CN215734786U

CN215734786U - Translation earphone

Info

Publication number: CN215734786U
Application number: CN202122094118.3U
Authority: CN
Inventors: 刘富杰; 王志勇; 卢余; 冯美银; 李远高
Original assignee: Shenzhen K Free Wireless Information Technology Co ltd
Current assignee: Shenzhen K Free Wireless Information Technology Co ltd
Priority date: 2021-08-31
Filing date: 2021-08-31
Publication date: 2022-02-01
Anticipated expiration: 2031-08-31

Abstract

The application provides a translation earphone relates to smart machine technical field. The translation headset comprises: the device comprises an identification chip, a Bluetooth module, a processing module and a communication module; the recognition chip is connected with the Bluetooth module and is used for recognizing the input voice command so as to transmit a corresponding command signal to the Bluetooth module; the Bluetooth module is connected with the processing module and is used for acquiring a voice signal so as to control the processing module to transmit the voice signal; the processing module is connected with the communication module, the processing module is used for controlling the communication module, and the communication module is used for connecting the processing module and the background server so as to translate the voice signals. This application is to setting up communication module and processing module in the translation earphone, optimizes the structure of translation earphone, can form two kinds of translation modes with bluetooth module, is applicable to more translation scenes, has improved the translation efficiency and the quality of translation earphone effectively, improves the performance of translation earphone, promotes the user and uses experience.

Description

Translation earphone

Technical Field

The application relates to the technical field of intelligent equipment, in particular to a translation earphone.

Background

With the intelligent development of earphone products, translating earphones brings convenience to international communication of people under different language backgrounds. In the current translation earphones on the market, a Bluetooth earphone designed based on a classic Bluetooth chip is available; the wireless earphone is designed based on the intelligent wearing platform; more so, conventional 3.5-jack headsets require a cell phone or other electronic device to be plugged in for normal use.

In the prior art, the earphones are used as translation earphones, and the characteristics of recording tone quality, translation real-time performance, use independence and the like of the earphones are limited by the existing translation earphone equipment, so that the translation efficiency and quality of the existing translation earphones are low, the translation performance is poor, the existing translation earphones cannot be suitable for more scenes and user requirements, and better translation service cannot be provided for users along with the development of a voice recognition technology.

SUMMERY OF THE UTILITY MODEL

In view of the above, an object of the embodiments of the present application is to provide a translation earphone, so as to solve the problem of poor performance of the translation earphone in the prior art.

In order to solve the above problems, the present application provides a translation headset including: the device comprises an identification chip, a Bluetooth module, a processing module and a communication module;

the recognition chip is connected with the Bluetooth module and is used for recognizing an input voice command so as to transmit a corresponding command signal to the Bluetooth module;

the Bluetooth module is connected with the processing module and is used for acquiring a voice signal so as to control the processing module to transmit the voice signal;

the processing module is connected with the communication module, the processing module is used for controlling the communication module, and the communication module is used for connecting the processing module and the background server so as to translate the voice signal.

Among the above-mentioned implementation, through set up the identification chip in the translation earphone, connect identification chip and bluetooth module, can discern the voice command of user's input to give bluetooth module with the instruction signal transmission that the discernment obtained, carry out corresponding instruction operation to the translation earphone, realize speech control. The voice signal input by the user is collected through the Bluetooth module, and the tone quality and accuracy of the voice signal can be improved. Through setting up processing module and communication module, connect bluetooth module and processing module, connect processing module and communication module, can form two kinds of translation modes in the translation earphone on bluetooth module's basis, according to communication connection of communication module and backstage server up to now, carry out translation in real time to the speech signal of transmission, be applicable to more translation scenes, improved translation work's translation efficiency and quality effectively, improve translation earphone's performance, promote user's use and experience.

Optionally, the communication module includes a communication chip and a user identification card;

the communication chip is connected with the user identity identification card to identify the user identity.

In the implementation mode, the communication chip is arranged in the communication module, the translation earphone can be in communication connection with the background server, the user identity identification card is arranged in the communication module and connected with the communication chip, and the identity information in the user identity identification card can be identified when in communication connection so as to be connected to the corresponding background server, so that the accuracy and the effectiveness of the communication connection are improved.

Optionally, the processing module comprises a processor and a sensor;

the processor is connected with the sensor;

the processor is connected with the communication chip to control the transmission signal of the communication module.

In the above implementation manner, the processor in the processing module is connected to the sensor, and the processor is connected to the communication chip of the communication module through the external interface of the processing module to control the transmission signal of the communication module, so that the transmission signal of the communication module can meet the index requirement of the sensor, and the transmission power of the communication module is effectively controlled.

Optionally, the translation earphone includes a first interface and a second interface, and the communication chip is connected to the processor through the first interface or the second interface.

In the implementation mode, due to different requirements of the user, the user can realize different requirements within different times, the communication chip and the processor are connected through the first interface or the second interface through the two different interfaces of the first interface and the second interface in the translation earphone when the translation earphone is in different states, the corresponding interfaces in the two different interfaces are connected, different functions of the communication module can be realized when the translation earphone is in different states within different times, the practicability of the communication module is improved, and the translation earphone is suitable for different situations.

Optionally, the bluetooth module includes a bluetooth chip, a first storage unit, and a microphone unit;

the microphone unit is used for acquiring the voice signal, and the Bluetooth chip is connected with the microphone unit to acquire the voice signal;

the first storage unit is connected with the Bluetooth chip and used for storing the voice signal.

In the implementation mode, the voice signal input by the user is recorded through the microphone unit in the Bluetooth module, the voice signal can be transmitted to the Bluetooth chip connected with the microphone unit, and the tone quality and the accuracy of the voice signal can be improved. Through being connected of bluetooth chip and first memory cell, can save the speech signal received in the bluetooth chip to supply bluetooth module to give processing module with speech signal transmission, with accuracy and the validity that improves the speech signal translation.

Optionally, the translation earphone includes an audio bus interface, and the bluetooth chip is connected to the processing module through the audio bus interface, so as to transmit the voice signal between the bluetooth module and the communication module.

In the implementation mode, the Bluetooth chip is connected with the processing module through an audio bus interface in the translation earphone, the voice signal can be transmitted to the processor in the processing module, the processing module is controlled to transmit the voice signal in the communication module and the Bluetooth module, and the receiving process from voice input to the background server is realized through the connection of the communication module and the background server, so that the voice signal is translated in real time. The method effectively improves the transmission efficiency of the voice signals, improves the translation efficiency and quality of translation work, and improves the translation performance of the translation earphone.

Optionally, the microphone unit comprises a first microphone and a second microphone;

the first microphone is connected with the Bluetooth chip and used for acquiring an initial voice signal;

the second microphone is connected with the Bluetooth chip and used for reducing noise of the initial voice signal to obtain the voice signal.

In the implementation manner, because in a relatively noisy environment, the recorded voice signal is easily subjected to environmental interference, and the voice information with higher accuracy cannot be recorded, the voice input by the user is recorded and denoised respectively by the two microphones in the microphone unit, and the initial voice signal acquired by the first microphone in the relatively noisy environment can be denoised by the second microphone. The accuracy and the effectiveness of the voice signal are effectively improved, and real-time and effective data are provided for the subsequent translation work.

Optionally, the translation earphone further comprises a function key;

the function keys are connected with the Bluetooth module;

the Bluetooth module is connected with the user terminal based on Bluetooth.

In the above implementation manner, the translation earphone is further provided with function keys outside, through the connection between the bluetooth module and the function keys, the multiple play functions in the bluetooth module can be controlled according to the function keys, the bluetooth module is connected with the user terminal through the bluetooth function, and the translation earphone can be used as the bluetooth earphone to play the translation of the voice signal in the user terminal. And controlling the Bluetooth module according to the function key, and performing corresponding control when the Bluetooth module is connected with the user terminal for translation. The control efficiency of the translation earphone is effectively improved, and the use experience of a user is improved.

Optionally, the translation earphone includes a second storage unit, the identification chip is connected to the second storage unit, and the second storage unit is configured to store the instruction signal.

In the implementation manner, through the connection between the identification chip and the second storage unit, the instruction signal obtained by identifying the voice instruction input by the user through the identification chip can be stored in the second storage unit, and the instruction signal can be sent to the bluetooth module through the connection between the identification chip and the bluetooth module, so that the bluetooth module can perform corresponding processing according to the instruction signal. The voice control function of the translation earphone is realized, the accuracy and the real-time performance of voice instruction recognition are improved, the limb operation of a user on the translation earphone is reduced, and the use experience of the user is improved.

Optionally, the translation earphone includes a third microphone, the recognition chip is connected to the third microphone, and the third microphone is configured to obtain the voice instruction.

In the implementation manner, in order to improve the validity of the voice instruction, the third microphone is arranged in the translation earphone so as to record the instruction content input by the user and acquire the corresponding voice instruction, and the recognition chip is connected with the third microphone so as to acquire the voice instruction, so that the accuracy and validity of the voice instruction can be improved, and the accuracy of the recognition chip in recognition is improved.

To sum up, this application provides a translation earphone, has optimized the structure of translation earphone, through set up communication module and processing module in the translation earphone, can form two kinds of translation modes with bluetooth module, according to communication connection of communication module and backstage server up to now, carries out translation in real time to the speech signal of transmission, is applicable to more translation scenes, has improved translation earphone's translation efficiency and quality effectively, improves the performance of translation earphone, promotes user experience.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are required to be used in the embodiments of the present application will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present application and therefore should not be considered as limiting the scope, and that those skilled in the art can also obtain other related drawings based on the drawings without inventive efforts.

Fig. 1 is a schematic structural diagram of a translation earphone according to an embodiment of the present disclosure;

fig. 2 is a schematic structural diagram of a translation earphone according to an embodiment of the present disclosure;

fig. 3 is a schematic diagram illustrating a translation process of translating headphones according to an embodiment of the present application;

fig. 4 is a schematic diagram of a translation process for translating headphones according to an embodiment of the present application.

Icon: 10-identification chip; 20-a bluetooth module; 21-a Bluetooth chip; 22-a first storage unit; 23-a microphone unit; 231-a first microphone; 232-a second microphone; 30-a processing module; 31-a processor; 32-a sensor; 40-a communication module; 41-communication chip; 42-user identification card; 51-a first interface; 52-a second interface; 53-audio bus interface; 54-a second storage unit; 55-third microphone.

Detailed Description

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

The embodiment of the application provides a translation earphone which can be connected with various electronic devices for use, so as to realize a translation mode of bluetooth work, and the electronic devices can be Personal Computers (PCs), tablet computers, smart phones, Personal Digital Assistants (PDAs) and other electronic devices with a logic calculation function. The network translation system can also be not connected with external electronic equipment, realize a network working translation mode when a user can not carry the electronic equipment or does not need to carry the electronic equipment, and carry out independent use through a built-in communication module and a processing module. The translation earphone provided by the embodiment of the application improves the translation efficiency and the translation quality through the optimization of the structure, thereby improving the translation performance of the translation earphone, being suitable for various scenes and meeting various requirements of users.

Referring to fig. 1, fig. 1 is a schematic structural diagram of a translation earphone according to an embodiment of the present application, where the translation earphone includes: an identification chip 10, a bluetooth module 20, a processing module 30 and a communication module 40. The identification chip 10 is connected to the bluetooth module 20, the bluetooth module 20 is connected to the processing module 30, and the processing module 30 is connected to the communication module 40.

Optionally, the connection mode between the modules may be selected according to the working states of the modules, and the connection mode may be a plurality of different interfaces or data lines. Each module is also connected with a power supply in the translation earphone to provide electric energy for the work of each module.

The recognition chip 10 is used for recognizing a voice command input by a user, and transmitting a corresponding recognized command signal to the bluetooth module 20 through connection with the bluetooth module 20. The bluetooth module 20 is used for acquiring a voice signal input by a user, and controlling the processing module 30 to transmit the voice signal through the connection with the processing module 30. The processing module 30 controls the communication module 40 through the connection with the communication module 40, and the communication module 40 is connected with the background server through a network to serve as a Modem (Modem) to connect the processing module 30 and the background server, so as to realize data transmission between the processing module 30 and the background server and translate the voice signal transmitted in the processing module 30.

In the embodiment shown in fig. 1, a voice command input by a user is recognized through the recognition chip, a voice signal is acquired through the bluetooth module, the control processing module transmits the voice signal, the processing module controls the communication module, and the communication module is connected with the processing module and the background server to translate the voice signal.

Referring to fig. 2, fig. 2 is a schematic structural diagram of a translation earphone according to an embodiment of the present disclosure.

Optionally, the communication module 40 may include a communication chip 41 and a user identification card 42. The communication chip 41 is connected to the user identification card 42 to identify the user identity of the translation headset.

The communication chip 41 may be a chip based on LTE (Long Term Evolution) technology, such as EU140Q chip. In order to reduce the volume of the translation headset and improve the use experience of the user, the user identification card 42 may be a plurality of virtual SIM (Subscriber Identity module) cards, an embedded technology is adopted to be arranged in the communication module 40, the user can change the operator service of the virtual SIM card, the virtual SIM card can be scrubbed for a plurality of times, and the virtual SIM card can carry a plurality of IMSI (International Mobile Subscriber Identity) cards to meet various requirements of the user, and is suitable for more scenes. For example, the virtual SIM card used in the embodiment of the present application may be a virtual SIM card ST33G1M 2.

The communication module 40 can identify the identity information in the user identity card 42 by the communication chip 41 when performing communication connection so as to connect to a corresponding background server, thereby improving the accuracy and effectiveness of communication connection and realizing real-time voice translation.

Alternatively, the processing module 30 may include a processor 31 and a sensor 32, the processor 31 is connected to the sensor 32, and the processor 31 is connected to the communication chip 41 to control the transmission signal of the communication module 40.

The processor 31 may be a processor of various models, such as an android chip MT6580, and the processor 31 has translation application software installed therein. The Sensor 32 may be a virtual Sensor of various types, such as a SAR Sensor (Specific Absorption Rate Sensor), and may be of type SX 9331. Optionally, a virtual SAR Sensor is selected, which can detect the absorption of the electromagnetic wave capability of the translation earphone, so as to reduce the adverse effect of the electromagnetic wave on the user.

The processor 31 is connected with the sensor 32, and can control the transmission power of the communication module 40 to meet the SAR index requirement when the processor 31 controls the transmission signal of the communication module 40, so as to reduce the adverse effect caused by the electromagnetic wave.

Optionally, the translation headset may further include a first interface 51 and a second interface 52; because of the different requirements of the user, the translation headset is in different states at different times when the user achieves different requirements. The first interface 51 and the second interface 52 are two different interfaces, and optionally, the first interface 51 may be a USB (Universal Serial Bus) interface, and the second interface may be a PCM (Pulse Code Modulation) interface.

Illustratively, in the first time when the translation headset is connected to the network, the processor 31 recognizes the communication chip 41 as a USB network card, and the communication chip 41 is connected to the processor 31 through the first interface 51 for data transmission, so as to start the translation application software in the processor 31 to translate the voice signal in the network operation mode when the translation headset is not connected to the electronic device. During a second time period when the network is disconnected, for example, when a user makes a call, the communication chip 41 is connected to the processor 31 through the second interface 52, and the processing module 30 transmits and receives voice signals through the rf circuit and the antenna in the communication module 40. When the processor 31 controls the communication chip 41, the modem command language may be transmitted to the communication chip 41 through the first interface 51 or the second interface 52 for control.

Through different interfaces, different functions of the communication module 40 can be realized when the translation earphone is in different states in different time, the practicability of the communication module 40 is improved, and the translation earphone is suitable for various different conditions.

Optionally, the bluetooth module 20 may further include a bluetooth chip 21, a first storage unit 22, and a microphone unit 23. The microphone unit 23 is configured to acquire a voice signal input by a user, the bluetooth chip 21 is connected to the microphone unit 23 to acquire the acquired voice signal in the microphone unit 23, and the bluetooth chip 21 is connected to the first storage unit 22 to store the acquired voice signal.

The bluetooth chip 21 may be a chip of various models, for example, a chip of model QCC 3034. The first storage unit 22 may be a plurality of Flash memories satisfying a Serial Peripheral Interface (SPI) protocol, such as an SPI Flash (Serial Flash memory) model MX25U6432FZNI 02.

Via the bluetooth chip 21, the first memory unit 22 and the microphone unit 23. The collection, acquisition, storage and transmission of the voice signals can be realized, so that the bluetooth module 20 transmits the voice signals to the processing module 30, and the accuracy and effectiveness of the voice signal translation are improved.

Optionally, the translation headset may further include an audio bus interface 53, the bluetooth chip 21 is connected to the processor 31 in the processing module 30 through the audio bus interface 53, and transmits the voice signal to the processing module 30, so as to control the processing module 30 to transmit the voice signal between the communication module 40 and the bluetooth module 20, and implement a receiving process from voice logging to a background server, so as to translate the voice signal in real time. The method effectively improves the transmission efficiency of the voice signals, improves the translation efficiency and quality of translation work, and improves the translation performance of the translation earphone.

It should be noted that, when the processor 31 in the processing module 30 transmits the voice signal to the communication chip 41 in the communication module 40, in the network operating mode, the communication chip 41 may be used as a modem to connect the processor 31 and the background server, so as to transmit the voice signal to the background server through the communication connection between the translation application software installed in the processor 31 and the background server, so as to translate the voice signal in real time. The translation earphone receives translation contents obtained by translating voice signals in the background server through the communication module 40, the communication module 40 transmits the translation contents to the bluetooth module 20 through the processing module 30, and the bluetooth module 20 can be used as a Digital Signal Processor (DSP) for processing voice frequencies in a network working mode and used as a Digital audio processor for processing and playing the translation contents which are voice signals.

Optionally, the microphone unit 23 may further include a first microphone 231 and a second microphone 232, where the first microphone 231 and the second microphone 232 are both connected to the bluetooth chip 21, and output left and right channel sound sources, and the bluetooth chip controls the two microphones to drive the recording function of the translation headset. The first microphone 231 is used for collecting voice content input by a user to acquire an initial voice signal; the second microphone 232 is used for reducing noise of the initial voice signal to obtain a voice signal, so as to transmit the voice signal to the bluetooth chip 21 through connection. The first microphone 231 and the second microphone 232 may be analog microphones of various types to reduce poor recording quality and low accuracy caused by recording with a digital microphone. The connection mode between the first microphone 231 and the second microphone 232 and the bluetooth chip 21 may be an analog channel mode, so as to transmit the voice signal through the analog channel, thereby improving the transmission efficiency and quality of the voice signal.

The two microphones in the microphone unit 23 are used for respectively inputting and reducing noise of the sound input by the user, so that the interference on the acquired voice signal can be reduced in a relatively noisy environment, the accuracy and effectiveness of the voice signal are improved, and real-time and effective data are provided for the subsequent translation work.

Optionally, the external of the translation earphone may further be provided with a function key, the function key is connected to the bluetooth chip 21 in the bluetooth module 20, the bluetooth module 20 is connected to the user terminal based on the bluetooth function, and the function key may control various play functions in the bluetooth module 20, and control play of the translation content of the speech signal in the user terminal.

For example, the function keys may include a plurality of keys with different functions, such as a key for increasing or decreasing volume, a key for pausing or continuing playing, a key for selecting a working mode of a network mode or a bluetooth mode, and a key for turning on or off an earphone, so as to control the function of the translation earphone and improve the user experience by connecting the bluetooth chip 21 with the user terminal.

It should be noted that, when the translation earphone translation mode is the bluetooth working mode, the translation earphone is used as a bluetooth earphone, and is connected with the translation application software in the user terminal through the bluetooth module 20, so as to translate the voice signal in the bluetooth chip 21 through the data interaction between the translation application software and the background server, and receive and play the translated content through the bluetooth chip 21.

Optionally, a second storage unit 54 is further disposed in the translation earphone, the recognition chip 10 is connected to the second storage unit 54, the recognition chip 10 recognizes a voice instruction input by a user, and obtains a corresponding instruction signal through recognition, and the second storage unit 54 is configured to store the instruction signal. The identification chip 10 further sends the instruction signal to the bluetooth module 20 through the connection with the bluetooth module 20, so that the bluetooth module 20 performs corresponding processing according to the instruction signal.

The recognition chip 10 may be a low power consumption voice recognition chip with various models, for example, a recognition chip with a model of EOS3, which can effectively reduce the power consumption required by voice recognition. The second storage unit 54 may be various Flash memories satisfying the SPI protocol, such as SPI Flash of model MX25U8035FM 1I.

Alternatively, the voice command input by the user may be a voice for selecting a function of the translation headset, such as turning on, turning off, pausing playing, continuing playing, increasing volume, decreasing volume, and the like, and may also be a keyword in a different regional language, such as english, japanese, chinese, and the like. The identification chip identifies a plurality of voice instructions of a user to obtain corresponding instruction signals, wherein the instruction signals are signals corresponding to the voice instructions, such as signals for turning on, turning off, pausing playing, continuing playing, increasing volume, reducing volume and the like of an earphone, signals for switching English, Japanese, Chinese and the like corresponding languages for translation and the like, so that the translation earphone can automatically switch multi-national languages and can be used all over the world. The application range of the translation earphone is enlarged. In the connection between the identification chip 10 and the bluetooth module 20, the connection mode may be IO port, and the IO port in the identification chip 10 with three states is connected to the bluetooth chip 21 in the bluetooth module 20. When the instruction signal is a functional signal, the three state IO ports may output 8 different states to the bluetooth chip 21, so as to respond to different functional signals in the bluetooth chip 21; when the instruction signal is a language switching instruction, the three state IO ports can output 8 different states to the bluetooth chip 21, so that the bluetooth chip 21 is automatically switched to a corresponding language; for example, when the command signal is to power on, the identification chip 10 may directly output an interrupt signal to the bluetooth chip 21, so as to wake up the translation headset from the standby state for use.

Optionally, the translation earphone may further include a third microphone 55, the third microphone 55 is connected to the recognition chip 10, and the third microphone 55 may be an analog microphone with multiple models, so as to reduce the situations of poor recording quality and low accuracy caused by recording with a digital microphone. The connection mode between the third microphone 55 and the recognition chip 10 may be an analog channel mode, so as to transmit the voice signal through the analog channel, thereby improving the transmission efficiency and quality of the voice signal.

Through setting up solitary third microphone 55, input the instruction content of user input, obtain corresponding voice command, can improve voice command's accuracy and validity to accuracy when improving the discernment chip and discerning.

Through the recognition of the voice command sent by the user, the voice control function of the translation earphone is realized, the accuracy and the real-time performance of the voice command recognition are improved, the limb operation of the user on the translation earphone is reduced, and the use experience of the user is improved.

In the embodiment shown in fig. 2, the translation earphone can realize two translation modes, namely a network working mode and a bluetooth working mode, so that the tone quality and the accuracy of a voice signal are improved, the application scene of the translation earphone is expanded, the voice signal is translated in real time, the translation efficiency and the translation quality of the translation work are improved, and the performance of the translation earphone is improved.

Referring to fig. 3, fig. 3 is a schematic diagram of a translation process of translating an earphone, which is suitable for a translation process of a bluetooth working mode according to an embodiment of the present application, where the method includes the following steps:

step S601, recording is carried out through a microphone unit in the Bluetooth module, and a voice signal is obtained.

When recording, the first microphone in the microphone unit can be used for recording, the second microphone can be used for reducing noise, so that the recording quality and accuracy are improved, the accuracy of voice signals is improved, and accurate audio data is provided for translation work.

Step S602, sending the voice signal to the user terminal through the Bluetooth chip in the Bluetooth module.

The speech signal is received through translation application software in the user terminal so as to translate the speech signal in real time.

Step S603, receiving, by the bluetooth chip, a translation content of the user terminal for translating the voice signal based on the background server.

The translation application software in the user terminal interacts with the background server to translate the voice signal, and the Bluetooth chip receives translation contents sent by the user terminal.

Step S604, the left and right sound channels are driven by the Bluetooth chip to play the translated content.

Wherein, drive the left and right sound channel earphone of translation earphone through the bluetooth chip, realize the broadcast to the translation content.

In the embodiment shown in fig. 3, in the translation mode of the bluetooth operation mode, the recording, transmission and playing of the voice are realized by the bluetooth module, so as to translate the voice in real time.

Referring to fig. 4, fig. 4 is a schematic diagram of another translation process for translating earphones according to an embodiment of the present application, which is suitable for a translation process of a network operating mode, and the method includes the following steps:

and step S701, recording through a microphone unit in the Bluetooth module to acquire a voice signal.

Step S702, the voice signal is transmitted to the processor of the processing module through the Bluetooth chip in the Bluetooth module.

The Bluetooth chip transmits the acquired voice signals to the processor, and translation application software is arranged in the processor to translate the voice signals.

Step S703, identifying the user identification card through the communication chip in the communication module, so as to connect the processor to the corresponding background server for data transmission.

The translation earphone is in communication connection with the background server through the communication module, and translation work can be independently performed when the translation earphone is not connected with the electronic equipment. And identifying the identity information in the user identity identification card, connecting the processor to a corresponding background server, and performing data transmission on the audio data.

Step S704, receiving, by the processor, translation content obtained by translating the voice signal by the background server.

The translation application software in the processor interacts with the background server to translate the voice signal, and the processor receives translation content obtained through translation.

Step S705, receiving the translation content in the processor through the bluetooth chip.

The processor is connected with the Bluetooth chip to send the translation content to the Bluetooth chip for playing.

Step S706, the left and right sound channels are driven through the Bluetooth chip, and the translated content is played.

In the embodiment shown in fig. 4, the processing module is passed in the translation mode of the network operating mode. The communication module and the Bluetooth module realize the recording, transmission and playing of voice so as to translate the voice in real time.

The embodiment of the application provides a translation earphone, the structure of translation earphone has been optimized, through set up communication module and processing module in translation earphone, can form two kinds of translation modes with bluetooth module, according to communication connection of communication module and backend server up to now, carry out real-time translation to the speech signal of transmission, be applicable to more translation scenes, improved translation earphone's translation efficiency and quality effectively, improve translation earphone's performance, promote user and use experience.

In the embodiments provided in the present application, it should be understood that the disclosed apparatus may be implemented in other manners. The apparatus embodiments described above are merely illustrative, and for example, the block diagrams in the figures illustrate the architecture, functionality, and operation of possible implementations of devices according to various embodiments of the present application. In this regard, each block in the block diagrams may represent a module, segment, or portion of code, which comprises one or more executable instructions for implementing the specified logical function(s). It should also be noted that, in some alternative implementations, the functions noted in the block may occur out of the order noted in the figures. For example, two blocks shown in succession may, in fact, be executed substantially concurrently, or the blocks may sometimes be executed in the reverse order, depending upon the functionality involved. It will also be noted that each block of the block diagrams, and combinations of blocks in the block diagrams, can be implemented by special purpose hardware-based systems which perform the specified functions or acts, or combinations of special purpose hardware and computer instructions.

In addition, each module in the embodiments of the present application may be integrated together to form an independent part, or each module may exist separately, or two or more modules may be integrated to form an independent part.

The above description is only an example of the present application and is not intended to limit the scope of the present application, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, improvement and the like made within the spirit and principle of the present application shall be included in the protection scope of the present application. It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

The above description is only for the specific embodiments of the present application, but the scope of the present application is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present application, and shall be covered by the scope of the present application.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

Claims

1. A translation headset, comprising: the device comprises an identification chip, a Bluetooth module, a processing module and a communication module;

2. The translation headset of claim 1, wherein the communication module comprises a communication chip and a user identification card;

3. The translation headset of claim 2, wherein the processing module comprises a processor and a sensor;

the processor is connected with the sensor;

4. The translation earphone according to claim 3, wherein the translation earphone comprises a first interface and a second interface, and the communication chip is connected with the processor through the first interface or the second interface.

5. The translation headset of claim 1, wherein the bluetooth module comprises a bluetooth chip, a first memory unit, and a microphone unit;

6. The translation earphone according to claim 5, wherein the translation earphone comprises an audio bus interface, and the Bluetooth chip is connected with the processing module through the audio bus interface to transmit the voice signal in the Bluetooth module and the communication module.

7. The translation headset of claim 5, wherein the microphone unit comprises a first microphone and a second microphone;

8. The translation headset of claim 1, further comprising function keys on the translation headset;

the function keys are connected with the Bluetooth module;

the Bluetooth module is connected with the user terminal based on Bluetooth.

9. The translation earphone according to claim 1, wherein the translation earphone comprises a second storage unit, the identification chip is connected with the second storage unit, and the second storage unit is used for storing the instruction signal.

10. The translation earphone according to claim 9, wherein the translation earphone comprises a third microphone, the recognition chip is connected with the third microphone, and the third microphone is used for acquiring the voice command.