CN112218385B - Bluetooth management method and mobile terminal - Google Patents

Abstract

The invention provides a Bluetooth management method and a mobile terminal, wherein the mobile terminal comprises a Bluetooth module and a processing module, and the Bluetooth module is used for Bluetooth connection with a first Bluetooth terminal; the processing module is used for controlling the Bluetooth module to automatically connect the second Bluetooth terminal according to stored pairing data when the paired second Bluetooth terminal is detected and the priority level of the second Bluetooth terminal is higher than that of the first Bluetooth terminal. According to the Bluetooth management method and the mobile terminal, when the mobile terminal is connected with the first Bluetooth terminal and the Bluetooth terminals which are connected in a matched mode are required to be switched, the Bluetooth terminals which are connected to a high priority, such as vehicle-mounted Bluetooth, can be switched automatically, and users can realize Bluetooth seamless switching connection efficiently and without sense.

Description

Bluetooth management method and mobile terminal

Technical Field

The present invention relates to the field of communications technologies, and in particular, to a bluetooth management method and a mobile terminal.

Background

With the continuous development of bluetooth devices, more and more scenes need to connect different bluetooth devices. The existing Bluetooth function has realized that the Bluetooth which is already connected in a pairing way can automatically realize connection when the Bluetooth enters the connection range next time.

However, in some conventional bluetooth application scenario switching, the bluetooth connected device cannot be automatically replaced. For example, when the user enters the vehicle-using state, although the vehicle-mounted Bluetooth is already connected in a pairing way, if the mobile phone Bluetooth and the Bluetooth headset are still in a connection state at this time, the mobile phone Bluetooth cannot be automatically connected or switched to the vehicle-mounted Bluetooth. In this case, a user is generally required to manually search and selectively connect the bluetooth on-vehicle bluetooth, close the bluetooth headset or disconnect the bluetooth connection of the bluetooth headset to realize the automatic connection of the bluetooth on-vehicle bluetooth and the bluetooth on-vehicle bluetooth.

Disclosure of Invention

The invention aims to provide a Bluetooth management method and a mobile terminal, and when a user needs to switch Bluetooth application scenes under the condition that the user is connected with a first Bluetooth terminal through Bluetooth, bluetooth connected equipment can be automatically switched.

Specifically, the invention provides a Bluetooth management method, which is applied to a mobile terminal, and comprises the following steps: establishing Bluetooth connection with a first Bluetooth terminal; and when the paired second Bluetooth terminal is detected, and the priority level of the second Bluetooth terminal is higher than that of the first Bluetooth terminal, automatically connecting the second Bluetooth terminal according to stored pairing data.

Preferably, the step of automatically bluetooth connecting the mobile terminal to the second bluetooth terminal according to the stored pairing data includes: displaying prompt information for reminding a user of confirming whether Bluetooth is connected with the second Bluetooth terminal; and receiving confirmation information aiming at the prompt information.

Further, the priority ranking is set by default according to the types of the second bluetooth terminal and the first bluetooth terminal, or specified by a user, or determined by the environment in which the mobile terminal is located.

Further, before the step of automatically connecting the mobile terminal to the second bluetooth terminal according to the stored pairing data, the method includes: disconnecting the first Bluetooth terminal connected by Bluetooth; or continue bluetooth to connect to the first bluetooth terminal but keep the first bluetooth terminal in standby.

Further, the step of automatically connecting the mobile terminal to the second bluetooth terminal according to the stored pairing data includes: when the priority level of the first Bluetooth terminal is higher than that of the second Bluetooth terminal, the Bluetooth connection with the second Bluetooth terminal is disconnected, and the Bluetooth connection with the first Bluetooth terminal is realized.

Further, when the priority level of the first bluetooth terminal is higher than that of the second bluetooth terminal, disconnecting the bluetooth connection with the second bluetooth terminal, and the step of bluetooth connecting the first bluetooth terminal includes: when a call service is carried out, acquiring personnel information in a preset range; and when the personnel information in the preset range accords with the preset condition, judging that the priority level of the first Bluetooth terminal is higher than that of the second Bluetooth terminal at present.

Further, after the step of bluetooth connecting the mobile terminal to the second bluetooth terminal, the method further includes: and after the connection with the second Bluetooth terminal is disconnected, automatically connecting Bluetooth or starting the first Bluetooth terminal in standby according to the stored pairing data.

The invention further provides a mobile terminal, which comprises a Bluetooth module and a processing module, wherein the Bluetooth module is used for connecting with a first Bluetooth terminal; the processing module is used for controlling the Bluetooth module to automatically connect the second Bluetooth terminal according to stored pairing data when the paired second Bluetooth terminal is detected and the priority level of the second Bluetooth terminal is higher than that of the first Bluetooth terminal.

Further, the first Bluetooth terminal is a Bluetooth headset, the second Bluetooth terminal is a vehicle-mounted terminal, and the mobile terminal is a mobile phone; the Bluetooth module comprises a plurality of mobile phone Bluetooth channels, and the processing module is further used for controlling the Bluetooth headset which is connected with the Bluetooth module at present to stand by or disconnect when an idle Bluetooth channel exists before the mobile phone Bluetooth is connected with the vehicle-mounted terminal.

Further, the mobile terminal also comprises a personnel perception module; the personnel sensing module is used for acquiring personnel information in the vehicle; the processing module is used for controlling the Bluetooth module to start the standby Bluetooth earphone or establish Bluetooth connection with the Bluetooth earphone when a plurality of persons exist in the vehicle and telephone service exists, and controlling the vehicle-mounted terminal to stand by or disconnect.

According to the Bluetooth management method and the mobile terminal, when the user mobile terminal is connected with the first Bluetooth terminal through Bluetooth and the Bluetooth terminal connected through the pairing needs to be switched, the Bluetooth terminal connected to the high priority can be switched automatically, such as vehicle-mounted Bluetooth, and the user can realize Bluetooth seamless switching connection efficiently and without sense.

Drawings

Fig. 1 is a flowchart of a bluetooth management method according to an embodiment of the invention.

Fig. 2 is a schematic diagram of an application scenario of a bluetooth management method according to an embodiment of the invention.

Fig. 3 is a schematic structural diagram of a mobile terminal according to an embodiment of the present invention.

Fig. 4 is a schematic flow chart of a bluetooth management method according to an embodiment of the invention

Detailed Description

The following describes in further detail the embodiments of the present invention with reference to the drawings and examples. The following examples are illustrative of the invention and are not intended to limit the scope of the invention.

In one aspect, the present invention first provides a bluetooth management method applied to a mobile terminal, such as a mobile phone. Fig. 1 is a flowchart of a bluetooth management method according to an embodiment of the invention. Fig. 2 is a schematic diagram of an application scenario of a bluetooth management method according to an embodiment of the present invention, where the application scenario includes a mobile terminal 10, a first bluetooth terminal 20, and a second bluetooth terminal 30. Referring to fig. 1 and fig. 2, the bluetooth management method of the present embodiment includes:

step S101: the mobile terminal 10 establishes a bluetooth connection with the first bluetooth terminal 20;

step S102: when the paired second bluetooth terminal 30 is detected and the priority level of the second bluetooth terminal 30 is higher than that of the first bluetooth terminal 20 at this time, the second bluetooth terminal 30 is automatically bluetooth connected according to the stored pairing data.

In one embodiment, the mobile terminal 10 performs step S102: before the automatic bluetooth connection of the second bluetooth terminal 30 according to the stored pairing data comprises: displaying a prompt message prompting the user to confirm whether bluetooth is connected to the second bluetooth terminal 30; and receiving confirmation information aiming at the prompt information. In another embodiment, when no confirmation is received beyond a specified time after the mobile terminal 10 displays the prompt, the mobile terminal automatically connects to the second bluetooth terminal 30.

In another embodiment, the second bluetooth terminal 30 actively requests a bluetooth connection upon actively detecting that the mobile terminal 10 is in a connectable range. In other embodiments, when the second bluetooth terminal 30 actively detects that the mobile terminal 10 is located in the connectable range, the second bluetooth terminal 30 displays a prompt message prompting the user to confirm whether to request bluetooth connection with the mobile terminal 10; and receiving confirmation information aiming at the prompt information. When the user inputs confirmation information confirming the connection, the mobile terminal 10 and the second bluetooth terminal 30 automatically bluetooth-connect according to the stored pairing data.

In one embodiment, the order of priority is set by default according to the type of second bluetooth terminal 30 and first bluetooth terminal 20. In another embodiment, the ordering of the priorities is specified by the user. In other embodiments, the ordering of the priorities may also be determined by the environment in which the mobile terminal 10 is located.

In one embodiment, the mobile terminal 10 automatically connects to the second bluetooth terminal 30 according to the stored pairing data before, including disconnecting the bluetooth connected first bluetooth terminal 20. In another embodiment, the mobile terminal 10 has a plurality of bluetooth channels, and the mobile terminal 10 automatically bluetooth connects to the second bluetooth terminal 30 according to the stored pairing data before continuing bluetooth to connect to the first bluetooth terminal 20 but keeping the first bluetooth terminal 20 on standby, and connects to the second bluetooth terminal 30 using other idle bluetooth channels to facilitate the switch back at any time.

In one embodiment, after the mobile terminal 10 automatically connects to the second bluetooth terminal 30 according to the stored pairing data, the bluetooth connection with the second bluetooth terminal 30 is disconnected and the bluetooth is connected to the first bluetooth terminal 20 when the priority level of the current first bluetooth terminal 20 is higher than that of the second bluetooth terminal 30. In another embodiment, the mobile terminal 10 has a plurality of bluetooth channels, and after the mobile terminal 10 automatically bluetooth connects the second bluetooth terminal 30 according to the stored pairing data, the mobile terminal may continue to bluetooth connect the second bluetooth terminal 30 but keep the second bluetooth terminal 30 on standby when the priority level of the first bluetooth terminal 20 is higher than that of the second bluetooth terminal 30, connect the first bluetooth terminal 20 using other idle bluetooth channels bluetooth, or enable the standby first bluetooth terminal 20 to facilitate a switch back at any time.

In one embodiment, determining that the priority level of the current first bluetooth terminal 20 is higher than that of the second bluetooth terminal 30 includes: when call service is needed, acquiring personnel information in a preset range; when the personnel information in the preset range accords with the preset condition, the priority level of the first Bluetooth terminal 20 is judged to be higher than that of the second Bluetooth terminal 30 according to the current environment condition. Wherein the preset condition may be set, for example, when there are at least two persons in the current environment. In another embodiment, when it is determined that the priority level of the first bluetooth terminal 20 is higher than that of the second bluetooth terminal 30, a prompt message prompting the user to confirm whether to switch the connection is displayed on the mobile terminal 10 or the second bluetooth terminal 30; and then receiving confirmation information aiming at the prompt information so as to facilitate the user to select a conversation channel.

After the mobile terminal 10 is connected to the second bluetooth terminal 30, the mobile terminal 10 may be disconnected from the second bluetooth terminal 30 due to some reasons, such as when the distance between the mobile terminal 10 and the second bluetooth terminal 30 is beyond the allowable range of bluetooth connection, or when the second bluetooth terminal 30 is powered off or powered on. In one embodiment, after the mobile terminal 10 is disconnected from the second bluetooth terminal 30, the first bluetooth terminal 20 is automatically bluetooth connected according to the stored pairing data. In another embodiment, since the mobile terminal 10 has a plurality of bluetooth channels, the first bluetooth terminal 20 in standby is directly enabled after the mobile terminal 10 is disconnected from the second bluetooth terminal 30.

In another aspect, the present invention also provides a mobile terminal 10 using the above method. Fig. 3 is a schematic diagram of a mobile terminal 10 according to an embodiment, in which the mobile terminal 10 includes a bluetooth module 11 and a processing module 12, and the connectable bluetooth device has a first bluetooth terminal 20 and a second bluetooth terminal 30. Referring to fig. 2, the mobile terminal 10 may be a bluetooth enabled handset, pad, mobile computer, or the like.

The bluetooth module 11 is configured to connect to the first bluetooth terminal 20, send a detection result to the processing module 12 when detecting the second bluetooth terminal 30, and connect to the designated second bluetooth terminal 30 according to a connection instruction of the processing module 12.

The processing module 12 is configured to, when receiving the detection result sent by the bluetooth module 11 and detecting the paired second bluetooth terminal 30, control the bluetooth module 11 to automatically connect to the second bluetooth terminal 30 according to the stored pairing data when the priority level of the second bluetooth terminal 30 is higher than that of the first bluetooth terminal 20. When a plurality of second bluetooth terminals 30 are detected, the processing module 12 finds the second bluetooth terminal 30 with the highest priority among the currently connectable paired bluetooth devices, and sends a connection instruction and corresponding pairing data to the bluetooth module 11.

In one embodiment, the priority ranking according to which the mobile terminal 10 is based is set by default according to the category of the second bluetooth terminal 30 and the first bluetooth terminal 20. In another embodiment, the prioritization is set in a user-specified order. Such as vehicle bluetooth, bluetooth speaker, bluetooth headset, television bluetooth, computer bluetooth, pad bluetooth, and bluetooth bracelet, etc. may be set to different priority orders, respectively. In other embodiments, the priority ranking may also be determined by the environment in which the mobile terminal 10 is located, with bluetooth terminals to be connected having different priority orders in different operating environment states.

In one embodiment, when a plurality of second bluetooth terminals 30 detected by the mobile terminal 10 are at the same highest priority, the second bluetooth terminal 30, among which the last disconnection, is connected. In another embodiment, when a plurality of second bluetooth terminals 30 detected by the mobile terminal 10 are at the same highest priority, the second bluetooth terminal 30 in which the signal is strongest is connected.

In one embodiment, when the processing module 12 finds the second bluetooth terminal 30 with the highest priority among the currently connectable paired bluetooth devices, the mobile terminal 10 displays a prompt prompting the user to confirm whether to connect the second bluetooth terminal 30 to facilitate the user to select to switch the connection. When the selection confirmation information is not received over time, the mobile terminal 10 actively disconnects or stands by the first bluetooth terminal 20 to connect the second bluetooth terminal 30 of the high priority level at this time.

In one embodiment, as shown in fig. 2, the mobile terminal 10 is a mobile phone, the first bluetooth terminal 20 is a bluetooth headset, and the second bluetooth terminal 30 is a vehicle bluetooth. The priority of the vehicle Bluetooth is higher than that of the Bluetooth headset, and the Bluetooth headset in the current connected state is disconnected before the Bluetooth of the mobile phone is connected with the vehicle Bluetooth. In another embodiment, the bluetooth module 11 includes a plurality of bluetooth channels, and when there is an idle bluetooth channel before the mobile phone bluetooth module 11 connects with the vehicle bluetooth, the processing module 12 uses the idle bluetooth channel to connect with the bluetooth of the vehicle bluetooth by default for the bluetooth headset in the currently connected state.

In one embodiment, after the second bluetooth terminal 30, such as the bluetooth in vehicle, is started, the bluetooth module 11 of the mobile terminal 10 is actively detected and a connection request is issued.

In one embodiment, before the mobile terminal 10 bluetooth connects to the second bluetooth terminal 30, an instruction is also sent to the first bluetooth terminal 20 to standby or power off in the minimum power mode.

In an embodiment, after the mobile terminal 10, such as a mobile phone, connects to the second bluetooth terminal 30, such as a bluetooth speaker, when there is a telephone service, a prompt prompting the user to confirm whether to disconnect the second bluetooth terminal 30 is displayed on the screen of the mobile terminal 10 or the second bluetooth terminal 30 to facilitate the switching of the connection. After receiving the confirmation of the handover, the second bluetooth terminal 30 is disconnected, so that the user can make a call using the mobile terminal 10 such as a cellular phone or the first bluetooth terminal 20 such as a bluetooth headset. In another embodiment, after the mobile terminal 10, such as a mobile phone, connects to the second bluetooth terminal 30, such as a car-mounted bluetooth, since the bluetooth module 11 of the mobile terminal 10 has a plurality of bluetooth channels, a prompt prompting the user to confirm whether to default the second bluetooth terminal 30 to stand by is displayed on the screen of the mobile terminal 10 or the second bluetooth terminal 30 to facilitate switching connection when there is a phone service. The user may select the second bluetooth terminal 30 to be in default standby so that the user may answer a call using the mobile terminal 10, such as a cell phone, or the first bluetooth terminal 20, such as a bluetooth headset. When the selection confirmation information is not received over time, the mobile terminal 10 actively disconnects or stands by the second bluetooth terminal 30 so that the user performs a telephone service using the mobile terminal 10 such as a cellular phone or the first bluetooth terminal 20 such as a bluetooth headset.

In one embodiment, after the mobile terminal 10 is bluetooth connected to the second bluetooth terminal 30, the mobile terminal 10 automatically bluetooth connects or enables the standby first bluetooth terminal 20 according to the stored pairing data after the bluetooth connection is disconnected due to the second bluetooth terminal 30 being turned off or the user carrying the mobile terminal 10 too far away from the second bluetooth terminal 30.

In one embodiment, the mobile terminal 10, such as a cell phone, also obtains information about the number of people in the vehicle via the people sensing module 40. In one embodiment, the person sensing module 40 provides in-vehicle person quantity information to the processing module 12 of the mobile terminal 10 via on-board Bluetooth. In another embodiment, the mobile terminal 10 obtains the information of the number of persons of the person perception module 40 through a T-BOX on a car in a car networking system. In other embodiments, the mobile terminal 10 may also be directly connected to a person sensing module 40, such as a surveillance camera, via a wired or wireless connection to obtain information about persons in the current environment. If the number of people is detected as one, the second Bluetooth terminal 30 is used for communication by default, such as vehicle Bluetooth; if the number of people is detected to be two or more, in order to increase the privacy of the user's call, a prompt prompting the user to confirm whether to disconnect the second bluetooth terminal 30 such as the car-mounted bluetooth or to default standby is displayed on the screen of the mobile terminal 10 to facilitate the switching of the connection when there is a telephone service. After receiving the confirmation information of the user confirming the connection, the vehicle-mounted Bluetooth is disconnected or is in default standby, so that the user can use the mobile phone or the Bluetooth headset to make a call. The disconnection or default standby of the vehicle-mounted bluetooth can be realized by the vehicle-mounted bluetooth independently or through an instruction sent to the bluetooth module 11 by the processing module 12.

In one embodiment, the person sensing module 40 determines the number of persons in the vehicle from the seat pressure sensor. In another embodiment, the person sensing module 40 determines the number of persons in the vehicle via an infrared sensor. In another embodiment, the human perception module 40 determines the number of human in the vehicle through a video image acquisition and analysis circuit. In other embodiments, the human perception module 40 may also accurately determine the number of human occupants in the vehicle in various combinations of the above.

Fig. 4 is a flowchart of a bluetooth management method according to an embodiment of the invention. With reference to the above embodiments and fig. 3, the embodiment of the bluetooth management method provided by the present invention includes the following steps, as shown in fig. 4:

first step S1: the mobile terminal 10, i.e. the mobile phone, sets the second bluetooth terminal 30, i.e. the vehicle bluetooth, which is connected in a pairing manner as a high priority, and the first bluetooth terminal 20, i.e. the bluetooth headset, which is connected in a pairing manner as a priority lower than the vehicle bluetooth, and enters a second step S2;

second step S2: the mobile phone detects a current connectable Bluetooth equipment list at fixed time, detects connectable high-priority vehicle Bluetooth, and enters a third step S3;

third step S3: the mobile phone reads the priority information, selects the last connected vehicle Bluetooth in the currently connectable high-priority Bluetooth equipment, and the screen display of the mobile phone reminds the user of confirming whether the prompt of the vehicle Bluetooth is connected, if the received user selects yes, the fifth step S5 is entered; if the received user selection is no, a fourth step S4 is entered.

Fourth step S4: the mobile phone sets the vehicle-mounted bluetooth to be disconnected within the set time period, and returns to the second step S2.

Fifth step S5: the mobile phone reads pairing information of the vehicle-mounted Bluetooth, prepares to connect the vehicle-mounted Bluetooth and enters a sixth step S6;

sixth step S6: determine whether bluetooth headset is currently in connected state? If yes, entering a seventh step S7, and if no, entering an eighth step S8;

seventh step S7: the mobile phone disconnects the current Bluetooth headset or waits by default, and then the eighth step S8 is carried out;

eighth step S8: the mobile phone is connected with the vehicle Bluetooth according to the corresponding pairing data, and a ninth step S9 is performed;

ninth step S9: the mobile phone keeps being connected with the vehicle Bluetooth, and the tenth step S10 is carried out;

tenth step S10: the mobile phone monitors whether telephone service exists or not, if yes, the eleventh step S11 is entered, and if not, the ninth step S9 is returned;

eleventh step S11: the mobile phone reads the personnel number information of the personnel sensing module 40 and determines whether there are multiple personnel in the current car? If yes, go to twelfth step S12; if not, returning to the ninth step S9;

twelfth step S12: displaying a prompt for reminding a user of confirming whether the vehicle-mounted Bluetooth is disconnected or in default standby on a mobile phone screen, and entering a thirteenth step S13 if the received user selects yes; if the received user selection is no, returning to the ninth step S9;

thirteenth step S13: the mobile phone disconnects the vehicle Bluetooth or waits by default until the telephone service is finished and returns to the second step S2;

according to the Bluetooth management method and the mobile terminal, when the user mobile terminal is connected with the first Bluetooth terminal and the Bluetooth terminals which are connected in a pairing mode are required to be switched, the Bluetooth terminals which are connected to a high priority level, such as vehicle-mounted Bluetooth, can be switched automatically, and the user can realize Bluetooth seamless switching connection efficiently and without sense.

In this document, unless specifically stated and limited otherwise, the terms "mounted," "connected," "coupled," and "connected" are to be construed broadly, and may be, for example, fixedly coupled, detachably coupled, or integrally connected; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the terms described above will be understood to those of ordinary skill in the art in a specific context.

In this document, the use of the ordinal adjectives "first", "second", etc., to describe an element, is merely intended to distinguish between similar elements, and does not necessarily imply that the elements so described must be in a given sequence, or a temporal, spatial, hierarchical, or other limitation.

In this document, unless otherwise indicated, the meaning of "a plurality", "a number" is two or more.

It will be appreciated by those of ordinary skill in the art that all or part of the steps of implementing the above-described method embodiments may be implemented by hardware associated with program instructions, and the above-described program may be stored in a computer readable storage medium, which when executed, performs the steps comprising the above-described method embodiments. The aforementioned storage medium includes: various media that can store program code, such as ROM, RAM, magnetic or optical disks.

The technical features of the above-described embodiments may be arbitrarily combined, and all possible combinations of the technical features in the above-described embodiments are not described for brevity of description, however, as long as there is no contradiction between the combinations of the technical features, they should be considered as the scope of the description.

In this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a list of elements is included, and may include other elements not expressly listed.

The above description is only a specific embodiment of the present invention, but the scope of the present invention is not limited thereto. Any person skilled in the art can easily think of changes or substitutions within the technical scope of the present disclosure, and the present disclosure is intended to be covered by the present disclosure. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (8)

1. A bluetooth management method, applied to a mobile terminal, comprising:

establishing Bluetooth connection with a first Bluetooth terminal;

when a paired second Bluetooth terminal is detected, and the priority level of the second Bluetooth terminal is higher than that of the first Bluetooth terminal at the moment, automatically connecting the second Bluetooth terminal according to stored pairing data;

when the priority level of the first Bluetooth terminal is higher than that of the second Bluetooth terminal, disconnecting Bluetooth connection with the second Bluetooth terminal, and connecting the Bluetooth with the first Bluetooth terminal; when the priority level of the first Bluetooth terminal is higher than that of the second Bluetooth terminal, the Bluetooth connection with the second Bluetooth terminal is disconnected, and the step of connecting the Bluetooth with the first Bluetooth terminal comprises the following steps:

when a call service is carried out, acquiring personnel information in a preset range;

when the personnel information in the preset range accords with the preset condition, judging that the priority level of the first Bluetooth terminal is higher than that of the second Bluetooth terminal at present;

wherein the preset condition is that the number of detected people in the environment is two or more.

2. The bluetooth management method according to claim 1, wherein the step of automatically bluetooth connecting the mobile terminal to the second bluetooth terminal according to the stored pairing data is preceded by: displaying prompt information for reminding a user of confirming whether Bluetooth is connected with the second Bluetooth terminal;

and receiving confirmation information aiming at the prompt information.

3. The bluetooth management method according to claim 1, wherein the order of priority levels is set by default according to the kinds of the second bluetooth terminal and the first bluetooth terminal or specified by a user or determined by an environment in which the mobile terminal is located.

4. The bluetooth management method according to claim 1, wherein the step of automatically bluetooth connecting the mobile terminal to the second bluetooth terminal according to the stored pairing data is preceded by:

disconnecting the first Bluetooth terminal connected by Bluetooth;

or continue bluetooth to connect to the first bluetooth terminal but keep the first bluetooth terminal in standby.

5. The bluetooth management method according to claim 1, further comprising, after the step of bluetooth connecting the mobile terminal to the second bluetooth terminal: and after the connection with the second Bluetooth terminal is disconnected, automatically connecting Bluetooth or starting the first Bluetooth terminal in standby according to the stored pairing data.

6. The mobile terminal is characterized by comprising a Bluetooth module and a processing module;

the Bluetooth module is used for Bluetooth connection with the first Bluetooth terminal;

the processing module is used for controlling the Bluetooth module to automatically connect the second Bluetooth terminal according to stored pairing data when the paired second Bluetooth terminal is detected and the priority level of the second Bluetooth terminal is higher than that of the first Bluetooth terminal;

when the priority level of the first Bluetooth terminal is higher than that of the second Bluetooth terminal, disconnecting Bluetooth connection with the second Bluetooth terminal, and connecting the Bluetooth with the first Bluetooth terminal; when the priority level of the first Bluetooth terminal is higher than that of the second Bluetooth terminal, the Bluetooth connection with the second Bluetooth terminal is disconnected, and the step of connecting the Bluetooth with the first Bluetooth terminal comprises the following steps:

when a call service is carried out, acquiring personnel information in a preset range;

when the personnel information in the preset range accords with the preset condition, judging that the priority level of the first Bluetooth terminal is higher than that of the second Bluetooth terminal at present;

wherein the preset condition is that the number of detected people in the environment is two or more.

7. The mobile terminal of claim 6, wherein the first bluetooth terminal is a bluetooth headset, the second bluetooth terminal is a vehicle-mounted terminal, and the mobile terminal is a mobile phone; the Bluetooth module comprises a plurality of mobile phone Bluetooth channels, and the processing module is further used for controlling the Bluetooth headset which is connected with the Bluetooth module at present to stand by or disconnect when an idle Bluetooth channel exists before the mobile phone Bluetooth is connected with the vehicle-mounted terminal.

8. The mobile terminal of claim 7, wherein the mobile terminal further comprises a person perception module;

the personnel sensing module is used for acquiring personnel information in the vehicle;

the processing module is used for controlling the Bluetooth module to start the standby Bluetooth earphone or establish Bluetooth connection with the Bluetooth earphone when a plurality of persons exist in the vehicle and telephone service exists, and controlling the vehicle-mounted terminal to stand by or disconnect.

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