adjusting unit is connected with the processing unit and receives the volume value sent by the processing unit.

Optionally, the adjusting unit is connected to the bluetooth module, receives the audio information sent by the bluetooth module, and adjusts the volume of the audio information according to the volume value.

Optionally, the processing control module further comprises: a selection unit;

the selection unit is connected with the adjusting unit, receives the audio information after volume adjustment sent by the adjusting unit, and selects the loudspeaker and/or the bone conduction loudspeaker to operate.

Optionally, the selection unit is connected with the speaker and the bone conduction speaker, respectively.

Optionally, the smart bluetooth headset further comprises: the device comprises a first conversion module and a second conversion module;

the selection unit is respectively connected with the first conversion module and the second conversion module.

Optionally, the first conversion module is connected with the speaker;

the second conversion module is connected with the bone conduction loudspeaker.

Optionally, the smart bluetooth headset further comprises: a switch button;

the switching button is connected with the selection unit, and switching signals collected by the switching button are sent to the selection unit so that the selection unit can select the loudspeaker and/or the bone conduction loudspeaker to operate.

Optionally, the switch button is a tactile sensor.

The utility model discloses an intelligence bluetooth headset, intelligence bluetooth headset includes: the bone conduction speaker, the noise sensor, the Bluetooth module, the conversion button and the processing control module; the processing control module is respectively connected with the noise sensor, the Bluetooth module, the switching button, the loudspeaker and the bone conduction loudspeaker; the noise sensor sends the collected noise signals to the processing control module so that the processing control module can select the loudspeaker and/or the bone conduction loudspeaker to operate; and the conversion signal acquired by the conversion button is sent to the processing control module so that the processing control module can select the loudspeaker and/or the bone conduction loudspeaker to operate.

Be different from traditional automatically regulated volume's bluetooth headset, the utility model discloses a processing control module is connected with noise sensor, bluetooth module, conversion button, speaker and bone conduction speaker respectively, judges the noisy degree of external sound through noise sensor, and automatic selection speaker and bone conduction speaker perhaps combine speaker and bone conduction speaker together for the user who wears intelligent bluetooth headset transmits sound, the utility model discloses a judge the noisy degree of environment around the user who wears intelligent bluetooth headset, automatic selection speaker and/or bone conduction speaker broadcast sound to, improved the practicality that bluetooth headset was worn to the user to very big degree, and under noisy external environment, improved the sound that the user received the earphone transmission to very big degree, and then reduced the injury to the eardrum.

Drawings

Fig. 1 is the structure diagram of an embodiment of the utility model discloses intelligence bluetooth headset.

The reference numbers indicate:

reference numerals	Name(s)	Reference numerals	Name (R)
				10	Noise sensor	20	Bluetooth module
30	Conversion button	40	Process control module
				401	Processing unit	402	Adjusting unit
403	Selection unit	50	First conversion module
				60	Second conversion module	70	Loudspeaker
80	Bone conduction loudspeaker	90	Terminal device

The realization, the functional characteristics and the advantages of the utility model are further explained by combining the embodiment and referring to the attached drawings.

Detailed Description

It should be understood that the specific embodiments described herein are merely illustrative of and not restrictive on the broad application.

The technical solutions in the embodiments of the present application will be described clearly and completely with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments obtained by a person of ordinary skill in the art based on the embodiments in the present application without making any creative effort belong to the protection scope of the present application.

It should be noted that all directional indicators (such as up, down, left, right, front, back \8230;) in the embodiments of the present application are only used to explain the relative positional relationship between the components, the motion situation, etc. in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indicator is changed accordingly.

In this application, unless expressly stated or limited otherwise, the terms "connected," "secured," and the like are to be construed broadly, and thus, for example, "secured" may be a fixed connection, a removable connection, or an integral part; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or they may be interconnected within two elements or in a relationship where two elements interact with each other unless otherwise specifically limited. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art as appropriate.

In addition, descriptions in this application as to "first", "second", etc. are for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicit to the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, technical solutions between various embodiments may be combined with each other, but must be realized by a person skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope of the present application.

The utility model provides an intelligence bluetooth headset.

In an embodiment of the present invention, as shown in fig. 1, fig. 1 is a schematic structural diagram of an embodiment of the intelligent bluetooth headset of the present invention, which includes a bluetooth module 20, a bone conduction speaker 80, a speaker 70, a noise sensor 10, a bluetooth module 20, a conversion button 30, and a processing control module 40;

the processing control module 40 is respectively connected with the bluetooth module 20, the noise sensor 10, the bluetooth module 20, the switch button 30, the speaker 70 and the bone conduction speaker 80;

the noise sensor 10 sends the collected noise signal to the processing control module 40 so that the processing control module 40 can select the speaker 70 and/or the bone conduction speaker 80 to operate;

the switching signal collected by the switching button 30 is sent to the processing control module 40, so that the processing control module 40 can select the speaker 70 and/or the bone conduction speaker 80 to operate.

It should be noted that, in this embodiment, the bluetooth device of the terminal device 90 is in communication connection with the bluetooth module 20 of the intelligent bluetooth headset, the bluetooth module 20 receives audio data sent by the terminal device 90, the noise sensor 10 sends the collected noise signal to the processing control module 40 so that the processing control module 40 can automatically select the speaker 70 and/or the bone conduction speaker 80 to operate, and sends the conversion signal collected by the conversion button 30 to the processing control module 40 so that the processing control module 40 can select the speaker 70 and/or the bone conduction speaker 80 to operate, and a user wearing the intelligent bluetooth headset switches the speaker 70 and/or the bone conduction speaker 80 to play sound at any time through the conversion button 30.

It should be understood that, in this embodiment, under the very noisy circumstances of external sound, improve bluetooth headset volume, can not make the user who wears the earphone listen more clearly, can only bring the damage of eardrum, bone conduction speaker propagates sound and is not through the air, but carries out the propagation of sound through certain medium, for example the temporal bone of head transmits sound, under the very noisy circumstances of external sound, through the combination of speaker and thigh transmission speaker, can make the user who wears the earphone listen more clearly under the circumstances that does not harm the eardrum, has improved the performance of intelligent bluetooth headset transmission sound to a great extent.

Optionally, in some possible embodiments, the processing control module further includes: a processing unit 401; the processing unit 401 is connected with the noise sensor 10, and the noise sensor 10 sends the collected noise signal to the processing unit 401, so that the processing unit 401 processes the noise signal to obtain a volume value.

Exemplarily, in this embodiment, the noise sensor 10 is connected to the processing unit 401 of the processing control module, the noise sensor 10 acquires external noise of the smart bluetooth headset and sends the external noise to the processing unit 401, and the processing unit 401 receives the external noise and then processes the external noise to obtain a volume value to be played.

Optionally, in some possible embodiments, the process control module 40 further includes: an adjustment unit 402; the adjusting unit 402 is connected to the processing unit 401, and the adjusting unit 402 receives the volume value sent by the processing unit.

Illustratively, in the present embodiment, the processing unit 401 is connected to the adjusting unit 402, and the processing unit 401 receives the volume value to be played, which is confirmed by the adjusting unit 402 according to the external noise.

Optionally, in some possible embodiments, the adjusting unit 402 is connected to the bluetooth module 20, and the adjusting unit 402 receives the audio information sent by the bluetooth module 20 and adjusts the volume of the audio information according to the volume value.

Illustratively, in the present embodiment, the adjusting unit 402 is connected to the bluetooth module 20, the bluetooth module 20 receives the audio information transmitted by the terminal device 90, and then transmits the audio information to the adjusting unit 402, and the adjusting unit 402 receives the audio information transmitted by the bluetooth module 20, and finally adjusts the volume of the audio information to the volume value.

Optionally, in some possible embodiments, the process control module 40 further includes: a selection unit 403; the selecting unit 403 is connected to the adjusting unit 402, and the selecting unit 403 receives the audio information after volume adjustment sent by the adjusting unit 402, and selects the speaker 70 and/or the bone conduction speaker 80 to operate.

Illustratively, in the present embodiment, the selection unit 403 is connected to the adjustment unit 402, the selection unit 403 receives the audio data with the adjusted volume value sent by the adjustment unit 402, and the selection unit 403 selects the speaker 70 and/or the bone conduction speaker 80 to operate according to the audio information with the adjusted volume.

Alternatively, in some possible embodiments, the selection unit 403 is connected to the speaker 70 and the bone conduction speaker 80, respectively.

Illustratively, in the present embodiment, the selection unit 403 is connected to the speaker 70 and the bone conduction speaker 80, respectively, and transmits the audio data with the adjusted volume to the speaker 70 and/or the bone conduction speaker 80.

It should be noted that, in this embodiment, the selection unit 403 is respectively connected to the speaker 70 and the bone conduction speaker 80, and the noise sensor 10 determines that when the noise level of the external sound is low or the like, the bone conduction speaker 80 is selected to transmit the sound to the user wearing the smart bluetooth headset, when the noise level of the external sound is medium or the like, the speaker 70 is selected to transmit the sound to the user wearing the smart bluetooth headset, and when the noise level of the external sound is high or the like, the speaker 70 and the bone conduction speaker 80 are selected to transmit the sound to the user wearing the smart bluetooth headset together.

Optionally, in some possible embodiments, the smart bluetooth headset further comprises: a first conversion module 50 and a second conversion module 60; the selection unit 403 is connected to the first conversion module 50 and the second conversion module 60, respectively.

It should be noted that, in the present embodiment, the first conversion module 50 converts the electrical signal of the audio data into the acoustic signal, and the second conversion module 60 converts the audio signal into the vibration signal of the acoustic wave.

Optionally, in some possible embodiments, the first converting module 50 is connected to the speaker 70; the second conversion module 60 is connected to the bone conduction speaker 80.

In this embodiment, the first conversion module 50 transmits the sound signal to the eardrum of the user through the speaker 70, and the second conversion module 60 transmits the vibration signal of the sound wave to the auditory nerve of the user through the bone conduction speaker 80, so that the user hears the sound.

Optionally, in some possible embodiments, the smart bluetooth headset further comprises: a switch button 30; the switch button 30 is connected to the selection unit 403, and the switch signal collected by the switch button 30 is sent to the selection unit 403, so that the selection unit 403 can select the speaker 70 and/or the bone conduction speaker 80 to operate.

Illustratively, in the present embodiment, the switch button 30 transmits the acquired switch signal to the selection unit 403, and the selection unit 403 receives the switch signal and selects the speaker 70 and/or the bone conduction speaker 80 to operate according to the switch signal.

In the present embodiment, the switch button 30 is connected to the selection unit 403, and the speaker 70 and/or the bone conduction speaker 80 are switched at any time by the switch button, and the switching order of pressing the switch button 30 is that the first pressing transmits sound only through the bone conduction speaker 80, the second pressing transmits sound only through the speaker 70, and the third pressing transmits sound through both the bone conduction speaker 80 and the speaker 70.

Optionally, in some possible embodiments, the toggle button is a tactile sensor.

It should be noted that, in this embodiment, a conversion signal of a user wearing the smart headset is received by the touch sensor and is transmitted to the selection unit 403, and the selection unit 403 selects a speaker and/or a bone conduction speaker to operate.

It should be noted that, in this embodiment, the switch button selects the mode of receiving sound for the user wearing the smart headset, for example, the user wearing the smart bluetooth headset listens to music during exercise, selects the bone conduction speaker to listen to music, and can also listen to ambient sound at the same time, so that the user will not be in an ear-blind state during exercise, which may avoid some dangerous situations, for example, the user wearing the smart bluetooth headset listens to music in a quiet ambient environment, selects the bone conduction speaker to listen to music, reduces pain of ears and protects eardrums, for example, when the ambient sound is very noisy, the speaker and the bone conduction speaker are combined to improve sound transmission, so that the user wearing the smart bluetooth headset can listen more clearly without increasing the volume.

The utility model discloses an intelligence bluetooth headset, this intelligence bluetooth headset includes: the bone conduction speaker, the loudspeaker, the noise sensor, the Bluetooth module, the conversion button and the processing control module are arranged on the frame; the processing control module is respectively connected with the noise sensor, the Bluetooth module, the conversion button, the loudspeaker and the bone conduction loudspeaker; the noise sensor sends the collected noise signal to the processing control module so that the processing control module can select the loudspeaker and/or the bone conduction loudspeaker to operate; the switching signal collected by the switching button is sent to the processing control module so that the processing control module can select the loudspeaker and/or the bone conduction loudspeaker to operate.

Be different from traditional automatically regulated volume's bluetooth headset, the utility model discloses a processing control module is connected with noise sensor, bluetooth module, conversion button, speaker and bone conduction speaker respectively, judges the noisy degree of external sound through noise sensor, and automatic selection speaker and bone conduction speaker perhaps combine speaker and bone conduction speaker to give the user who wears intelligent bluetooth headset together and transmit sound. The utility model discloses a judge the noisy degree of environment around the user who wears intelligent bluetooth headset, automatic selection speaker and/or bone conduction speaker broadcast sound to, improved the practicality that bluetooth headset was worn to the user to very big degree, and under noisy external environment, improved the sound that the user received the earphone transmission to very big degree, and then reduced the injury to the eardrum.

The above description is only a preferred embodiment of the present application, and not intended to limit the scope of the present application, and all modifications and equivalents of the technical solutions that can be directly or indirectly applied to other related technical fields within the spirit of the present application are included in the scope of the present application.

Claims (10)

1. An intelligent bluetooth headset, the intelligent bluetooth headset comprising: the bone conduction speaker, the noise sensor, the Bluetooth module, the conversion button and the processing control module;

the processing control module is respectively connected with the noise sensor, the Bluetooth module, the switching button, the loudspeaker and the bone conduction loudspeaker;

the noise sensor sends the collected noise signals to the processing control module so that the processing control module can select the loudspeaker and/or the bone conduction loudspeaker to operate;

and the conversion signal acquired by the conversion button is sent to the processing control module so that the processing control module can select the loudspeaker and/or the bone conduction loudspeaker to operate.

2. The intelligent bluetooth headset of claim 1, wherein the process control module further comprises: a processing unit;

the processing unit with the noise sensor is connected, the noise sensor with the noise signal transmission who gathers to the processing unit for the processing unit is directed against the noise signal handles and is obtained the volume value.

3. The intelligent bluetooth headset of claim 2, wherein the process control module further comprises: an adjustment unit;

the adjusting unit is connected with the processing unit and receives the volume value sent by the processing unit.

4. The intelligent Bluetooth headset of claim 3, wherein the adjusting unit is connected to the Bluetooth module, receives audio information sent by the Bluetooth module, and adjusts the volume of the audio information according to the volume value.

5. The intelligent bluetooth headset of claim 4, wherein the process control module further comprises: a selection unit;

the selection unit is connected with the adjusting unit, receives the audio information after volume adjustment sent by the adjusting unit, and selects the loudspeaker and/or the bone conduction loudspeaker to operate.

6. The intelligent Bluetooth headset of claim 5, wherein the selection unit is connected to the speaker and the bone conduction speaker, respectively.

7. The intelligent bluetooth headset of claim 6, wherein the intelligent bluetooth headset further comprises: a first conversion module and a second conversion module;

the selection unit is respectively connected with the first conversion module and the second conversion module.

8. The intelligent bluetooth headset of claim 7, wherein the first conversion module is connected with the speaker;

the second conversion module is connected with the bone conduction loudspeaker.

9. The intelligent bluetooth headset of claim 7, wherein the intelligent bluetooth headset further comprises: a switch button;

the switching button is connected with the selection unit, and switching signals acquired by the switching button are sent to the selection unit so that the selection unit can select the loudspeaker and/or the bone conduction loudspeaker to operate.

10. The intelligent bluetooth headset of claim 9, wherein the toggle button is a tactile sensor.

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