CN112995852A

CN112995852A - Vehicle-mounted wireless earphone system and control method thereof

Info

Publication number: CN112995852A
Application number: CN202110211130.XA
Authority: CN
Inventors: 邓丽玲
Original assignee: Merry Technology Suzhou Co Ltd
Current assignee: Merry Technology Suzhou Co Ltd
Priority date: 2021-02-25
Filing date: 2021-02-25
Publication date: 2021-06-18
Anticipated expiration: 2041-02-25
Also published as: CN112995852B

Abstract

The application discloses a vehicle-mounted wireless earphone system and a control method thereof. On-vehicle wireless headphone system electric connection vehicle control system to include: the wireless earphone comprises a containing assembly, a detection module, a communication module and a wearing detection module, wherein the containing assembly is used for containing the wireless earphone; the detection module is used for detecting whether the wireless earphone is separated from the containing assembly or not; the communication module is connected with the detection module and used for outputting a notification signal to the vehicle control system when the detection module detects that the wireless earphone is separated from the accommodating component, so that the vehicle control system starts the wireless module, and the wireless module is used for establishing a connection with the wireless earphone; the wearing detection module is used for detecting whether the wireless earphone is worn or not when the wireless earphone is separated from the containing assembly; when the wearing detection module detects that the wireless earphone is worn and the wireless earphone and the wireless module are connected, the wireless module outputs an audio signal of the vehicle control system to the wireless earphone or receives a call signal of the wireless earphone.

Description

Vehicle-mounted wireless earphone system and control method thereof

Technical Field

The application relates to the field of vehicle-mounted intelligent equipment, in particular to a vehicle-mounted wireless earphone system and a control method thereof.

Background

When a driver needs to answer a call in the driving process, the driver can not answer the call directly in a mode of holding a mobile phone based on the aspects of safety and traffic regulation compliance, and usually answers the call through a sound amplification function of the mobile phone, a Bluetooth phone carried by a vehicle or a wireless earphone.

When a user answers a call through the sound amplifying function of the mobile phone and the Bluetooth telephone of the vehicle, the call content of the phone may relate to personal privacy, and the problem of inconvenient use exists. When a driver answers a call in a wireless earphone mode, the driver needs to search the wireless earphone carried by the driver and needs to manually operate to establish the pairing of the mobile phone and the wireless earphone, so that the potential safety hazard problem exists.

Disclosure of Invention

The embodiment of the application provides a vehicle-mounted wireless earphone system and a control method thereof, and solves the problems that in the prior art, the use is not convenient when a user answers a call in a mode of a mobile phone with a public address function and a vehicle with a Bluetooth phone, and the potential safety hazard problem exists when the user answers the call in a wireless earphone mode.

In order to solve the technical problem, the present application is implemented as follows:

in a first aspect, an on-board wireless headset system is provided and electrically connected to a vehicle control system. The in-vehicle wireless headset system includes: the device comprises a storage assembly, a detection module, a communication module and a wearing detection module. The receiving assembly is used for receiving the wireless earphone; the detection module is used for detecting whether the wireless earphone is separated from the containing assembly or not; the communication module is connected with the detection module and used for outputting a notification signal to the vehicle control system when the detection module detects that the wireless earphone is separated from the accommodating component, so that the vehicle control system starts the wireless module, and the wireless module is used for establishing a connection with the wireless earphone; the wearing detection module is connected with the detection module and used for detecting whether the wireless earphone is worn or not when the wireless earphone is separated from the accommodating assembly; when the wearing detection module detects that the wireless earphone is worn and the wireless earphone and the wireless module are connected, the wireless module outputs an audio signal of the vehicle control system to the wireless earphone or receives a call signal of the wireless earphone.

In a second aspect, a control method for an in-vehicle wireless headset system is provided, including: the vehicle-mounted wireless earphone system is electrically connected with the vehicle control system; receiving the wireless earphone in the receiving assembly; detecting whether the wireless earphone is separated from the containing assembly; when the wireless earphone is detected to be separated from the accommodating component, a notification signal is output to a vehicle control system, so that the vehicle control system starts the wireless module; establishing a connection between the wireless earphone and the wireless module; detecting whether the wireless headset is worn; when the wireless earphone is worn and the wireless earphone is connected with the wireless module, the audio signal of the vehicle control system is output to the wireless earphone through the wireless module, or the communication signal of the wireless earphone is received through the wireless module.

In the embodiment of the application, the wireless earphones are stored through the storage assembly, so that a driver does not need to search for the wireless earphones carried by the driver; when the wireless earphone is detected to be separated from the accommodating component, the wireless earphone is awakened to establish connection with the vehicle control system, so that a driver does not need to take time and manually operate to establish pairing of the mobile phone and the wireless earphone (namely, the connection between the wireless earphone and the vehicle control system is automatically established in the embodiment of the application, and then the connection between a wireless device (such as a mobile phone) and the wireless earphone is established); after the wireless earphone is worn, the transmission of the audio signal/the communication signal is started between the wireless earphone and the vehicle control system, so that the technical effects of power saving and high response speed of the wireless earphone are achieved.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the application and together with the description serve to explain the application and not to limit the application. In the drawings:

FIG. 1 is a schematic diagram of one embodiment of an in-vehicle wireless headset system, a vehicle control system, and a wireless device according to the present application;

FIG. 2 is a schematic diagram of another embodiment of an in-vehicle wireless headset system, a vehicle control system, and a wireless device according to the present application;

FIG. 3 is a schematic diagram of yet another embodiment of an in-vehicle wireless headset system, a vehicle control system, and a wireless device according to the present application; and

fig. 4 is a flowchart illustrating an embodiment of a control method of a vehicle wireless headset system according to the present application.

Detailed Description

Embodiments of the present invention will be described below with reference to the accompanying drawings. In the drawings, the same reference numerals indicate the same or similar components or process flows.

It will be understood that the terms "comprises" and/or "comprising," when used in this specification, specify the presence of stated features, values, method steps, operations, components, and/or components, but do not preclude the presence or addition of further features, values, method steps, operations, components, and/or groups thereof.

It will be understood that when an element is referred to as being "connected" or "coupled" to another element, it can be directly connected or coupled to the other element or intervening elements may be present. In contrast, when an element is described as being "directly connected" or "directly coupled" to another element, there are no intervening elements present. In addition, any reference to singular is intended to include the plural unless the specification specifically states otherwise.

Please refer to fig. 1, which is a schematic diagram of an embodiment of an in-vehicle wireless headset system, a vehicle control system and a wireless device according to the present application. As shown in fig. 1, the vehicle-mounted wireless headset system 100 is electrically connected to a vehicle control system 200, wherein the vehicle control system 200 may be, but is not limited to, a vehicle-mounted intelligent system, and is used for implementing various vehicle-mounted services such as navigation, safety, and vehicle, so as to improve the convenience of operation for a driver and bring more comfortable driving experience; the vehicle control system 200 may include a wireless module 210. It should be noted that in the present embodiment, the wireless device 50 (e.g., a mobile phone) carried by the driver after entering the vehicle establishes a connection with the wireless module 210 of the vehicle control system 200.

In the present embodiment, the in-vehicle wireless headset system 100 may include: the receiving assembly 110, the detecting module 120, the communication module 130 and the wear detecting module 140. The detecting module 120, the communication module 130 and the wear detecting module 140 can be implemented by various methods, including software, hardware, firmware or any combination thereof. The techniques presented in the implementations may be stored on a machine-readable storage medium using software or firmware, such as: read Only Memory (ROM), Random Access Memory (RAM), magnetic disk storage media, optical storage media, flash memory, etc., and may be implemented by one or more general or special purpose programmable microprocessors. The signal and/or data can be transmitted between the detecting module 120 and the communication module 130 and between the wearable detecting module 140 and the detecting module 120 through wireless or wired methods.

In the present embodiment, the receiving component 110 is used for receiving the wireless headset 300, wherein the receiving component 110 may be, but is not limited to, a half-open receiving groove without a box cover or a receiving groove with a box cover, and the receiving groove is adapted to receive the wireless headset 300. In some embodiments, the storage assembly 110 is fixed within the vehicle interior, for example the storage assembly 110 may be part of an instrument panel or console belonging to the vehicle; in some embodiments, the receiving assembly 110 is removably connected to the vehicle interior, for example, the receiving assembly 110 may be a device that is attached or plugged into an electrical connector or a specific base of the vehicle by a user.

In the present embodiment, the detecting module 120 is used for detecting whether the wireless headset 300 is detached from the receiving assembly 110. In one embodiment, when the receiving assembly 110 is a semi-open receiving groove without a lid or a receiving groove with a lid, the detecting module 120 may include, but is not limited to, a metal contact exposed on a surface of the receiving groove; when the metal contact contacts the wireless headset 300, the detection module 120 detects that the wireless headset 300 is received in the receiving assembly 110; when the metal contact is not in contact with the wireless headset 300, the detection module 120 detects that the wireless headset 300 is separated from the receiving assembly 110. In some embodiments, the aforementioned condition when the metal contact contacts the wireless headset 300 means that the wireless headset 300 itself has a corresponding metal contact, and the metal contact of the detection module 120 contacts the metal contact of the wireless headset 300 itself to generate an electrical connection; the aforementioned condition when the metal contact is not in contact with the wireless headset 300 means that the metal contact of the detection module 120 is changed from the state of being electrically connected to the metal contact of the wireless headset 300 to the state of not being electrically connected to the metal contact of the wireless headset 300.

In another embodiment, when the receiving element 110 is a receiving groove with a cover, the detecting module 120 may include, but is not limited to, a switch element, which is turned off when the cover is opened, and turned on when the cover is closed, so that the detecting module 120 may be used to detect whether the wireless headset 300 is separated from the receiving element 110.

In yet another embodiment, the detection module 120 may include one or a combination of a current sensor, a voltage sensor, an optical sensor, a magnetic sensor, and a weight sensor. Further, the detecting module 120 may be disposed on a surface of the receiving assembly 110 or disposed in the receiving assembly 110, and detect whether the wireless headset 300 is detached from the receiving assembly 110 by using a current sensor, a voltage sensor, an optical sensor, a magnetic sensor or a weight sensor included in the detecting module to obtain a current signal, a voltage signal, an optical signal, a magnetic signal or a weight signal.

In an implementation, the current sensor or the voltage sensor is disposed on a surface of the receiving assembly 110, and when the wireless headset 300 is received in the receiving assembly 110, the current sensor or the voltage sensor is electrically connected to the wireless headset 300, and when the current sensor or the voltage sensor is not electrically connected to the wireless headset 300, a current signal or a voltage signal is generated, so that the current sensor or the voltage sensor can detect whether the wireless headset 300 is detached from the receiving assembly 110; in some embodiments, the specific case when the current sensor or the voltage sensor is not electrically connected to the wireless headset 300 refers to a state where the current sensor or the voltage sensor is changed from the state where the current sensor or the voltage sensor is originally electrically connected to the wireless headset 300 to the state where the current sensor or the voltage sensor is not electrically connected to the wireless headset 300. The optical sensor is disposed on the surface of the receiving assembly 110, when the wireless headset 300 is received in the receiving assembly 110, the wireless headset 300 blocks light that can be sensed by the optical sensor, and when the wireless headset 300 is separated from the receiving assembly 110, the optical sensor can sense the light and generate an optical signal, so that the optical sensor can detect whether the wireless headset 300 is separated from the receiving assembly 110; the magnetic sensor is disposed in the receiving assembly 110, and when the wireless headset 300 is disposed with a magnet and received in the receiving assembly 110, the magnetic sensor can sense the magnetic field of the magnet, and when the wireless headset 300 is disposed with a magnet and disengaged from the receiving assembly 110, the magnetic sensor can sense that the magnetic field of the surrounding environment becomes smaller and generates a magnetic signal, so that the magnetic sensor can detect whether the wireless headset 300 is disengaged from the receiving assembly 110; the weight sensor is disposed on the surface of the receiving assembly 110, and when the wireless headset 300 is received in the receiving assembly 110, the weight sensor can sense pressure due to the weight of the wireless headset 300, and when the wireless headset 300 is separated from the receiving assembly 110, the weight sensor can generate a weight signal due to the decrease of the sensed pressure, so that the weight sensor can detect whether the wireless headset 300 is separated from the receiving assembly 110.

In this embodiment, the communication module 130 is connected to the detecting module 120 and configured to output a notification signal to the vehicle control system 200 when the detecting module 120 detects that the wireless headset 300 is detached from the receiving assembly 110, so that the vehicle control system 200 turns on the wireless module 210, and the wireless module 210 is configured to establish a connection with the wireless headset 300. It should be noted that if the wireless headset 300 is not in the receiving assembly 110 for a long time, for example: the driver wears the wireless headset 300 from the outside of the vehicle to enter the vehicle, and at this time, the wireless headset 300 does not establish a connection with the vehicle control system 200 through the wireless module 210; in other words, the operations of the communication module 130 and the detection module 120 are real-time operations.

In the present embodiment, the wearing detection module 140 is connected to the detection module 120 and is used for detecting whether the wireless headset 300 is worn when the wireless headset 300 is separated from the receiving assembly 110.

In one embodiment, the wearing detection module 140 may include one or a combination of an image sensor, a posture sensor, a light sensor, a temperature sensor, an infrared sensor, a biometric sensor. Further, the wearing detection module 140 may detect whether the wireless headset 300 is worn or not by using an image sensor, a posture sensor, a light sensor, a temperature sensor or a biometric sensor included therein, and using the acquired image signal, posture signal, light signal, temperature signal or biometric signal.

In an implementation, the wearing detection module 140 may be disposed on the wireless headset 300 (as shown in fig. 2, fig. 2 is a schematic view of another embodiment of the vehicle-mounted wireless headset system, the vehicle control system and the wireless device according to the present application) or the vehicle-mounted storage device 400 of the vehicle-mounted wireless headset system 100 (as shown in fig. 3, fig. 3 is a system diagram of another embodiment of the vehicle-mounted wireless headset system, the vehicle control system and the wireless device according to the present application); the image sensor may be disposed in the in-vehicle receiving device 400 of the in-vehicle wireless headset system 100, for example: an in-vehicle image detection module that continuously captures an image (i.e., an image signal) including a head of the driver, and detects whether the wireless headset 300 is worn by the driver based on the captured image; since the wireless headset 300 can be designed to have a specific posture and is determined to be worn by the user (i.e., an in-ear detection function), the posture sensor disposed on the wireless headset 300 can determine whether the wireless headset 300 has the specific posture according to the posture signal detected by the posture sensor, and further detect whether the wireless headset 300 is worn; the optical sensor may be an infrared sensor and is disposed on the wireless headset 300, when the wireless headset 300 is worn by a driver, an ear of the driver reflects an infrared light beam (i.e., an optical signal) emitted by the infrared sensor, so that the infrared sensor detects a distance between the infrared sensor and the ear of the driver through the reflected infrared light beam, and if the distance reaches a specific value, it detects that the wireless headset 300 is worn by the user; the temperature sensor may be disposed on the wireless headset 300, and when the temperature sensor determines, according to the temperature signal detected by the temperature sensor, that the measured temperature is between 36.5 ℃ and 37.5 ℃ of the average human body temperature, it is detected that the wireless headset 300 is worn by the user; the biometric sensor can be a sound wave sensor and is disposed on the wireless headset 300, and when the driver wears the wireless headset 300, the ear of the driver reflects the sound wave (i.e., the biometric signal) emitted by the sound wave sensor, so that the sound wave sensor detects whether the sound wave sensor is in the shape of the ear canal or not by the reflected sound wave, and if the sound wave sensor is in the shape of the ear canal, the wireless headset 300 is detected to be worn by the user.

In the embodiment, when the wearing detection module 140 detects that the wireless headset 300 is worn and the wireless headset 300 and the wireless module 210 are connected, the wireless module 210 outputs an audio signal of the vehicle control system 200 to the wireless headset 300, or the wireless module 210 receives a call signal of the wireless headset 300. The audio signal of the vehicle control system 200 may be, but is not limited to, an audio signal from the wireless device 50, and further, since the wireless device 50 carried by the driver after the driver enters the vehicle establishes a connection with the wireless module 210 of the vehicle control system 200, the wireless device 50 may transmit the audio signal to the wireless headset 300 for playing through the wireless module 210 of the vehicle control system 200 and the communication module 130 of the vehicle-mounted wireless headset system 100, and receive a call signal of the wireless headset 300 through the wireless module 210 of the vehicle control system 200 and the communication module 130 of the vehicle-mounted wireless headset system 100.

In the present embodiment, the wireless headset 300 is received by the receiving assembly 110; and when the detection module 120 detects that the wireless headset 300 is separated from the storage component 110, the wireless headset 300 is waken up to be connected with the vehicle control system 200, so that the problems of inconvenient use and potential safety hazard in the prior art are solved. After the wearing detection module 140 detects that the wireless headset 300 is worn, the transmission of the audio signal/the call signal is started between the wireless headset 300 and the vehicle control system 200, so as to achieve the technical effects of power saving and fast response speed of the wireless headset 300. In some embodiments, when the detection module 120 detects that the wireless headset 300 is separated from the receiving component 110, the wireless module 210 of the vehicle control system 200 is turned on, and a part of the functional modules of the wireless headset 300 is awakened, for example, when the detection module 140 is worn (in a case that the detection module 140 is disposed in the wireless headset 300), the rest functional modules of the wireless headset 300 still maintain a sleep state, so as to save power; until the wearing detection module 140 detects that the wireless headset 300 is worn, the wireless headset 300 will not wake up all the functional modules, thereby achieving the technical effect of power saving. In some embodiments, when the detecting module 120 detects that the wireless headset 300 is separated from the receiving component 110, the wireless module of the vehicle control system 200 is turned on in advance and establishes a communication connection with a specific function module of the wireless headset 300, so that after the wearing detecting module 140 detects that the wireless headset 300 is worn, the transmission of the audio signal/the communication signal between the wireless headset 300 and the vehicle control system 200 can be performed quickly, and the technical effect of high response speed is achieved.

In one embodiment, when the wearing detection module 140 detects that the wireless headset is worn, a notification signal is transmitted to the vehicle control system 200, so that the vehicle control system 200 starts to forward the audio signal currently played by the vehicle control system to the wireless headset 300 through the wireless module 210. Further, the wireless device 50 may be configured to transmit the audio signal to the wireless headset 300 for playing through the wireless module 210 of the vehicle control system 200 and the communication module 130 of the vehicle-mounted wireless headset system 100, and also be configured to receive and play the audio signal currently played by the vehicle control system 200, for example: a song or a broadcast signal.

Referring to fig. 2, the vehicle-mounted wireless headset system 100 further includes a vehicle-mounted storage device 400, the vehicle-mounted storage device 400 is embedded in a vehicle, and the storage element 110, the detection module 120 and the communication module 130 are disposed on the vehicle-mounted storage device 400.

In an embodiment, the vehicle-mounted storage apparatus 400 further includes a first power module 410, the storage assembly 110 further includes a first charging terminal 112, and the first power module 410 is connected to the detection module 120, the communication module 130 and the first charging terminal 112 to provide power to the detection module 120, the communication module 130 and the first charging terminal 112. In addition, the first power module 410 also provides power to other modules of the in-vehicle compartment apparatus 400, such as: when the wear detection module 140 is disposed in the in-vehicle storage apparatus 400, the first power module 410 also provides power to the wear detection module 140 (as shown in fig. 3).

In one embodiment, when the wireless headset 300 is received in the receiving assembly 110 of the vehicle receiving apparatus 400, the wireless headset 300 may contact the first charging terminal 112 of the receiving assembly 110, so that the first power module 410 can provide power to the second power module 320 of the wireless headset 300 through the first charging terminal 112, and the second power module 320 is used for storing power to provide power to the various modules of the wireless headset 300, for example: a connection module 310, a processing module 330, a speaker module 340 and a sound receiving module 350.

In one embodiment, the in-vehicle wireless headset system 100 further includes a wireless headset 300, the wireless headset 300 includes a connection module 310, a second power module 320 and a processing module 330 connected to the connection module 310, the connection module 310 is used for establishing a connection with the wireless module 210 or establishing a connection with the wireless module 210 and the wireless device 50 when the wireless headset 300 is detached from the receiving assembly 110; the processing module 330 is configured to receive and process an audio signal from the vehicle control system 200 or the wireless device 50 through the connection module 310 or output a call signal to the vehicle control system 200 or the wireless device 50 through the connection module 310 when the wearing detection module 140 detects that the wireless headset 300 is worn and the connection between the connection module 310 and the wireless module 210 or the connection between the wireless module 210 and the wireless device 50 is established; the second power module 320 is used for providing power to the connection module 310 and the processing module 330. In other words, in this embodiment, the wireless headset 300 may directly transmit the audio signal/call signal with the wireless device 50, or may indirectly transmit the audio signal/call signal with the wireless device 50 through the vehicle control system 200. When the wearing detection module 140 is disposed on the wireless headset 300, the processing module 330 is connected to the wearing detection module 140.

When the receiving assembly 110 receives the wireless headset 300, the wireless headset 300 is in a sleep mode (i.e., all modules included in the wireless headset 300 are not operated); when it is detected that the wireless headset 300 is separated from the receiving assembly 110, the wireless headset 300 is in an awake mode (i.e. only the connection module 310 included in the wireless headset 300 operates with the wearing detection module 140 (as shown in fig. 2), and none of the other modules operate, so as to achieve the technical effect of power saving, and the connection module 310 is used for performing low-power data communication with the wireless module 210, so as to establish a connection between the wireless headset 300 and the wireless module 210); when the wearing detection module 140 detects that the wireless headset 300 is worn, the wireless headset 300 is in a normal operation mode, and the wireless headset 300 and the vehicle control system 200 start to transmit the audio signal/call signal through the wireless module 210, and since a connection has been established between the wireless headset 300 and the wireless module 210 after the wireless headset 300 is taken out of the accommodating component 110 and before the wireless headset 300 is worn, the wireless headset 300 can be quickly switched to the transmission mode of the audio signal/call signal after being worn, thereby achieving the technical effect of faster response speed. In summary, since the wireless headset 300 can be switched from the sleep power saving mode to the wake-up mode and then from the wake-up mode to the normal operation mode, the technical effects of power saving and fast response speed can be achieved.

In an embodiment, the wireless headset 300 further includes a speaker module 340 and a sound receiving module 350, wherein the speaker module 340 is connected to the processing module 330, and is configured to play the audio signal received and processed by the processing module 330 through the connection module 310; the radio module 350 is connected to the processing module 330, receives the voice signal, and transmits the voice signal to the processing module 330, so that the processing module 330 receives and processes the voice signal, and outputs the call signal (i.e., the processed voice signal) to the vehicle control system 200 or the wireless device 50 through the connection module 310. In an implementation, the speaker module 340 may include, but is not limited to, a speaker of the wireless headset 300, and the sound receiving module 350 may include, but is not limited to, a microphone unit of the wireless headset 300.

In one embodiment, the detecting module 120 may be disposed on the wireless headset 300 for detecting whether the wireless headset 300 is separated from the receiving assembly 110.

Please refer to fig. 4, which is a flowchart illustrating a method of controlling a vehicle-mounted wireless headset system according to an embodiment of the present invention. In this embodiment, the control method of the vehicle-mounted wireless headset system includes the steps of: electrically connecting the vehicle-mounted wireless headset system and the vehicle control system (step 510); receiving the wireless headset in a receiving assembly (step 520); detecting whether the wireless earphone is separated from the receiving assembly (step 530); when the wireless earphone is detected to be separated from the accommodating component, outputting a notification signal to a vehicle control system to enable the vehicle control system to start the wireless module (step 540); establishing a connection between the wireless headset and the wireless module (step 550); detecting whether the wireless headset is worn (step 560); when it is detected that the wireless headset is worn and the wireless headset and the wireless module are connected, an audio signal of the vehicle control system is output to the wireless headset through the wireless module, or a call signal of the wireless headset is received through the wireless module (step 570).

Through the steps, the wireless earphone can be accommodated through the accommodating component; when the wireless earphone is detected to be separated from the accommodating component, the connection between the wireless earphone and the wireless module is established, and the problems of inconvenient use and potential safety hazard in the prior art are solved. After the wireless earphone is worn, the transmission of the audio signal/the communication signal is started between the wireless earphone and the vehicle control system, so that the technical effects of power saving and high response speed of the wireless earphone are achieved. The detailed description is already described in the above paragraphs, and will not be repeated herein.

In one embodiment, the detecting whether the wireless headset is detached from the receiving assembly in step 530 is based on one or a combination of a current signal, a voltage signal, an optical signal, a magnetic signal, and a weight signal. The detailed description is already described in the above paragraphs, and will not be repeated herein.

In one embodiment, the step 560 of detecting whether the wireless headset is worn is based on one of an image signal, a posture signal, a light signal, a temperature signal, a biometric signal, or a combination thereof. The detailed description is already described in the above paragraphs, and will not be repeated herein.

In one embodiment, the control method of the vehicle-mounted wireless headset system further includes: when the wireless earphone is detected to be worn, a notification signal is transmitted to the vehicle control system, so that the vehicle control system starts to forward the audio signal currently played by the vehicle control system to the wireless earphone through the wireless module. The detailed description is already described in the above paragraphs, and will not be repeated herein.

In one embodiment, the control method of the vehicle-mounted wireless headset system further includes: when the wireless earphone is stored in the storage assembly, the wireless earphone is charged. The detailed description is already described in the above paragraphs, and will not be repeated herein.

In summary, according to the vehicle-mounted wireless earphone system and the control method thereof, the wireless earphone is stored through the storage assembly, so that a driver does not need to search for the wireless earphone carried by the driver; when the wireless earphone is detected to be separated from the accommodating component, the wireless earphone is awakened to be connected with the vehicle control system, so that a driver does not need to take time and manually operate to establish pairing of the mobile phone and the wireless earphone; after the wireless earphone is worn, the transmission of the audio signal/the communication signal is started between the wireless earphone and the vehicle control system, so that the technical effects of power saving and high response speed of the wireless earphone are achieved.

Although the above-described elements are included in the drawings of the present application, it is not excluded that more additional elements may be used to achieve better technical results without departing from the spirit of the invention. Further, although the flowcharts of the present application are executed in the order specified, a person skilled in the art can modify the order of the steps without departing from the spirit of the invention to achieve the same effect, and therefore, the present invention is not limited to the order described above. In addition, one skilled in the art may integrate several steps into one step, or perform more steps in sequence or in parallel besides the steps, and the present invention is not limited thereby.

While the invention has been described using the above embodiments, it should be noted that these descriptions are not intended to limit the invention. Rather, this invention encompasses modifications and similar arrangements as would be apparent to one skilled in the art. The scope of the claims is, therefore, to be construed in the broadest manner to include all such obvious modifications and similar arrangements.

Claims

1. The utility model provides an on-vehicle wireless headphone system, electric connection vehicle control system which characterized in that includes:

the receiving assembly is used for receiving the wireless earphone;

the detection module is used for detecting whether the wireless earphone is separated from the containing assembly or not;

the communication module is connected with the detection module and used for outputting a notification signal to the vehicle control system when the detection module detects that the wireless earphone is separated from the accommodating component, so that the vehicle control system starts the wireless module, and the wireless module is used for establishing a connection with the wireless earphone;

the wearing detection module is connected with the detection module and used for detecting whether the wireless earphone is worn or not when the wireless earphone is separated from the accommodating assembly; when the wearing detection module detects that the wireless earphone is worn and the wireless earphone and the wireless module are connected, outputting an audio signal of the vehicle control system to the wireless earphone through the wireless module, or receiving a call signal of the wireless earphone through the wireless module.

2. The in-vehicle wireless headset system of claim 1, wherein when the wearing detection module detects that the wireless headset is worn, a notification signal is transmitted to the vehicle control system to cause the vehicle control system to start forwarding the audio signal currently played by the vehicle control system to the wireless headset through the wireless module.

3. The vehicle-mounted wireless headset system according to claim 1, further comprising a vehicle-mounted storage device embedded in the vehicle, wherein the storage assembly, the detection module and the communication module are disposed on the vehicle-mounted storage device.

4. The vehicle-mounted wireless earphone system according to claim 3, wherein the vehicle-mounted storage device further comprises a first power module, the storage assembly comprises a first charging terminal, and the first power module is connected with the detection module, the communication module and the first charging terminal.

5. The in-vehicle wireless headset system of claim 1, wherein the wear detection module comprises one of an image sensor, a posture sensor, a light sensor, a temperature sensor, a biometric sensor, or a combination thereof.

6. The vehicle-mounted wireless earphone system according to claim 1, wherein the detection module comprises one of a current sensor, a voltage sensor, an optical sensor, a magnetic sensor, a weight sensor, or a combination thereof.

7. The vehicle-mounted wireless earphone system according to claim 1, further comprising the wireless earphone, wherein the wireless earphone comprises a connection module and a processing module connected with the connection module, and the connection module is used for establishing connection with the wireless module or establishing connection with a wireless device when the wireless earphone is detached from the receiving assembly; the processing module is used for receiving and processing an audio signal from the vehicle control system or the wireless device through the connecting module or outputting a call signal to the vehicle control system or the wireless device through the connecting module when the wearing detection module detects that the wireless headset is worn and the connecting module is connected with the wireless module or the wireless module is connected with the wireless device.

8. The vehicle-mounted wireless headset system according to claim 7, wherein the wearing detection module is disposed on the wireless headset, and the processing module is connected to the wearing detection module.

9. The vehicle-mounted wireless earphone system according to claim 7, wherein the wireless earphone further comprises a speaker module and a sound receiving module, the speaker module is connected to the processing module, and plays the audio signal received and processed by the processing module through the connection module; the radio module is connected with the processing module, receives the voice signal and transmits the voice signal to the processing module, so that the processing module receives and processes the voice signal, and the communication signal is output to the vehicle control system or the wireless device through the connecting line module.

10. A method for controlling a vehicle-mounted wireless headset system, comprising:

the vehicle-mounted wireless earphone system is electrically connected with the vehicle control system;

receiving the wireless earphone in the receiving assembly;

detecting whether the wireless earphone is separated from the accommodating component or not;

when the wireless earphone is detected to be separated from the accommodating component, a notification signal is output to the vehicle control system, so that the vehicle control system starts a wireless module;

establishing a connection between the wireless earphone and the wireless module;

detecting whether the wireless headset is worn;

when the fact that the wireless earphone is worn and the wireless earphone is connected with the wireless module is detected, the audio signal of the vehicle control system is output to the wireless earphone through the wireless module, or the call signal of the wireless earphone is received through the wireless module.

11. The control method of the in-vehicle wireless headset system according to claim 10, further comprising:

when the wireless earphone is detected to be worn, a notification signal is transmitted to the vehicle control system, so that the vehicle control system starts to forward the audio signal currently played by the vehicle control system to the wireless earphone through the wireless module.

12. The control method of the in-vehicle wireless headset system according to claim 10, further comprising:

when the wireless earphone is stored in the storage assembly, the wireless earphone is charged.

13. The control method of the in-vehicle wireless headset system according to claim 10, wherein the detecting whether the wireless headset is worn is based on one of an image signal, a posture signal, a light signal, a temperature signal, a biometric recognition signal, or a combination thereof.

14. The method of claim 10, wherein detecting whether the wireless headset is detached from the receiving assembly is based on one or a combination of a current signal, a voltage signal, an optical signal, a magnetic signal, and a weight signal.