CN112822589B - Patch type earphone - Google Patents

Abstract

The present invention provides a patch earphone comprising: the Bluetooth module is used for receiving voice signals sent by the smart phone, the information storage module is used for storing the received voice signals, the electric pulse generating module is used for generating electric pulses based on the voice signals, the electric pulse outputting module is used for outputting the electric pulses and controlling other module control modules electrically connected with the electric pulse generating module, wherein the other modules are modules except the control module, and because the electric pulse outputting module is closely attached to the skin near the auditory nerve of a user, the electric pulses output by the electric pulse outputting module are used for activating auditory neurons of the user, so that the auditory neurons generate bioelectric signals matched with the electric pulses, the bioelectric signals are transmitted to the auditory nerve center and brain of the user, the transmission of sound is not needed through an air medium, and the transmission steps are few, so that the loss of sound is reduced, and the sound transmission efficiency is improved.

Description

Patch type earphone

Technical Field

The invention relates to the field of headphones, in particular to a patch type headphone.

Background

The headphones are a pair of conversion units that receive the electrical signals from the media player or receiver and convert them to audible sound waves using a speaker positioned proximate the ear. It is a common practice for users to listen to music using headphones when they are traveling or in a noisy environment.

In the conventional method, many earphones pass through air or bones as media, so that the sound of the earphones is transmitted to the brain of a person, sound waves are lost in the air media, and the bone conduction earphone has a large sound loss and low transmission efficiency due to the large transmission steps and low transmission speed of the bone conduction earphone.

Therefore, finding an earphone that reduces the loss of sound and improves the transmission efficiency thereof is a technical problem that needs to be solved by those skilled in the art.

Disclosure of Invention

The embodiment of the invention provides a patch type earphone, which aims to solve the problems of large sound loss and low transmission efficiency of the earphone.

A patch earphone, comprising:

a circuit board, a battery, and a housing, the circuit board and the battery being within the housing;

the receiving signal Bluetooth module is used for receiving the voice signal sent by the smart phone;

the information storage module is used for storing the received voice signals;

an electrical pulse generation module for generating an electrical pulse based on the speech signal;

an electrical pulse output module for outputting the electrical pulse, wherein the electrical pulse output module is in close proximity to the skin near the auditory nerve of the user;

the control module is used for controlling other modules, wherein the other modules are modules except the control module;

the circuit board is connected with the battery, and the control module is electrically connected with the signal receiving Bluetooth module, the information storage module, the electric pulse generating module and the electric pulse output module;

the electric pulse generating module includes:

the digital conversion pulse submodule is used for converting the voice signal into a pulse signal;

and the long-conversion short submodule is used for converting the pulse signal into short pulses as the electric pulses.

Optionally, the electric pulse output module includes: pulse output electrode slice and polymer viscose.

Optionally, the circuit board further includes:

and the filtering module is used for filtering the voice signal to obtain a filtered voice signal.

Optionally, the circuit board further includes:

the analog-to-digital conversion module is used for performing analog-to-digital conversion processing on the received voice signal to obtain a digital voice signal.

Optionally, the circuit board further includes:

and the electric pulse amplifying module is used for amplifying the electric pulse to obtain an amplified electric pulse.

Optionally, the circuit board further includes:

the battery management module is used for managing the electric quantity of the battery;

and the display module is used for displaying the electric quantity of the battery.

Optionally, the circuit board further includes:

the signal transmitting Bluetooth module is used for transmitting the target signal acquired by the acquisition module to the intelligent mobile phone;

the acquisition module is used for acquiring the target signal of the user.

Optionally, the target signal includes a sound signal and/or an brain wave signal.

The invention also provides a headset box, which comprises the headset box and is used for charging the patch type headset of any one of the above.

In the patch earphone, the circuit board powered by the battery is arranged in the shell of the patch earphone and is used for receiving the voice signal sent by the smart phone, the information storage module is used for storing the received voice signal, the electric pulse generating module is used for generating electric pulses based on the voice signal, the electric pulse outputting module is used for outputting the electric pulses and is used for controlling other module control modules electrically connected with the electric pulse outputting module, wherein the other modules are modules except the control module, and the electric pulse outputting module is used for tightly clinging to the skin near the auditory nerve of the user, so that the auditory nerve of the user is activated by the electric pulses outputted by the electric pulse outputting module, the auditory nerve generates bioelectric signals matched with the electric pulses, the bioelectric signals are transmitted to the auditory nerve center and the brain of the user, the sound is not transmitted through an air medium, and the transmission steps are few, therefore, the loss of the sound is reduced, and the sound transmission efficiency is improved.

Drawings

Fig. 1 is a schematic structural view of a patch earphone of the present invention;

FIG. 2 is a schematic diagram of the construction of an exploded view of the patch earphone of the present invention;

fig. 3 is a schematic structural view of a circuit board, a display module and an electric pulse output module of the patch earphone of the present invention;

fig. 4 is a schematic structural view of the modules on the circuit board of the patch type earphone of the present invention except for the display module and the electric pulse output module;

reference numerals illustrate, wherein, in fig. 1 to 4:

10-patch earphone;

101-a circuit board, 102-a battery, 103-a housing;

1011-received signal Bluetooth module, 1012-information storage module, 1013-electric pulse generation module, 1014-electric pulse output module, 1015-control module, 1016-filtering module, 1017-analog-digital conversion module, 1018-electric pulse amplification module, 1019-battery management module, 10110-display module, 10111-signal emission Bluetooth module, 10112-acquisition module;

10131-digital conversion pulse submodule, 10132-long conversion short submodule.

Description of the embodiments

The technical solutions of 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 apparent that the described embodiments are component-divided embodiments of the present invention, not all-component embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

In the description of the present invention, it should be understood that the directions or positional relationships indicated by the terms "upper", "lower", "left", "right", "top", "bottom", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present invention and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be structured and operated in a specific orientation, and thus should not be construed as limiting the present invention.

In this embodiment, as shown in fig. 1-4, the 10-patch earphone includes a 101-circuit board, a 102-battery and a 103-housing, wherein the 101-circuit board and the 102-battery are disposed in the 103-housing, a 1011-received signal bluetooth module is disposed on the 101-circuit board, and the 1011-received signal bluetooth module is used for receiving a voice signal sent by an intelligent device such as an intelligent mobile phone or an intelligent tablet computer in real time, for example, the 1011-received signal bluetooth module is used for receiving a music signal sent by a maifan 5 mobile phone, and the 1011-received signal bluetooth module may be a CSR8675 bluetooth chip.

The 101-circuit board is also provided with a 1012-information storage module, and the 1012-information storage module is used for storing voice signals received by a received signal Bluetooth, for example, the 1012-information storage module can be FLASH on a CSR8675 Bluetooth chip. The 101-circuit board is also provided with a 1013-electric pulse generating module, and the 1013-electric pulse generating module is used for generating electric pulses based on the voice signals received by the 1011-receiving signal Bluetooth module, for example, the 1013-electric pulse generating module can be a micro mode-locked oscillator.

The 101-circuit board is also provided with a 1014-electric pulse output module which outputs the electric pulse generated by the 1014-electric pulse generating module, wherein the 1014-electric pulse output module is abutted against the skin near the auditory nerve of the user, that is, the 1014-electric pulse output module is abutted against the back of the ear of the user, so that the auditory neuron cells of the user are activated by the electric pulse flow.

The 101-circuit board is also provided with 1015-control modules for controlling other modules, wherein the other modules are modules except 1015-control modules, namely, the other modules comprise a 1011-received signal Bluetooth module, a 1012-information storage module, a 1013-electric pulse generation module, a 1014-electric pulse output module and the like. The 101-circuit board and the 102-battery are electrically connected by adopting a flexible circuit, and the 1015-control module and the 1011-signal receiving Bluetooth module, the 1012-information storage module, the 1013-electric pulse generating module and the 1014-electric pulse outputting module are electrically connected by adopting the flexible circuit.

The 1015-control module controls the specific processes of other modules as follows:

when the 1011-received signal bluetooth module receives a voice signal, it transmits to the 1015-control module a signal received instruction, when the 1015-control module receives the signal received instruction, it writes the received voice signal into the 1012-information storage module, thereby temporarily storing the voice signal, in order to output an electric pulse, the 1015-control module transmits the voice signal to the 1013-electric pulse generation module, when the 1013-electric pulse generation module receives the voice signal, generates an electric pulse signal based on the voice signal, and finally outputs the electric pulse signal to the human body through the 1014-electric pulse output module.

In the 10-patch earphone, a 1011-received signal bluetooth module for receiving a voice signal sent from a smart phone is arranged on a 101-circuit board powered by a 102-battery in a 103-shell of the 10-patch earphone, a 1012-information storage module for storing the received voice signal, a 1013-electric pulse generating module for generating electric pulses based on the voice signal, a 1014-electric pulse output module for outputting the electric pulses, and a control module for controlling other modules 1015 electrically connected with the same, wherein the other modules are modules except the 1015-control module, and the 1014-electric pulse output module is used for activating auditory neurons of a user by the electric pulses output by the 1014-electric pulse output module, so that the auditory neurons generate bioelectric signals matched with the electric pulses, the bioelectric signals are transmitted to auditory nerve centers and brains of the user, the sound does not need to be transmitted through an air medium, the transmission steps are few, the loss of the sound is reduced, and the sound transmission efficiency is improved.

Further, in the present embodiment, as shown in fig. 4, the 1013-electric pulse generating module includes:

the 10131-digital conversion pulse submodule is used for converting the voice signal received by the 1011-receiving signal Bluetooth module into a pulse signal, for example, the 10131-digital conversion pulse submodule is a micro PLC chip, and the micro PLC chip can be an SS-95U chip.

In order to obtain an electric pulse signal, a 10132-long conversion short sub-module is required to convert the obtained long pulse signal into a short pulse, and the short pulse is used as the electric pulse, for example, the long conversion short module is a micro repeater. The short pulse is also understood to be a light pulse.

The voice signal is converted into the pulse signal by the 10131-digital conversion pulse submodule, so that the tidy pulse signal is obtained, and then the tidy pulse signal is converted into the short pulse by the 10132-long conversion short submodule, so that the accuracy of the short pulse is ensured.

Further, in the present embodiment, as shown in fig. 3, the 1014-electric pulse output module includes: pulse

The output electrode plate and the polymer adhesive, for example, the pulse output electrode plate can be a pulse fusing electrode plate R5.

The pulse output electrode plate of the high polymer adhesive is combined, so that the fitting degree of the pulse output electrode plate and human skin is improved.

Further, in this embodiment, as shown in fig. 4, the 101-circuit board further includes: and 1016-filtering module for filtering the voice signal received by 1011-receiving signal Bluetooth module to obtain the filtered voice signal, i.e. obtain pure voice signal, thereby improving the accuracy of generating and outputting electric pulse based on voice signal.

Wherein 1016-filtering module may be a micro-filter or a pinhole type filter, such as a pinhole type filter may be an SZ-52 filter.

Further, in this embodiment, as shown in fig. 4, the 101-circuit board further includes: the 1017-analog-digital conversion module is used for carrying out analog-digital conversion processing on the received voice signals to obtain digital voice signals, so that the 1015-control module is convenient to store.

The 1017-analog-digital conversion module can be an AD7478 analog-digital converter and the like.

Further, in this embodiment, as shown in fig. 4, the 101-circuit board further includes: the 1018-electric pulse amplifying module is used for amplifying the electric pulse to obtain the amplified electric pulse, so that the output electric pulse is enough, the neuron cells of the user are activated, and the accuracy of the output of the electric pulse is improved.

Wherein the 1018-electrical pulse amplification module may be a 3DK91C amplifier.

Further, in this embodiment, as shown in fig. 2-4, the 101-circuit board further includes: and the 102-1019-battery management module is used for managing the electric quantity of the 102-battery and preventing the over-discharge or over-charge of the 102-battery, so that the safety of the 102-battery is protected, and the durability of the 102-battery is improved.

10110-display module, is used for showing the electric quantity of 102-battery to can let the user observe and know the electric quantity of 102-battery at any time, improve the observability of 102-battery's electric quantity.

Further, in this embodiment, as shown in fig. 1 to 4, the 101-circuit board further includes: the 10111-signal transmitting Bluetooth module is used for transmitting the target signal acquired by the 10112-acquisition module to the smart phone, for example, the 10111-signal transmitting Bluetooth module can be a CSR8675 Bluetooth chip, so that the two-way call effect of the 10-patch earphone is improved.

The 10112-acquisition module is used for acquiring target signals of a user, for example, the 10112-acquisition module can be a microphone or an brain wave sensor, so that the real-time performance of target signal acquisition can be ensured.

Wherein, brain wave sensor can be TGAM sensor.

Further, in this embodiment, the target signal includes a sound signal and/or a brain wave signal, that is, the 10-patch earphone may be a sound collected by a microphone, or may be a brain wave signal collected by a brain wave sensor, and by setting two different sound signals and/or brain wave signals as target signals for collection, the target signal sources are enriched, and the accuracy of the target signal is improved.

Further, in the present embodiment, the shape of the patch earphone is not limited to a circle, but may be a circular arc or a hat shape, and of course, the shape of the patch earphone may be other shapes, which is not limited herein.

Based on the patch earphone described in the above embodiments, the present invention also provides an earphone box for adapting the earphone of any one of the above and charging the earphone of any one of the above.

It should be understood that the terms "first," "second," and the like are used herein to describe various information, but such information should not be limited to these terms, which are used merely to distinguish one type of information from another. For example, a "first" message may also be referred to as a "second" message, and similarly, a "second" message may also be referred to as a "first" message, without departing from the scope of the invention.

While the foregoing is directed to the preferred embodiments of the present invention, it should be noted that modifications and variations could be made by those skilled in the art without departing from the principles of the present invention, and such modifications and variations are to be regarded as being within the scope of the invention.

Claims (9)

1. A patch earphone comprising a circuit board, a battery and a housing, the circuit board and the battery being within the housing, the patch earphone comprising:

the receiving signal Bluetooth module is used for receiving the voice signal sent by the smart phone;

the information storage module is used for storing the received voice signals;

an electrical pulse generation module for generating an electrical pulse based on the speech signal;

an electrical pulse output module for outputting the electrical pulse, wherein the electrical pulse output module is in close proximity to the skin near the auditory nerve of the user;

the control module is used for controlling other modules, wherein the other modules are modules except the control module;

the circuit board is connected with the battery, and the control module is electrically connected with the signal receiving Bluetooth module, the information storage module, the electric pulse generating module and the electric pulse output module;

the electric pulse generating module includes:

the digital conversion pulse submodule is used for converting the voice signal into a pulse signal;

and the long-conversion short submodule is used for converting the pulse signal into short pulses as the electric pulses.

2. The patch-type earphone of claim 1, wherein the electrical pulse output module comprises: pulse output electrode slice and polymer viscose.

3. The patch-type earphone of claim 1, wherein the circuit board further comprises:

and the filtering module is used for filtering the voice signal to obtain a filtered voice signal.

4. The patch-type earphone of claim 1, wherein the circuit board further comprises:

the analog-to-digital conversion module is used for performing analog-to-digital conversion processing on the received voice signal to obtain a digital voice signal.

5. The patch-type earphone of claim 1, wherein the circuit board further comprises:

and the electric pulse amplifying module is used for amplifying the electric pulse to obtain an amplified electric pulse.

6. The patch-type earphone of claim 1, wherein the circuit board further comprises:

the battery management module is used for managing the electric quantity of the battery;

and the display module is used for displaying the electric quantity of the battery.

7. The patch earphone of any one of claims 1-6, wherein the circuit board further comprises:

the signal transmitting Bluetooth module is used for transmitting the target signal acquired by the acquisition module to the intelligent mobile phone;

the acquisition module is used for acquiring the target signal of the user.

8. The patch earphone of claim 7, wherein the target signal comprises a sound signal and/or an brain wave signal.

9. A headset case, characterized in that the headset case is used for charging the patch-type headset according to any one of claims 1 to 8.