CN210927942U - Wireless earphone - Google Patents

Wireless earphone Download PDF

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Publication number
CN210927942U
CN210927942U CN201922483597.0U CN201922483597U CN210927942U CN 210927942 U CN210927942 U CN 210927942U CN 201922483597 U CN201922483597 U CN 201922483597U CN 210927942 U CN210927942 U CN 210927942U
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ear
controller
main
slave
earphone
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王震
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王震
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Abstract

The utility model relates to a wireless earphone, include: a master earphone and a slave earphone; the main earphone includes: the system comprises a main ear controller, a main ear receiver, a main ear microphone, a main ear communication component for data transmission of the main ear and a slave ear, a control component for sending a control signal to the main ear controller according to user operation and a SIM card component for receiving and sending voice call data; the slave earphone includes: the slave ear controller, the slave earphone, the slave ear microphone and the slave ear communication component matched with the master ear communication component; voice communication data are transmitted between the main ear controller and the SIM card component; the slave ear controller transmits voice information with the master ear controller through the slave ear communication component and the master ear communication component; the voice information includes voice call data. Adopt the technical scheme of the utility model, even wireless earphone does not link to each other with the cell-phone, also can utilize SIM card subassembly to realize wireless earphone's independent conversation function, improved wireless earphone's convenience and practicality.

Description

Wireless earphone
Technical Field
The utility model relates to a wireless communication technology field, concretely relates to wireless earphone.
Background
The wireless earphone is characterized in that the middle line is replaced by electric waves, the wireless earphone is connected to a transmitting end from an audio outlet of the terminal equipment, and then the transmitting end sends the electric waves to an earphone of a receiving end, and the receiving end is equivalent to a radio. The wireless earphone can communicate with the terminal device by utilizing a wireless communication technology (such as a Bluetooth technology, an infrared radio frequency technology, a 2.4G wireless technology and the like), and compared with a wired earphone, the wireless earphone is free from the constraint of physical wires, is more convenient to use and is rapidly developed.
However, the existing wireless headset needs to be connected with a mobile phone to be able to realize a call function, so that a user needs to carry the mobile phone all the time to avoid missing a call, which causes inconvenience under the condition that the user is inconvenient to carry the mobile phone, and the convenience and the practicability of the wireless headset are low.
SUMMERY OF THE UTILITY MODEL
In view of this, the utility model provides a wireless earphone, aim at overcome among the prior art wireless earphone's convenience and practicality lower not enough.
In order to achieve the above purpose, the utility model adopts the following technical scheme:
a wireless headset, comprising: a master earphone and a slave earphone;
the main earphone includes: the system comprises a main ear controller, a main ear receiver, a main ear microphone, a main ear communication component, a control component and an SIM card component, wherein the main ear communication component is used for the main ear receiver to respectively perform data transmission with a slave ear receiver and terminal equipment, the control component is used for sending a control signal to the main ear controller according to user operation, and the SIM card component is used for receiving and sending voice call data;
the slave earphone includes: the slave ear communication component is matched with the master ear communication component;
the main ear communication component, the control component, the main ear receiver, the main ear microphone and the SIM card component are respectively connected with the main ear controller;
the slave ear communication assembly, the slave earphone and the slave ear microphone are respectively connected with the slave ear controller;
the main ear controller and the SIM card component transmit the voice call data;
the slave ear controller transmits voice information with the master ear controller through the slave ear communication component and the master ear communication component; the voice information includes the voice call data.
Further, in the above wireless headset, the main headset further includes: a decoding component for converting the voice command transmitted by the main ear microphone into an electronic signal;
the main ear microphone and the main ear controller are respectively connected with the decoding component;
the main ear controller is also used for executing the voice instruction according to the electronic signal.
Further, in the above wireless headset, the main headset further includes: the SIM switch component is used for controlling the on-off of a circuit between the SIM card component and the main ear controller;
the SIM card component is connected with the main ear controller through the SIM switch component;
the main ear controller is connected with the terminal equipment in a matching mode through the main ear communication assembly.
Further, in the above wireless headset, the main headset further includes: a storage component;
the storage component is connected with the main ear controller.
Further, in the above wireless headset, the main headset further includes: a main ear sensing component for sensing the wearing state of the main earphone of the user;
the slave earphone further comprises: a slave ear sensing component for sensing a wearing state of the slave ear speaker of the user;
the main ear sensing assembly is connected with the main ear controller;
the slave ear sensing assembly is connected to the slave ear controller.
Furthermore, the wireless earphone also comprises a storage box;
the receiver includes: the storage controller, the charging assembly, the first battery, the interface and the storage bin are used for placing the master earphone and the slave earphone;
the charging assembly and the interface are respectively connected with the storage controller;
the first battery is connected with the charging assembly;
the interface is connected with the terminal equipment so that the user can detect the operating states of the storage box, the master earphone and the slave earphone through the terminal equipment;
the interface is also connected to a power source for charging the first battery.
Further, in the above wireless headset, the main headset further includes: a second battery;
the slave earphone further comprises: a third battery;
the receiver still includes: the charging switch assembly is used for sending a charging signal and a power-off signal to the storage controller;
the second battery is connected with the main ear controller;
the third battery is connected with the slave ear controller;
the charging switch assembly is connected with the storage controller;
when the main earphone is placed in the storage bin, the main earphone controller is connected with the storage controller;
when the slave earphone is placed in the storage bin, the slave ear controller is connected with the storage controller.
Further, in the above wireless headset, the storage case further includes: the storage sensing assembly is used for sensing the taking and placing state of the main earphone and the taking and placing state of the auxiliary earphone;
accomodate the response subassembly with accomodate the controller and link to each other.
Further, in the above wireless headset, the main headset further includes: the vibration component is used for vibrating according to the vibration signal sent by the main ear controller;
the vibration assembly is connected with the main ear controller.
Further, in the wireless headset described above, the control unit includes: keys and/or touch sensors.
The utility model discloses a wireless earphone, include: a master earphone and a slave earphone; the main earphone includes: the system comprises a main ear controller, a main ear receiver, a main ear microphone, a main ear communication component for data transmission of the main ear and a slave ear, a control component for sending a control signal to the main ear controller according to user operation and a SIM card component for receiving and sending voice call data; the slave earphone includes: the slave ear controller, the slave earphone, the slave ear microphone and the slave ear communication component matched with the master ear communication component; voice communication data are transmitted between the main ear controller and the SIM card component; the slave ear controller transmits voice information with the master ear controller through the slave ear communication component and the master ear communication component; the voice information includes voice call data. Therefore, even if the wireless earphone is not connected with the mobile phone, the SIM card component can be used for realizing the independent call function of the wireless earphone, and the convenience and the practicability of the wireless earphone are improved.
It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the invention as claimed.
Drawings
In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and for those skilled in the art, other drawings can be obtained without creative efforts.
Fig. 1 is a structural diagram of a first embodiment of the wireless headset according to the present invention;
fig. 2 is a structural diagram of a second embodiment of the wireless headset according to the present invention.
Detailed Description
To make the objects, aspects and advantages of the present invention clearer, exemplary embodiments will be described in detail herein, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. The embodiments described in the following exemplary embodiments do not represent all embodiments consistent with the present invention. Rather, they are merely examples of apparatus and methods consistent with certain aspects of the invention, as detailed in the appended claims.
Fig. 1 is a circuit diagram of a first embodiment of the wireless headset of the present invention, as shown in fig. 1, the wireless headset of the present embodiment includes a master headset 1 and a slave headset 2; the main headphone 1 includes: a main ear controller 101, a main ear communication component 102, a SIM card component 103, a control component 104, a main earpiece 105 and a main ear microphone 106; the slave headphone 2 includes: a slave ear controller 201, a slave ear communication assembly 202, a slave ear piece 203 and a slave ear microphone 204. Wherein, the main ear communication component 102, the SIM card component 103, the control component 104, the main ear phone 105 and the main ear microphone 106 are respectively connected to the main ear controller 101; the slave ear communication module 202, the slave ear phone 203 and the slave ear microphone 204 are respectively connected with the slave ear controller 201; the master earphone 1 can perform data transmission with the slave earphone 2 and the terminal device through the master ear communication component 102, the slave ear communication component 202 is matched with the master ear communication component 102, and the master earphone 1 and the slave earphone 2 can perform data transmission through the master ear communication component 102 and the slave ear communication component 202.
In this embodiment, the main earphone 1 can realize functions such as independent call and networking through the SIM card component 103, receive voice call data of the other end of communication through the SIM card component 103, and transmit the voice call data to the main ear controller 101, the main ear controller 101 controls the main ear phone 105 to play voice corresponding to the voice call data, and receives voice call data collected by the main ear microphone 106, and transmits the voice call data to the other end of communication through the SIM card component 103, thereby realizing the independent call function of the wireless earphone itself. The slave ear controller 201 in the slave ear set 2 can perform data transmission of voice call data with the master ear controller 101 through the slave ear communication module 202 and the master ear communication module 102, thereby enabling both the master ear set 1 and the slave ear set 2 to perform voice calls.
In this embodiment, the control component 104 in the main earphone 1 can send a control signal to the main ear controller 101 according to a user operation. The user can control the connection and the disconnection of the voice call through the control component 104, adjust the volume of the voice call, and control the pause and the start of the playing content (e.g., a song, a broadcast, etc.), so that it can be seen that the control signal may include a connection control signal, a disconnection control signal, a volume up signal, a volume down signal, a playing pause signal, a playing start signal, and the like. The control component 104 in this embodiment may include: the key and/or touch sensor can be provided with a plurality of keys and/or touch sensors, so that the functions of connecting/hanging up the voice call, adjusting the voice volume and pausing and starting the playing content are realized. The number of settings of the control assembly 104 is not limited in this embodiment.
In this embodiment, the chip type preferably used by the main ear controller 101 may be a 64-bit dual-core S4 SiP chip, Snapdragon Wear 2100, MT6739, etc., and the chip is provided with a communication chip therein, and also supports GPS/GLONASS/Galileo/QZSS, NFC, WiFi 802.11b/g/n, 2.4GHz, bluetooth 5.0, etc., so that if the chip of the above type is used, the communication chip built in the chip may be used to replace the main ear communication module 102, that is, if the chip of the above type is used as the main ear controller 101, the main ear communication module 102 may not be provided, and the communication chip built in the chip of the above type may be directly used for communication. The type number of a chip preferably adopted by the SIM card component 103 in this embodiment may be STMicroelectronics-ST33G1M2, and the chip may implement over-the-air card writing and support 2/3/4G and NB-IoT communications; the preferred chip used by the slave ear controller 201 can be QCC5126, H1 chip, etc., if the above-mentioned type of chip is used, the slave ear communication module 202 can be replaced by the communication chip built in the above-mentioned chip, i.e. if the above-mentioned type of chip is used as the slave ear controller 201, the slave ear communication module 202 can be omitted, and the communication can be performed by directly using the communication chip built in the above-mentioned type of chip. Those skilled in the art can implement circuit connection according to the model provided in this embodiment, and this embodiment is not described again.
The wireless earphone of the embodiment comprises: a master earphone 1 and a slave earphone 2; the main headphone 1 includes: a main ear controller 101, a main ear phone 105, a main ear microphone 106, a main ear communication component 102, a control component 104 and a SIM card component 103; the slave headphone 2 includes: a slave ear controller 201, a slave ear piece 203, a slave ear microphone 204 and a slave ear communication component 202 matching the master ear communication component 102; voice call data is transmitted between the main ear controller 101 and the SIM card component 103; the slave ear controller 201 transmits voice information with the master ear controller 101 through the slave ear communication module 202 and the master ear communication module 102; the voice information includes voice call data. Therefore, even if the wireless earphone is not connected with the mobile phone, the SIM card component 103 can be used for realizing the independent call function of the wireless earphone, and the convenience and the practicability of the wireless earphone are improved.
Fig. 2 is a circuit diagram of a second embodiment of the wireless headset according to the present invention. As shown in fig. 2, on the basis of the above-mentioned embodiment, the main earphone 1 of the present embodiment further includes a storage component 112, the storage component 112 is connected to the main ear controller 101, and a user can store voice information such as songs and voices through the storage component 112, so as to control the main earphone 105 to play the voice information through the main ear controller 101. The slave ear controller 201 can also control the slave ear phone 203 to play the voice information by acquiring the voice information in the storage component 112 from the slave ear communication component 202 and the master ear communication component 102, so as to realize the synchronous play of the voice information by the master ear phone 1 and the slave ear phone 2. The storage component 112 may also store contact information (phone numbers) and the like. The storage component 112 may be an SD memory card, and is detachably disposed in the main headset 1.
Further, the main earphone 1 of the present embodiment is further provided with a decoding component 107, the main ear microphone 106 and the main ear controller 101 are respectively connected to the decoding component 107, and the decoding component 107 is configured to convert the voice command transmitted by the main ear microphone 106 into an electronic signal. The user can control the main earphone 1 by voice, the main ear microphone 106 can collect a voice instruction sent by the user, send the voice instruction to the decoding component 107, the decoding component 107 converts the voice instruction into an electronic signal and sends the electronic signal to the main ear controller 101, and the main ear controller 101 executes the voice instruction according to the electronic signal. For example, after the user sends a voice command of "call XX", the main ear microphone 106 collects the voice command and sends the voice command to the decoding chip 107, the decoding chip 107 converts the voice command into an electronic signal and sends the electronic signal to the main ear controller 101, and the main ear controller 101 searches for the telephone number XX from the memory or storage component 112 carried by the main ear controller 101 according to the electronic signal, and dials XX through the SIM card component 103 after finding the telephone number XX. In addition, the user can also directly speak a telephone number, and after a voice command of dialing is sent, the main ear controller 101 can control the SIM card component 103 to dial the telephone number spoken by the user. The user can also utilize the voice instruction to control the answering and hanging up of the voice call, adjust the volume of the earphone, store the contact information and the like. The slave ear phone 2 can realize data transmission between the slave ear controller 201 and the master ear controller 101 through the slave ear communication module 202 and the master ear communication module 102, and the user can also realize the execution of the voice command by the master ear controller 101 by sending a voice command to the master ear controller 101 through the slave ear microphone 204 in the slave ear phone 2 so that the decoding module 107 connected with the master ear controller 101 converts the voice command into an electronic signal. Therefore, the main earphone 1 and the slave earphone 2 can both perform voice control on voice call, voice playing and the like, and convenience and practicability of the wireless earphone application of the embodiment are improved. In this embodiment, the decoding component 107 preferably adopts an MT8516 chip or a Voitist611, and the above chips have different interfaces and connections, and are mainly used for processing audio and a microphone, and those skilled in the art can implement circuit connection by the model provided in this embodiment, which is not described again in this embodiment.
Further, in this embodiment, the primary earphone 1 further includes a SIM switch component 108, and the SIM card component 103 is connected to the primary ear controller 101 through the SIM switch component 108. The main ear controller 101 can be connected to the terminal device 5 through the main ear communication component 102 in a matching manner, when the main ear controller 101 is connected to the terminal device 5 through the main ear communication component 102, the main ear controller 101 can control the SIM switch component 108 to be disconnected, so that the connection between the SIM card component 103 and the main ear controller 101 is disconnected, so that the wireless headset of the present embodiment is connected to the terminal device 5 in a matching manner, thereby realizing functions such as voice communication, when the main ear controller 101 is not connected to the terminal device 5 in a matching manner, the main ear controller 101 can control the SIM switch component 108 to be closed, so that the connection between the SIM card component 103 and the main ear controller 101 is conducted, thereby realizing the independent voice communication function of the wireless headset of the present embodiment, so that the wireless headset is connected to the terminal device 5 and can realize voice communication under two conditions of the independent state of the wireless headset, and the mutual interference can not be caused, and the practicability of the wireless earphone is improved.
Further, in this embodiment, the master earphone 1 further includes a master ear sensing component 109, and the slave earphone 2 further includes a slave ear sensing component 205, wherein the master ear sensing component 109 is connected to the master ear controller 101, and the slave ear sensing component 205 is connected to the slave ear controller 201. The master ear sensing component 109 is used for sensing the current wearing state of the master earphone 1 by the user, the slave ear sensing component 205 is used for sensing the current wearing state of the slave earphone 2 by the user, if the user wears the master earphone 1 or the slave earphone 2, the corresponding master ear controller 101 or the slave ear controller 201 will generate a worn notification, and play the "worn" voice through the corresponding master earphone 105 or the slave earphone 203. Therefore, the user can determine whether the current wearing is successful when wearing the earphone, and the practicability of the wireless earphone is improved. In addition, when the main ear sensing component 109 senses that the user takes off the earphone, the current main earphone wearing state is sent to the main ear controller 101, and the main ear controller 101 controls the main earphone 105 to pause playing the currently playing content (such as a song, a phase sound, a broadcast, etc.), and then continue playing the content after wearing the main earphone 1 again. The secondary ear sensing assembly 205 functions in the same manner as the primary ear sensing assembly 109 and will not be described in detail herein. In this embodiment, both the master ear sensing assembly 109 and the slave ear sensing assembly 205 can employ an optical sensor or a proximity sensor, etc., and the optical sensor or the proximity sensor is used to detect whether the earphone is worn. The connection mode of the optical sensor or the proximity sensor and the controller belongs to the prior art, and a person skilled in the art can realize the connection of the master ear sensing assembly 109 and the master ear controller 101 and the connection of the slave ear sensing assembly 205 and the slave ear controller 201 according to the models of the master ear controller 101 and the slave ear controller 201 provided in the present embodiment.
Further, the main earphone 1 of the present embodiment further includes a vibration component 111, and the vibration component 111 is connected to the main ear controller 101. The vibrating assembly 111 may vibrate according to a vibration signal sent by the master ear controller 101. When the main earphone 1 receives a voice call, or when the earphone is worn, the main ear controller 101 may send a vibration signal to the vibration component 111, so that the main earphone 1 vibrates to notify the user that the earphone is worn successfully, or a person has an incoming call, etc. When the main earphone 1 receives the voice call, the main ear controller 101 can control the main earphone 105 to play the preset incoming call prompt voice, and also can control the vibration component 111 to vibrate, and can also simultaneously perform, thereby realizing the function of incoming call notification, and improving the convenience and the practicability of the wireless earphone.
Further, the wireless headset of this embodiment further includes storage box 3, and storage box 3 includes: a storage controller 301, a charging assembly 302, a first battery 303, an interface 304, a charging switch assembly 305 and a storage compartment (not shown); the primary earpiece 1 further comprises a second battery 110; the slave headset 2 further comprises a third battery 206. The storage bin is used for placing a main earphone 1 and a slave earphone 2; the charging assembly 302, the first battery 303, the interface 304 and the charging switch assembly 305 are all connected with the storage controller 301; the charging assembly 302 is connected with a first battery 303; the second battery 110 is connected with the main ear controller 101; the third battery 206 is connected to the slave ear controller 201; when the main earphone 1 is placed in the storage bin, the main ear controller 101 is connected with the storage controller 301; when the slave ear set 2 is placed in the storage compartment, the slave ear controller 201 is connected to the storage controller 301.
The storage controller 301 can be connected with the power source 4 or the terminal device 5 through the interface 304, when the storage controller 301 is connected with the power source 4 through the interface 304, the charging operation of the first battery 303 can be controlled through the charging component 302, and the first battery 303 can be used as a charging treasure to store electric quantity so as to charge the master earphone 1 and the slave earphone 2. The charging switch assembly 305 is configured to send a charging signal and a power-off signal to the storage controller 301, when the master earphone 1 and/or the slave earphone 2 is placed in the storage compartment, the storage controller 301 controls the connection between the first battery 303 and the second battery 110 and/or the third battery 206 to be on after receiving the charging signal, so as to implement a function of charging the master earphone 1 and the slave earphone 2, and when the second battery 110 and/or the third battery 206 is fully charged or receives the power-off signal, controls the connection between the first battery 303 and the second battery 110 and/or the third battery 206 to be off, so as to stop charging the master earphone 1 and/or the slave earphone 2. The charging switch assembly 305 may be a switch button, and transmits a charging signal when the on button is pressed, and transmits a power-off signal when the off button is pressed. When the storage controller 301 is connected to the terminal device 5 through the interface 304, the user can detect the storage case 3 and the master and slave earphones 1 and 2 placed in the storage case through the terminal device 5, and detect the operating states of the storage case 3, the master and slave earphones 1 and 2, wherein the operating states include performance, hardware problems, and the like. The wireless earphone of this embodiment can preserve main earphone 1 and follow earphone 2 through setting up receiver 3, avoids losing, also can realize charging and detect running state's function, has improved wireless earphone's convenience and practicality. In this embodiment, the model adopted by the storage controller 301 is preferably STM32L476MGY6, and the model adopted by the charging component 302 is preferably 610A3B KN 3308. The first battery 303, the second battery 110 and the third battery 206 are preferably lithium batteries with protective plates; in addition, a button battery can be adopted, if the button battery is adopted, the charging assembly 302 matched with the second battery 110 needs to be arranged in the main earphone 1, and the charging assembly 302 matched with the third battery 206 needs to be arranged in the auxiliary earphone, because the charging IC is arranged in the lithium battery with the protection board, the charging IC can replace the charging assembly 302, if the lithium battery with the protection board is adopted in the first battery 303, the charging assembly 302 can not be arranged, and the charging IC is not arranged in the button battery, so the charging assembly 302 needs to be arranged to manage and control the batteries.
Further, in this embodiment, the storage box 3 further includes a storage sensing component 306, and the storage sensing component 306 is connected to the storage controller 301. The accommodation sensing component 306 may employ an optical sensor or a proximity sensor, etc., and the optical sensor or the proximity sensor is used to detect whether the earphone is taken out or placed. The storage sensing component 306 may sense a pick-and-place state of the master earphone 1 and a pick-and-place state of the slave earphone 2, and the storage controller 301 may control charging of the master earphone 1 and the slave earphone 2 according to the pick-and-place state of the master earphone 1 and the pick-and-place state of the slave earphone 2. For example, the receiving sensing component 306 senses that the main earphone 1 is in the placing state and the slave earphone 2 is in the removing state, and then the receiving controller 301 may only control the circuit between the first battery 303 and the second battery 110 to be conducted after receiving the charging signal.
The wireless earphone of the embodiment can realize the voice control of the wireless earphone by setting the decoding component 107, can store the voice information such as music, phase sound and the like and the telephone of a contact person by setting the storage component 112, can realize the voice call without mutual interference under the two conditions that the wireless earphone is connected with the terminal equipment 5 and the wireless earphone is in an independent state by setting the SIM switch component 108, can sense the wearing state of the earphone by setting the slave ear sensing component 205 and the master ear sensing component 109, controls the playing state according to the wearing state, realizes the vibration reminding to a user by setting the vibration component 111, can realize the storage and charging functions of the earphone by setting the storage box 3, can improve the convenience and the practicability of the wireless earphone by setting the above components, and can realize the independent call function of the wireless earphone by setting the SIM card component, the convenience and the practicability of the wireless earphone are also improved.
It is understood that the same or similar parts in the above embodiments may be mutually referred to, and the same or similar parts in other embodiments may be referred to for the content which is not described in detail in some embodiments.
It should be noted that, in the description of the present invention, the terms "first", "second", etc. are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. In addition, in the description of the present invention, "a plurality" means at least two unless otherwise specified.
In the description herein, references to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.
Although embodiments of the present invention have been shown and described, it is understood that the above embodiments are exemplary and should not be construed as limiting the present invention, and that variations, modifications, substitutions and alterations can be made to the above embodiments by those of ordinary skill in the art without departing from the scope of the present invention.

Claims (10)

1. A wireless headset, comprising: a master earphone and a slave earphone;
the main earphone includes: the system comprises a main ear controller, a main ear receiver, a main ear microphone, a main ear communication component, a control component and an SIM card component, wherein the main ear communication component is used for the main ear receiver to respectively perform data transmission with a slave ear receiver and terminal equipment, the control component is used for sending a control signal to the main ear controller according to user operation, and the SIM card component is used for receiving and sending voice call data;
the slave earphone includes: the slave ear communication component is matched with the master ear communication component;
the main ear communication component, the control component, the main ear receiver, the main ear microphone and the SIM card component are respectively connected with the main ear controller;
the slave ear communication assembly, the slave earphone and the slave ear microphone are respectively connected with the slave ear controller;
the main ear controller and the SIM card component transmit the voice call data;
the slave ear controller transmits voice information with the master ear controller through the slave ear communication component and the master ear communication component; the voice information includes the voice call data.
2. The wireless headset of claim 1, wherein the primary headset further comprises: a decoding component for converting the voice command transmitted by the main ear microphone into an electronic signal;
the main ear microphone and the main ear controller are respectively connected with the decoding component;
the main ear controller is also used for executing the voice instruction according to the electronic signal.
3. The wireless headset of claim 1, wherein the primary headset further comprises: the SIM switch component is used for controlling the on-off of a circuit between the SIM card component and the main ear controller;
the SIM card component is connected with the main ear controller through the SIM switch component;
the main ear controller is connected with the terminal equipment in a matching mode through the main ear communication assembly.
4. The wireless headset of claim 1, wherein the primary headset further comprises: a storage component;
the storage component is connected with the main ear controller.
5. The wireless headset of claim 1, wherein the primary headset further comprises: a main ear sensing component for sensing the wearing state of the main earphone of the user;
the slave earphone further comprises: a slave ear sensing component for sensing a wearing state of the slave ear speaker of the user;
the main ear sensing assembly is connected with the main ear controller;
the slave ear sensing assembly is connected to the slave ear controller.
6. The wireless headset of claim 1, further comprising a receiver;
the receiver includes: the storage controller, the charging assembly, the first battery, the interface and the storage bin are used for placing the master earphone and the slave earphone;
the charging assembly and the interface are respectively connected with the storage controller;
the first battery is connected with the charging assembly;
the interface is connected with the terminal equipment so that the user can detect the operating states of the storage box, the master earphone and the slave earphone through the terminal equipment;
the interface is also connected to a power source for charging the first battery.
7. The wireless headset of claim 6, wherein the primary headset further comprises: a second battery;
the slave earphone further comprises: a third battery;
the receiver still includes: the charging switch assembly is used for sending a charging signal and a power-off signal to the storage controller;
the second battery is connected with the main ear controller;
the third battery is connected with the slave ear controller;
the charging switch assembly is connected with the storage controller;
when the main earphone is placed in the storage bin, the main earphone controller is connected with the storage controller;
when the slave earphone is placed in the storage bin, the slave ear controller is connected with the storage controller.
8. The wireless headset of claim 6, wherein the receiver further comprises: the storage sensing assembly is used for sensing the taking and placing state of the main earphone and the taking and placing state of the auxiliary earphone;
accomodate the response subassembly with accomodate the controller and link to each other.
9. The wireless headset of claim 1, wherein the primary headset further comprises: the vibration component is used for vibrating according to the vibration signal sent by the main ear controller;
the vibration assembly is connected with the main ear controller.
10. A wireless headset according to any of claims 1-9, wherein the control assembly comprises: keys and/or touch sensors.
CN201922483597.0U 2019-12-31 2019-12-31 Wireless earphone Active CN210927942U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201922483597.0U CN210927942U (en) 2019-12-31 2019-12-31 Wireless earphone

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201922483597.0U CN210927942U (en) 2019-12-31 2019-12-31 Wireless earphone

Publications (1)

Publication Number Publication Date
CN210927942U true CN210927942U (en) 2020-07-03

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Family Applications (1)

Application Number Title Priority Date Filing Date
CN201922483597.0U Active CN210927942U (en) 2019-12-31 2019-12-31 Wireless earphone

Country Status (1)

Country Link
CN (1) CN210927942U (en)

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