CN105491470A - Bluetooth headset and method for realizing automatic turn-on/turn-off of Bluetooth headset through smart wearable contact equipment - Google Patents
Bluetooth headset and method for realizing automatic turn-on/turn-off of Bluetooth headset through smart wearable contact equipment Download PDFInfo
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- CN105491470A CN105491470A CN201510834464.7A CN201510834464A CN105491470A CN 105491470 A CN105491470 A CN 105491470A CN 201510834464 A CN201510834464 A CN 201510834464A CN 105491470 A CN105491470 A CN 105491470A
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- 238000004891 communication Methods 0.000 claims abstract description 163
- 230000009471 action Effects 0.000 claims abstract description 46
- 230000006698 induction Effects 0.000 claims description 33
- 238000001514 detection method Methods 0.000 claims description 26
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04R—LOUDSPEAKERS, MICROPHONES, GRAMOPHONE PICK-UPS OR LIKE ACOUSTIC ELECTROMECHANICAL TRANSDUCERS; DEAF-AID SETS; PUBLIC ADDRESS SYSTEMS
- H04R1/00—Details of transducers, loudspeakers or microphones
- H04R1/10—Earpieces; Attachments therefor ; Earphones; Monophonic headphones
- H04R1/1041—Mechanical or electronic switches, or control elements
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04R—LOUDSPEAKERS, MICROPHONES, GRAMOPHONE PICK-UPS OR LIKE ACOUSTIC ELECTROMECHANICAL TRANSDUCERS; DEAF-AID SETS; PUBLIC ADDRESS SYSTEMS
- H04R1/00—Details of transducers, loudspeakers or microphones
- H04R1/10—Earpieces; Attachments therefor ; Earphones; Monophonic headphones
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04R—LOUDSPEAKERS, MICROPHONES, GRAMOPHONE PICK-UPS OR LIKE ACOUSTIC ELECTROMECHANICAL TRANSDUCERS; DEAF-AID SETS; PUBLIC ADDRESS SYSTEMS
- H04R3/00—Circuits for transducers, loudspeakers or microphones
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Abstract
The invention provides a Bluetooth headset and a method for realizing automatic turn-on/turn-off of the Bluetooth headset through smart wearable contact equipment. The method comprises the following steps: detecting a use action of a user; when the use action is detected to be a wearing action, generating a trigger signal; generating a first human body communication signal based on the trigger signal; and searching for a second human body communication signal which is coupled with the first human body communication signal and generated by the smart wearable contact equipment, and establishing a human body communication connection to further connect a smart phone through the smart wearable contact equipment in order to perform communication. Through adoption of the method, the Bluetooth headset can interact with the smart wearable contact equipment, and further interact with the smart phone through the smart wearable contact equipment, so that a Bluetooth pairing connection method is simple, and the user experience is improved. Moreover, the Bluetooth headset does not need to be set with or use any switch key, so that materials are saved. The Bluetooth headset is easy and convenient for turn-on/turn-off operation, and safe to use.
Description
Technical Field
The invention relates to the technical field of wireless communication, in particular to a Bluetooth headset capable of realizing automatic on-off through intelligent wearable contact equipment and a method for realizing automatic on-off of the Bluetooth headset through the intelligent wearable contact equipment.
Background
Wearable smart devices are increasingly popular, more and more consumers can wear a plurality of smart devices, such as a smart watch and a bluetooth headset, and how to enable interaction among the smart devices is convenient for the consumers to use, so that the improvement of user experience is an urgent challenge.
In addition, in the present life, people often take out and wear bluetooth headset for the convenience answers the phone when driving the vehicle on the road, most bluetooth headset in the market all is provided with the switch button today, when people driving the vehicle on the road use bluetooth headset to answer the phone, need one hand to take up bluetooth headset, and look for the button of opening or closing bluetooth headset, open and close bluetooth headset's troublesome poeration, and bring the potential safety hazard for the people who drives.
Disclosure of Invention
The invention provides a Bluetooth headset and a method for realizing automatic on-off through intelligent wearable contact equipment, and aims to solve the technical problems that in the prior art, the Bluetooth headset cannot interact with an intelligent watch, the operation of turning on and off the Bluetooth headset is troublesome, and potential safety hazards are brought to driving people.
In order to solve the technical problems, the invention adopts a technical scheme that: the method for realizing automatic on-off of the Bluetooth headset through the intelligent wearable contact device comprises the following steps: detecting a use action of a user; generating a trigger signal when the use action is detected as a wearing action in contact with the human body of the user; generating a first human body communication signal based on the trigger signal; searching for a second human body communication signal coupled with the first human body communication signal and generated by the smart wearable contact device and establishing a human body communication connection so as to further connect the smart phone through the smart wearable contact device for communication.
Wherein the step of generating a first human body communication signal based on the trigger signal comprises: detecting whether the intelligent wearable contact device is in contact with the human body of the user based on the trigger signal; the first human body communication signal is generated when contact with a human body of a user is detected.
Wherein the step of generating a second human body communication signal by the intelligent wearable and contact device comprises: detecting whether the human body of the user is contacted; the second human-body communication signal is generated when the contact with the user human body is detected.
Wherein the step of searching for a second human communication signal generated by the smart contact-wearing device coupled to the first human communication signal and establishing human communication is followed by: generating a bluetooth pairing signal based on the human body communication; and processing the Bluetooth pairing signal and sending the Bluetooth pairing signal through the human body communication so as to pair and connect the smart phone through the intelligent wearable contact device.
Wherein the step of searching for a second human body communication signal generated by the smart wearable contact device coupled to the first human body communication signal and establishing human body communication further comprises: whether the human body of the user is still in contact is detected based on the human body communication timing, and if not, the human body communication is disconnected.
In order to solve the technical problem, the invention adopts another technical scheme that: the intelligent wearable contact device is in wireless connection with the smart phone and comprises a second human body communication module and a second control module, wherein the second human body communication module is in contact with a human body of a user and is electrically connected with the second control module and used for generating a second human body communication signal; the Bluetooth headset comprises an action detection module, a first control module, a first human body communication module and a headset module, wherein the action detection module is used for detecting the use action of a user; the first control module is electrically connected with the action detection module and used for generating a trigger signal when detecting that the use action is taken as a wearing action in contact with a human body of a user; the first human body communication module is electrically connected with the first control module and used for sending a first human body communication signal based on the trigger signal; the first control module is further used for searching the second human body communication signal coupled with the first human body communication signal and establishing human body communication connection so as to further connect the smart phone through the smart wearable contact device; the earphone module is electrically connected with the first human body communication module and is used for communication based on the connection between the Bluetooth earphone and the smart phone.
The first human body communication module comprises a first human body induction module and a first human body control module, and the first human body induction module is used for detecting whether the Bluetooth headset is in contact with a human body of a user or not based on a trigger signal; the first human body control module is electrically connected with the first human body induction module and used for generating and triggering a first human body communication signal when detecting that the Bluetooth headset is in contact with a human body of a user.
The second human body communication module comprises a second human body induction module and a second human body control module, and the second human body induction module is used for detecting whether the intelligent wearable contact device is in contact with the human body of the user; the second human body control module is electrically connected with the second human body communication module and used for generating the second human body communication signal when detecting that the intelligent wearable contact device is in human body contact with a user.
The Bluetooth headset further comprises a Bluetooth module electrically connected with the first control module, wherein the first control module is further used for generating a Bluetooth pairing signal based on the human body communication; the Bluetooth module is used for processing the Bluetooth pairing signal and sending the Bluetooth pairing signal through the human body communication so as to be connected with the smart phone in a pairing mode through the intelligent wearable contact device.
The Bluetooth headset further comprises a timing module, wherein the timing module is electrically connected with the first human body induction module and used for starting the first human body induction module to detect whether the Bluetooth headset is still in human body contact with a user based on the human body communication timing.
The invention has the beneficial effects that: different from the situation of the prior art, the Bluetooth headset and the method for realizing automatic on-off through the intelligent wearing contact device thereof have the advantages that the steps of the method comprise that a trigger signal is generated when a user using action is detected as a wearing action; generating a first human body communication signal based on the trigger signal; searching for a second human body communication signal which is coupled with the first human body communication signal and is generated by the intelligent wearing contact device and establishing human body communication connection, so that the intelligent mobile phone is further connected through the intelligent wearing contact device to communicate, interaction can be carried out between the Bluetooth earphone and the intelligent wearing contact device, interaction can be further carried out between the Bluetooth earphone and the intelligent wearing contact device through the intelligent wearing contact device and the intelligent mobile phone, the Bluetooth pairing connection method is simple, user experience is improved, the Bluetooth earphone is not required to be provided with and use a switch button, materials are saved, the opening and disconnection operations are simple and convenient, and the use is safe.
Drawings
In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments are briefly introduced below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without inventive efforts, wherein:
fig. 1 is a schematic structural diagram of a bluetooth headset automatically turned on and off by an intelligent wearable contact device according to a preferred embodiment of the present invention;
fig. 2 is a schematic structural diagram of a bluetooth headset automatically switched on and off by an intelligent wearable contact device according to another preferred embodiment of the present invention;
fig. 3 is a flowchart of a method for implementing automatic connection of a bluetooth headset through an intelligent wearable contact device according to a preferred embodiment of the present invention;
fig. 4 is a flowchart of a method for implementing automatic connection of a bluetooth headset through an intelligent wearable contact device according to another preferred embodiment of the present invention;
fig. 5 is a flowchart of a method of generating a second human body communication signal by the smart wearable contact device of fig. 4;
fig. 6 is a flowchart of a method for implementing automatic disconnection of a bluetooth headset through an intelligent wearable contact device according to another preferred embodiment of the present invention.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
Referring to fig. 1, fig. 1 is a schematic structural diagram of a bluetooth headset that is automatically turned on and off by an intelligent wearable contact device according to a preferred embodiment of the present invention, where the bluetooth headset 1 of this embodiment can communicate with a smart phone (not shown) through the intelligent wearable contact device 2, and the communication can be automatically turned on and off.
In general, the smart contact wearable device 2 is often wirelessly connected to the smartphone so as to be able to transmit information between each other. The Wireless connection mode may be bluetooth, wifi (Wireless-Fidelity, Wireless Fidelity) or ZigBee (ZigBee protocol). In the human body communication technology, the intelligent wearable contact device 2 generally includes a second power tube module 21, a second human body communication module 22 and a second control module 23, the second power tube module 21 is used for providing power for the second human body communication module 22 and the second control module 23, and the second human body communication module 22 is in contact with the human body of the user and is electrically connected with the second control module 23 for generating a second human body communication signal. The smart wearable contact device 2 may be a smart bracelet or a smart watch.
The bluetooth headset 1 of the present embodiment includes a first power supply module 11, a motion detection module 12, a first control module 13, a first human body communication module 14, and a headset module 15. The first power tube module 11 is used for providing power for the first human body communication module 14, the first control module, the earphone module 15 and other electronic modules in the bluetooth earphone 1, the first control module 13 is electrically connected with the action detection module 12, and the action detection module 12 is used for detecting the use action of a user. The using motion may be a wearing motion contacting with the human body of the user or a removing motion, and when the motion detection module 12 detects the using motion as the wearing motion contacting with the human body of the user, the motion detection module 12 feeds back to the first control module 13 to generate the trigger signal. The first human body communication module 14 is electrically connected to the first control module 13, and is configured to send a first human body communication signal based on the trigger signal. The first control module 13 is further configured to search the second human body communication signal coupled to the first human body communication signal and establish a human body communication connection, so that the bluetooth headset 1 and the intelligent wearable and contact device 2 transmit information through human body communication. Because the intelligent wearing contact device 2 can transmit information with the smart phone, the Bluetooth headset 1 can transmit information with the smart phone indirectly through the human body communication and the intelligent wearing contact device 2 in sequence. The headset module 15 is electrically connected to the first human body communication module 14, and is used for performing communication based on the connection between the bluetooth headset 1 and the smart phone, wherein the communication may be calling, listening to music, and the like.
The motion detection module 12 may be an acceleration sensor or other sensors responsible for motion detection. Specifically, the bluetooth headset 1 is originally in a static state at a certain position or in an ear, when a user takes up the stationary bluetooth headset 1 from a certain position to wear or remove the stationary bluetooth headset 1 from the ear, the bluetooth headset 1 changes from the static state to a moving state, and the acceleration sensor always in the low-energy-consumption working state detects the speed change of the wearing or removing action of the user and feeds back the speed change to the first control module 13, so that the first control module 13 generates a trigger signal to start the first human body communication module 14.
Further, in the embodiment, the first human body communication module 14 includes a first human body induction module 141 and a first human body control module 142, and the first human body induction module 141 is configured to detect whether the bluetooth headset 1 is in contact with a human body of a user based on the trigger signal. The first human body induction module 141 may be located at an in-ear portion of the bluetooth headset 1 to contact with an auricle of a user and skin in an ear, thereby ensuring that human body communication is always in a connected state when the user communicates using the bluetooth headset 1. Certainly, first human body induction module 141 also can be extended to the position that bluetooth headset 1's convenient finger contacted by the portion of going into the ear to the user just wears contact apparatus 2 with intelligence fast and establishes human body communication when taking up bluetooth headset 1 and not putting to the ear, improves bluetooth headset 1's the efficiency of opening. The first human body control module 142 is electrically connected to the first human body induction module 141, and is configured to generate a first human body communication signal when the first human body induction module 141 detects that the bluetooth headset 1 is in contact with a human body of a user.
The second human body communication module 22 includes a second human body sensing module 221 and a second human body control module 222, and the second human body sensing module 221 is configured to detect whether the smart wearable contact device 2 is in contact with a human body of a user. The second human body control module 222 is electrically connected to the second human body communication module 22 and is configured to generate the second human body communication signal when detecting that the smart wearable contact device 2 is in contact with the human body of the user.
The first body control module 142 and the second body control module 222 may use an AS3900 chip of austria microelectronics (ams), or may use other low power chips.
Referring to fig. 2, fig. 2 is a schematic structural diagram of a bluetooth headset that is automatically turned on and off by an intelligent wearable contact device according to another preferred embodiment of the present invention, when the bluetooth headset 1 receives big data information transmitted from a smart phone to the intelligent wearable contact device 2 through human body communication, the bluetooth headset 1 of this embodiment further includes a bluetooth module 16 to realize bluetooth pairing connection with the smart phone through the intelligent wearable contact device 2 in consideration of possible instability of human body communication connection and certain interference during information transmission. The present embodiment is substantially the same as the above-described embodiments, except that the bluetooth headset 1 in the present embodiment further includes a bluetooth module 16.
A smart phone in the prior art generally has a bluetooth function, and is a mature technology, so that details are not repeated here. The bluetooth module 16 of this embodiment is electrically connected to the first control module 13, wherein the first control module 13 of this embodiment is further configured to generate a bluetooth pairing signal based on the human body communication. This bluetooth module 16 is used for handling this bluetooth and pairs the signal and sends this bluetooth through this human communication and pairs the signal, because the intelligence is worn contact equipment 2 and is passed through wireless connection with the smart mobile phone, but mutual transmission information, so intelligence is worn contact equipment 2 and is sent to the smart mobile phone after receiving bluetooth of bluetooth headset 1 and pairs the signal, pair the connection and form bluetooth transmission path with the bluetooth of smart mobile phone, thereby make bluetooth headset 1 directly transmit information with the smart mobile phone through bluetooth transmission path, improve information transmission's stability and efficiency.
Further, in other embodiments, after the bluetooth headset 1 and the bluetooth of the smartphone are paired and connected to form a bluetooth transmission channel, the first control module 13 turns off the first human body induction module 141, so as to reduce the power consumption of the bluetooth headset 1.
Furthermore, in other embodiments, the bluetooth headset 1 further includes a timing module 17, and the timing module 17 is electrically connected to the first human body induction module 141, and is configured to periodically start the first human body induction module 141 to detect whether the bluetooth headset 1 is still in contact with a human body of a user, and if the bluetooth headset is not in contact with the human body of the user, feed back the detection result to the first control module 13 and temporarily turn off the bluetooth module 16.
It should be noted that when the motion detection module 12 detects a use motion as a removal motion, the motion detection module 12 feeds back the use motion to the first control module 13 to generate a trigger signal, the first human body induction module 141 detects whether the bluetooth headset 1 is in contact with a human body of a user based on the trigger signal, and when the first human body induction module 141 does not detect that the bluetooth headset 1 is in contact with the human body of the user, the first control module 13 sends a bluetooth shutdown signal to the first control module 13, so that the first control module 13 sequentially shuts down the headset module 15, the bluetooth module 16, and the first human body communication module 14 based on the bluetooth shutdown signal, and finally, the first control module 13 and the motion detection module 12 are in a sleep state to reduce power consumption thereof.
In summary, in the whole process of turning on the bluetooth headset 1, the first control module 13, the first human body communication module 14, the bluetooth module 16, and the headset module 15 are sequentially turned on, if some module is not successfully turned on in the turning-on process, it is determined that the bluetooth headset 1 is erroneously operated or removed, the above modules are sequentially turned off in the reverse order, and the ultra-low working states of the first control module 13 and the motion detection module 12 are only maintained.
Referring to fig. 3, fig. 3 is a flowchart of a method for implementing automatic connection of a bluetooth headset by an intelligent wearable contact device according to a preferred embodiment of the present invention, before executing the method for implementing automatic on-off of the bluetooth headset 1 by the intelligent wearable contact device 2 provided in this embodiment, the intelligent wearable contact device 2 and the smart phone have been wirelessly connected to transmit information therebetween, where the Wireless connection may be bluetooth, wifi (Wireless-Fidelity), ZigBee (ZigBee protocol), or the like. The intelligent wearable contact device 2 includes a second human body communication module 22 and a second control module 23, and the second human body communication module 22 is in contact with the human body of the user and is electrically connected with the second control module 23 to generate a second human body communication signal. Specifically, the method of the present embodiment includes the steps of:
s10: detecting a use action of a user;
specifically, the motion detection module 12 detects a use motion of the user, which may be a wearing motion or a removing motion in contact with the human body of the user. The motion detection module 12 may be an acceleration sensor or other sensors responsible for motion detection. The acceleration sensor mainly detects a change in speed of the bluetooth headset 1 from rest to moving, and preferably, the acceleration sensor detects a change in speed of the bluetooth headset 1 from rest to moving in the direction of gravity. Certainly, the wearing action or the removing action of the bluetooth headset 1 changes in the horizontal direction and the gravity direction, so the acceleration sensor may also detect the speed change of the bluetooth headset 1 moving from the rest state to the horizontal direction, or both the gravity direction and the horizontal direction, and the acceleration sensor corresponding to the detection standard may be selected according to the actual requirement, which is not limited herein.
S20: generating a trigger signal when the use action is detected as a wearing action in contact with the human body of the user;
specifically, the detection module feeds back to the first control module 13 when a usage motion is detected as a wearing motion or a removal motion in contact with the human body of the user, so that the first control module 13 generates a trigger signal to activate the first human body communication module 14.
The bluetooth headset 1 is originally in a static state, when a user picks up or removes the static bluetooth headset 1, the bluetooth headset 1 is changed from the static state to a motion state, and the acceleration sensor which is always in a low-energy-consumption working state detects that the speed change of the wearing action of the user is fed back to the first control module 13, so that the first control module 13 generates a trigger signal to start the first human body communication module 14.
S30: generating a first human body communication signal based on the trigger signal;
specifically, the first human body control module 142 generates a first human body communication signal based on the trigger signal. Wherein, because the finger all can contact with bluetooth headset 1 when the user wears or takes off for the human body can produce first human communication signal. However, the bluetooth headset 1 is finally placed in the ear of the user by the wearing action, so that the bluetooth headset 1 is always kept in contact with the human body of the user after being taken up to the ear, and the finger of the removing action finally loosens the bluetooth headset 1, namely, the finger of the removing action is not in contact with the bluetooth headset 1, so that the first human body communication signal cannot be continuously generated by the first human body control module 142 due to the trigger signal generated by the removing action finally.
S40: searching for a second human body communication signal coupled to the first human body communication signal and generated by the smart wearable contact device 2 and establishing a human body communication connection to further connect the smartphone for communication through the smart wearable contact device 2.
Specifically, the first control module 13 searches for a second human body communication signal coupled to the first human body communication signal and generated by the smart wearing contact device 2 and establishes a human body communication connection, so that the bluetooth headset 1 and the smart wearing contact device 2 transmit information through human body communication. And because the intelligent wearing contact device 2 can transmit information with the smart phone, the Bluetooth headset 1 can transmit information with the smart phone through human body communication and the intelligent wearing contact device 2 indirectly.
Referring to fig. 4, fig. 4 is a flowchart illustrating a method for implementing automatic connection of a bluetooth headset via a smart contact device according to another preferred embodiment of the present invention, when the bluetooth headset 1 receives big data information transmitted from a smart phone to the smart contact device 2 via human body communication, considering that the human body communication connection may be unstable, and certain interference exists during information transmission, so the implementation is further improved, the method for realizing automatic on-off of the bluetooth headset 1 through the intelligent wearable contact device 2 in the embodiment is substantially the same as the embodiment, the difference is that the bluetooth in the method in the embodiment is further connected with the bluetooth of the smart phone in a pairing way through the intelligent wearable contact device 2 to form a bluetooth transmission channel, therefore, the Bluetooth headset 1 directly transmits information with the smart phone through the Bluetooth transmission channel, and the stability and efficiency of information transmission are improved. The method for realizing automatic on-off of the Bluetooth headset 1 through the intelligent wearable contact device 2 provided by the embodiment specifically comprises the following steps:
s11: detecting a use action of a user;
specifically, the motion detection module 12 detects a use motion when the user picks up the bluetooth headset 1 as a wearing motion or a removing motion in contact with the human body of the user.
S21: generating a trigger signal when the use action is detected as a wearing action in contact with the human body of the user;
specifically, the motion detection module 12 feeds back to the first control module 13 when detecting the usage motion as a wearing motion in contact with the human body of the user, so that the first control module 13 generates a trigger signal to activate the first human body communication module 14.
The bluetooth headset 1 is originally in a static state, and when a user needs to use the bluetooth headset 1, the user takes up and wears the static bluetooth headset 1, at this time, the bluetooth headset 1 is changed from the static state to a motion state, and the acceleration sensor always in a low-energy working state detects the speed change of the user wearing action at this time and feeds back the speed change to the first control module 13, so that the first control module 13 generates a trigger signal to start the first human body control module 142.
The step S30 in the above embodiment specifically includes:
s31: detecting whether a human body of a user is contacted based on the trigger signal;
specifically, the first human body induction module 141 detects whether the bluetooth headset 1 is in contact with the human body of the user based on the trigger signal. First human body induction module 141 can be located bluetooth headset 1's the position of going into the ear in order to contact with the auricle of user and the skin in the ear, thereby guarantee that the user is in the sustained connection state when using bluetooth headset 1 to communicate, of course, first human body induction module 141 also can be extended to the position of bluetooth headset 1's convenient finger contact by the position of going into the ear, so that the user just wears contact apparatus 2 with intelligence and establishes human body communication fast when taking up bluetooth headset 1 and not putting to the ear, improve bluetooth headset 1's the efficiency of opening.
S32: a first human body communication signal is generated when contact with a human body of a user is detected.
Specifically, the first human body control module 142 generates a first human body communication signal when the first human body induction module 141 detects that the bluetooth headset 1 is in contact with the human body of the user.
S41: searching for a second human body communication signal coupled to the first human body communication signal and generated by the smart wearable contact device 2 and establishing a human body communication connection;
specifically, the first control module 13 searches for a second human body communication signal coupled with the first human body communication signal and generated by the smart wearable contact device 2 and establishes a human body communication connection. Referring to fig. 5, the step of generating the second human body communication signal by the intelligent wearable and contact device 2 includes:
s411: detecting whether the intelligent wearable contact equipment is in contact with the human body of the user;
specifically, the second human body sensing module 221 detects whether the smart wearable contact device 2 is in contact with the human body of the user.
S412: generating the second human body communication signal when the contact with the user human body is detected;
specifically, the second human body control module 222 generates the second human body communication signal when detecting that the smart wearable contact device 2 is in contact with the human body of the user.
S50: regularly detecting whether the human body of the user is in contact with the human body of the user or not based on the human body communication, and disconnecting the human body communication if the human body is not in contact with the human body of the user;
specifically, the timing module 17 starts the first human body induction module 141 at regular time to detect whether the bluetooth headset 1 is still in contact with the human body of the user, and if the bluetooth headset 1 is not in contact with the human body of the user, the timing module feeds back the information to the first control module 13 and turns off the bluetooth headset 1 at regular time.
S60: generating a bluetooth pairing signal based on the human body communication;
specifically, the first control module 13 generates a bluetooth pairing signal based on the human body communication.
S70: and processing the Bluetooth pairing signal and sending the Bluetooth pairing signal through the human body communication so as to pair and connect the smart phone through the intelligent wearable contact device 2.
Specifically, bluetooth module 16 handles this bluetooth and pairs the signal through this bluetooth of this human communication transmission, and intelligence is worn contact equipment 2 and is received this and pair the signal and send to the smart mobile phone to make bluetooth module 16 pair with the bluetooth of smart mobile phone and be connected formation bluetooth transmission path, thereby make bluetooth headset 1 directly receive the information that the smart mobile phone sent through bluetooth transmission path, improve information transmission's stability and efficiency.
Referring to fig. 6, fig. 6 is a flowchart of a method for implementing automatic disconnection of a bluetooth headset through an intelligent wearable contact device according to another preferred embodiment of the present invention, where the method for implementing automatic disconnection of a bluetooth headset 1 through an intelligent wearable contact device 2 provided in this embodiment includes the following steps:
s12: detecting a use action of a user;
this step is the same as step S10 described above.
S22: generating a trigger signal when the use action is detected as the removal action;
specifically, the motion detection module 12 feeds back to the first control module 13 when the usage motion is detected as the ablation motion, so that the first control module 13 generates a trigger signal to activate the first human body control module 142.
When the user removes the stationary bluetooth headset 1 from the headset, the bluetooth headset 1 changes from the stationary state to the moving state, and the acceleration sensor always in the low-energy working state detects the speed change of the removal action of the user and feeds the speed change back to the first control module 13, so that the first control module 13 generates a trigger signal to start the first human body control module 142.
S31': detecting whether a human body of a user is contacted based on the trigger signal;
specifically, the first human body induction module 141 detects whether the bluetooth headset 1 is in contact with the human body of the user based on the trigger signal.
Wherein, if first human body induction module 141 is located the position of inserting the ear of bluetooth headset 1, then first human body induction module 141 just can not detect bluetooth headset 1 and the human contact of user when bluetooth headset 1 leaves the ear to lead to bluetooth headset 1 and the intelligent human communication connection disconnection who wears contact apparatus 2 and establish. And if first human body induction module 141 extends to the position of bluetooth headset 1 that makes things convenient for the finger contact by the portion of inserting into the ear, then when bluetooth headset 1 leaves the ear and the finger loosens bluetooth headset 1, first human body induction module 141 can not detect bluetooth headset 1 and user's human body contact, promptly, the finger loosens and wears the human body communication connection disconnection that contact equipment 2 established with the intelligence when bluetooth headset 1.
S32': generating a Bluetooth shutdown signal when contact with a human body of a user is not detected; .
Specifically, the first control module 13 generates a bluetooth pairing off signal to turn off the bluetooth module 16 when the first human body induction module 141 does not detect the human body contact of the user.
S41: and disconnecting the pairing connection with the smart phone based on the Bluetooth closing signal.
Wherein, the first control module 13 disconnects the matching connection between the bluetooth module 16 and the smart phone based on the bluetooth shutdown signal, that is, the bluetooth transmission channel is disconnected. Specifically, the first control module 13 of this embodiment turns off the earphone module 15, the bluetooth module 16, and the first human body communication module 14 in sequence based on the bluetooth off signal, and at this time, the first control module 13 and the motion detection module 12 are in the ultra-low power consumption state.
The invention relates to a Bluetooth headset 1 and a method for realizing automatic on-off through an intelligent wearing contact device 2, wherein the method comprises the steps of generating a trigger signal when detecting that a user uses an action as a wearing action; generating a first human body communication signal based on the trigger signal; searching for a second human body communication signal which is coupled with the first human body communication signal and is generated by the intelligent wearing contact device 2, and establishing human body communication connection, so that the intelligent mobile phone is further connected through the intelligent wearing contact device 2 for communication, interaction can be carried out between the Bluetooth headset 1 and the intelligent wearing contact device 2, further, the Bluetooth headset 1 can enter the interaction with the intelligent mobile phone through the intelligent wearing contact device 2, the Bluetooth pairing connection method is simple, user experience is improved, the Bluetooth headset 1 does not need to be provided with and use a switch button, materials are saved, the operation of opening and disconnection is simple and convenient, and the use is safe.
The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.
Claims (10)
1. A method for realizing automatic on-off of a Bluetooth headset through intelligent wearable contact equipment is characterized by comprising the following steps:
detecting a use action of a user;
generating a trigger signal when the use action is detected as a wearing action in contact with the human body of the user;
generating a first human body communication signal based on the trigger signal;
searching for a second human body communication signal coupled with the first human body communication signal and generated by the smart wearable contact device and establishing a human body communication connection to further connect the smart phone for communication through the smart wearable contact device.
2. The method for realizing automatic on-off of the Bluetooth headset through the intelligent wearable contact device according to claim 1, wherein the step of generating the first human body communication signal based on the trigger signal comprises:
detecting whether a human body of a user is contacted based on the trigger signal;
a first human body communication signal is generated when contact with a human body of a user is detected.
3. The method for realizing automatic on-off of the Bluetooth headset through the intelligent wearable contact device according to claim 2, wherein the step of generating the second human body communication signal by the intelligent wearable contact device comprises:
detecting whether the intelligent wearable contact equipment is in contact with the human body of the user;
generating the second human-body communication signal when the contact with the user human body is detected.
4. The method for realizing automatic on-off of the Bluetooth headset through the intelligent wearable contact device according to claim 1, wherein the step of searching for the second human body communication signal coupled with the first human body communication signal and generated by the intelligent wearable contact device and establishing human body communication is followed by:
generating a Bluetooth pairing signal based on the human body communication;
and processing the Bluetooth pairing signal and sending the Bluetooth pairing signal through the human body communication so as to pair and connect the smart phone through the smart wearable contact device.
5. The method for realizing automatic on-off of the Bluetooth headset through the intelligent wearable contact device according to claim 1, wherein the step of searching for the second human body communication signal coupled with the first human body communication signal and generated by the intelligent wearable contact device and establishing human body communication is further followed by the steps of:
and detecting whether the human body of the user is still contacted or not based on the human body communication timing, and disconnecting the human body communication if the human body is not contacted.
6. The utility model provides a bluetooth headset of automatic break-make is realized to contact equipment is worn through intelligence, the intelligence wear contact equipment with smart mobile phone wireless connection, the contact equipment is worn to intelligence includes:
a second control module;
the second human body communication module is in contact with the human body of the user, is electrically connected with the second control module and is used for generating a second human body communication signal; it is characterized in that the preparation method is characterized in that,
the bluetooth headset includes:
the action detection module is used for detecting the use action of the user;
a first control module: the action detection module is electrically connected with the touch screen and is used for generating a trigger signal when the use action is detected as a wearing action in contact with the human body of the user;
the first human body communication module is electrically connected with the first control module and used for sending a first human body communication signal based on the trigger signal; wherein,
the first control module is further used for searching the second human body communication signal coupled with the first human body communication signal and establishing human body communication connection so as to further connect the smart phone through the smart wearable contact device;
and the earphone module is electrically connected with the first human body communication module and is used for communication based on the connection of the Bluetooth earphone and the smart phone.
7. The Bluetooth headset capable of being automatically turned on and off through an intelligent wearable contact device according to claim 6, wherein the first human body communication module comprises:
the first human body induction module is used for detecting whether the Bluetooth headset is in contact with a human body of a user or not based on a trigger signal;
and the first human body control module is electrically connected with the first human body induction module and used for generating the first human body communication signal when the Bluetooth headset is detected to be in contact with a human body of a user.
8. The bluetooth headset of claim 7, wherein the second human body communication module comprises:
the second human body sensing module is used for detecting whether the intelligent wearable contact equipment is in contact with the human body of the user;
and the second human body control module generates the second human body communication signal when detecting that the intelligent wearable contact device is in human body contact with a user.
9. The Bluetooth headset capable of being automatically turned on and off through the intelligent wearable contact device as claimed in claim 8, further comprising a Bluetooth module electrically connected to the first control module, wherein,
the first control module is also used for generating a Bluetooth pairing signal based on the human body communication;
the Bluetooth module is used for processing the Bluetooth pairing signal and sending the Bluetooth pairing signal through the human body communication, so that the intelligent mobile phone can be connected in a pairing mode through the intelligent wearable contact device.
10. The bluetooth headset that realizes automatic on-off through intelligent wearable contact device of claim 9, further comprising:
the timing module is electrically connected with the first human body induction module and used for starting the first human body induction module to detect whether the Bluetooth headset is still in contact with a human body of a user or not based on the human body communication timing.
Priority Applications (2)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201510834464.7A CN105491470B (en) | 2015-11-25 | 2015-11-25 | Bluetooth headset and its method that auto switching is realized by intelligent wear contact equipment |
| PCT/CN2016/094431 WO2017088526A1 (en) | 2015-11-25 | 2016-08-10 | Bluetooth headset and method for implementing automatic turn-on/turn-off of bluetooth headset by means of smart wearable contact device |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
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| CN201510834464.7A CN105491470B (en) | 2015-11-25 | 2015-11-25 | Bluetooth headset and its method that auto switching is realized by intelligent wear contact equipment |
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| CN105491470B CN105491470B (en) | 2019-09-20 |
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| CN201510834464.7A Active CN105491470B (en) | 2015-11-25 | 2015-11-25 | Bluetooth headset and its method that auto switching is realized by intelligent wear contact equipment |
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| WO (1) | WO2017088526A1 (en) |
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| Publication number | Publication date |
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| WO2017088526A1 (en) | 2017-06-01 |
| CN105491470B (en) | 2019-09-20 |
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