CN211293498U - Intelligent glasses - Google Patents

Abstract

The application provides a smart glasses, include: a first wireless Bluetooth headset; the first wireless Bluetooth headset is arranged on the left glasses leg; the first wireless Bluetooth headset comprises a first Bluetooth module, a first controller and a first loudspeaker, wherein the first controller is electrically connected with the first Bluetooth module and the first loudspeaker respectively; and a second wireless bluetooth headset; the second wireless Bluetooth headset is arranged on the right glasses leg; the second wireless Bluetooth headset comprises a second Bluetooth module, a second controller and a second loudspeaker, wherein the second controller is electrically connected with the second Bluetooth module and the second loudspeaker respectively; the second Bluetooth module is in communication connection with the first Bluetooth module. Compared with the prior art, need not to set up the audio line, and then avoided the audio line because the folding condition that wearing and tearing, fracture appear of mirror leg, improved the life of intelligent glasses.

Description

Intelligent glasses

Technical Field

The application relates to the technical field of intelligent glasses, in particular to intelligent glasses.

Background

Spectacles are one of the most commonly used items in life. Along with social progress and improvement of living standard of people, the intelligent glasses and the Bluetooth glasses gradually enter the lives of people. After the user wears the intelligent glasses, the functions of listening to songs, talking and the like can be realized by utilizing the intelligent glasses, and great convenience is brought to the user. However, the left and right earphones of the current smart glasses are connected through the audio cable, and when a user folds the two temples of the smart glasses, the audio cable is easily worn and broken. Secondly, bluetooth module, the control module power of intelligence glasses all place on one of them mirror leg for the weight of two mirror legs is inconsistent, and then brings the not good experience of wearing for the user.

SUMMERY OF THE UTILITY MODEL

An object of the embodiment of the application is to provide a pair of intelligent glasses to improve the problem that "the audio line of present intelligent glasses damages wearing and tearing easily, the weight nonconformity of two mirror legs of fracture and intelligent glasses, brings the not good experience of wearing for the user".

The application is realized as follows:

in a first aspect, an embodiment of the application provides smart glasses, which comprise a glasses frame, a left glasses leg and a right glasses leg; left side mirror leg with right side mirror leg sets up the picture frame both sides, this intelligent glasses still include: a first wireless Bluetooth headset; the first wireless Bluetooth headset is arranged on the left glasses leg; the first wireless Bluetooth headset comprises a first Bluetooth module, a first controller and a first loudspeaker, wherein the first controller is electrically connected with the first Bluetooth module and the first loudspeaker respectively; and a second wireless bluetooth headset; the second wireless Bluetooth headset is arranged on the right glasses leg; the second wireless Bluetooth headset comprises a second Bluetooth module, a second controller and a second loudspeaker, wherein the second controller is electrically connected with the second Bluetooth module and the second loudspeaker respectively; the second Bluetooth module is in communication connection with the first Bluetooth module.

The intelligent glasses that this application embodiment provided respectively is provided with a wireless bluetooth headset on two mirror legs, and every wireless bluetooth headset all includes bluetooth module, controller and speaker. The two earphones can communicate with each other through the Bluetooth module. Compared with the prior art, need not to set up the audio line, and then avoided the audio line because the folding condition that wearing and tearing, fracture appear of mirror leg, improved the life of glasses. In addition, because the wireless bluetooth headset that sets up on two mirror legs includes the same module, consequently, the weight of two mirror legs is unanimous for the user wears for a long time and also can not produce the discomfort.

With reference to the technical solution provided by the first aspect, in some possible implementation manners, the first wireless bluetooth headset further includes: a first microphone; the first microphone is arranged on the left glasses leg and close to one end of the glasses frame; the first microphone is electrically connected with the first controller; the second wireless Bluetooth headset further comprises a second microphone; the second microphone is arranged on the right glasses leg and close to one end of the glasses frame; the second microphone is electrically connected with the second controller.

The intelligent glasses that this application embodiment provided all include the microphone on two wireless bluetooth headset, and one comes, has guaranteed that the receipt audio signal scope of microphone is more balanced, and the audio signal can effectual receipt in glasses both sides homoenergetic. Secondly, the weight of the two temples is ensured to be consistent, so that the user can wear the glasses for a long time without discomfort.

With reference to the technical solution provided by the first aspect, in some possible implementation manners, the number of the first microphones is two, and the number of the second microphones is two.

In the embodiment of the application, the four microphones are adopted in the whole glasses, and noise can be effectively reduced through the four microphones.

With reference to the technical solution provided by the first aspect, in some possible implementation manners, the first wireless bluetooth headset further includes a first ADC module, and the first ADC module is electrically connected to the first microphone and the first controller, respectively; the second wireless Bluetooth headset further comprises a second ADC module, and the second ADC module is electrically connected with the second microphone and the second controller respectively.

Because the voice signal that the microphone gathered is analog signal, therefore, in this application embodiment, every wireless bluetooth module all includes the ADC module, and the ADC module is used for converting the analog signal that the microphone gathered into digital signal to and send digital signal to the controller, so that the controller handles the voice signal that the microphone gathered.

With reference to the technical solution provided by the first aspect, in some possible implementation manners, the first speaker is disposed on the left temple and at an end far away from the glasses frame, and the first speaker is disposed on the left temple and at a side close to the right temple; the second speaker sets up on the right side mirror leg and keep away from the one end of picture frame, just the second speaker sets up be close to on the right side mirror leg one side of left side mirror leg.

In this application embodiment, all set up the one end of keeping away from the picture frame on the mirror leg with two speakers, and two speakers set up in opposite directions. So that when the user wears the glasses, the speakers can be positioned near the user's ears to facilitate the user hearing the audio played by the speakers.

With reference to the technical solution provided by the first aspect, in some possible implementation manners, the first wireless bluetooth headset further includes a first protruding part, the first protruding part is disposed on the left temple and is far away from one end of the frame, and the first speaker is disposed on the first protruding part and is close to one side of the right temple; the first speaker faces a left ear of a user when the user wears the smart glasses; the second wireless Bluetooth headset further comprises a second protruding piece, the second protruding piece is arranged on the right glasses leg and is far away from one end of the glasses frame, and the second loudspeaker is arranged on the second protruding piece and is close to one side of the left glasses leg; the second speaker is oriented toward a right ear of the user when the user is wearing the smart glasses.

In this application embodiment, every wireless bluetooth headset still includes protruding piece, and the one end of picture frame is kept away from to protruding piece setting on the mirror leg, and the speaker setting is on protruding piece, and when the user wore glasses, the speaker can just be towards user's ear, has improved user's use and has experienced.

With reference to the technical solution provided by the first aspect, in some possible implementation manners, the first speaker and the second speaker are directional speakers.

In this application embodiment, the speaker is directional loudspeaker, and directional loudspeaker can be with sound control in predetermined region, because the ear of speaker towards user in this application, consequently, the audio frequency that the user received can only be heard by oneself, has avoided the sound that the speaker sent to external interference, has also improved the security that the user used this glasses simultaneously.

With reference to the technical solution provided by the first aspect, in some possible implementation manners, the first wireless bluetooth headset further includes a first DAC module, and the first DAC module is electrically connected to the first speaker and the first controller, respectively; the second wireless Bluetooth headset further comprises a second DAC module, and the second DAC module is electrically connected with the second loudspeaker and the second controller respectively.

Because the voice signal played by the speaker is an analog signal, in this embodiment of the application, each wireless bluetooth module includes a DAC module, and the DAC module is configured to convert a digital signal sent by the controller into an analog signal so as to be played by the speaker.

With reference to the technical solution provided by the first aspect, in some possible implementation manners, the first wireless bluetooth headset further includes a first power module, the first power module is connected to the first controller, the first bluetooth module, and the first speaker, and the first power module is configured to supply power to the first controller, the first bluetooth module, and the first speaker; the second wireless Bluetooth headset further comprises a second power module, the second power is respectively connected with the second controller, the second Bluetooth module and the second loudspeaker, and the second power is used for supplying power to the second controller, the second Bluetooth module and the second loudspeaker.

In the embodiment of the application, two wireless Bluetooth headsets comprise one power supply module. In the prior art, the two earphones are powered through one power supply module, and a power line between the two earphones is easily damaged and broken when the glasses legs are folded. Therefore, compared with the prior art, a power line does not need to be arranged between the two glasses legs, the situation that the power line is abraded and broken due to folding of the glasses legs is avoided, and the stability of power supply is improved. In addition, the two power supply modules are arranged, so that the weight consistency of the two glasses legs is ensured, and the user can wear the glasses for a long time without discomfort.

With reference to the technical solution provided by the first aspect, in some possible implementation manners, a distance between the first wireless bluetooth headset and the frame is equal to a distance between the second wireless bluetooth headset and the frame.

In this application embodiment, the distance of two wireless bluetooth headset and picture frame equals, and the distance that each the same device in also two wireless bluetooth headset equals with the picture frame for two mirror legs are abundant symmetrical, have improved the comfort when the user wears.

Drawings

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

Fig. 1 is a schematic structural diagram of smart glasses provided in an embodiment of the present application.

Fig. 2 is a schematic structural diagram of another smart glasses provided in an embodiment of the present application.

Fig. 3 is a block diagram of a first wireless bluetooth headset according to an embodiment of the present disclosure.

Fig. 4 is a block diagram of a second wireless bluetooth headset according to an embodiment of the present disclosure.

Icon: 100-smart glasses; 10-a spectacle frame; 20-left temple; 30-right temple; 40-a first wireless bluetooth headset; 41-a first bluetooth module; 42-a first controller; 43-a first speaker; 44-a first projection; 45-a first DAC module; 46-a first microphone; 47-a first ADC module; 50-a second wireless bluetooth headset; 51-a second bluetooth module; 52-a second controller; 53-a second speaker; 54-a second boss; 55-a second DAC module; 56-a second microphone; 57-second ADC module.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application.

The left earphone and the right earphone of the current intelligent glasses are connected through the audio cable, and a user easily causes abrasion and breakage of the audio cable when folding two glasses legs of the intelligent glasses. Secondly, bluetooth module, the control module power of intelligence glasses all place on one of them mirror leg for the weight of two mirror legs is inconsistent, and then brings the not good experience of wearing for the user.

In view of the above problems, the present inventors have studied and researched to provide the following embodiments to solve the above problems.

Referring to fig. 1, an embodiment of the present application provides a pair of smart glasses 100. The glasses comprise a glasses frame 10, a left glasses leg 20, a right glasses leg 30, a first wireless Bluetooth headset 40 and a second wireless Bluetooth headset 50. Wherein the left and right temples 20 and 30 are provided at both sides of the frame 10. The first wireless bluetooth headset 40 is disposed on the left leg 20, and the second wireless bluetooth headset 50 is disposed on the right leg 30. (since the wireless bluetooth headsets are all arranged at the inner sides of the temples, in the structural diagram of fig. 1, the first wireless bluetooth headset 40 is not shown, but the block diagram of the first wireless bluetooth headset 40 can refer to fig. 3.)

The first wireless bluetooth headset 40 includes a first bluetooth module 41, a first controller 42, and a first speaker 43. The first controller 42 is electrically connected to the first bluetooth module 41 and the first speaker 43, respectively.

The second wireless bluetooth headset 50 includes a second bluetooth module 51, a second controller 52, and a second speaker 53. The second controller 52 is electrically connected to the second bluetooth module 51 and the second speaker 53, respectively.

The second bluetooth module 51 is in communication connection with the first bluetooth module 41. Of course, the first bluetooth module 41 and the second bluetooth module 51 may also be both in communication connection with the smart device. The intelligent device can be a mobile phone, a tablet computer and other communication devices. When the glasses are used, the user can set the master earphone and the slave earphone, for example, the first wireless bluetooth earphone 40 is the master earphone and the second wireless bluetooth earphone 50 is the slave earphone. When the intelligent device plays music, the intelligent device sends audio data to the master earphone through the Bluetooth module of the intelligent device, and after the master earphone receives the audio data, the audio data is sent to the slave earphone through the first Bluetooth module 41, so that the master earphone and the slave earphone play music through respective speakers at the same time. Of course, the second wireless bluetooth headset 50 may be a master headset and the first wireless bluetooth headset 40 may be a slave headset. When the intelligent device plays music, the intelligent device sends audio data to the master earphone through the Bluetooth module of the intelligent device, and after the master earphone receives the audio data, the audio data is sent to the slave earphone through the second Bluetooth module 51, so that the master earphone and the slave earphone play music through respective speakers at the same time.

To sum up, the intelligent glasses that this application embodiment provided respectively is provided with a wireless bluetooth headset on two mirror legs, and every wireless bluetooth headset all includes bluetooth module, controller and speaker. The two earphones can communicate with each other through the Bluetooth module. Compared with the prior art, need not to set up the audio line, and then avoided the audio line because the folding condition that wearing and tearing, fracture appear of mirror leg, improved the life of glasses. In addition, because the wireless bluetooth headset that sets up on two mirror legs includes the same module, consequently, the weight of two mirror legs is unanimous for the user wears for a long time and also can not produce the discomfort.

In the embodiment of the present application, the first speaker 43 is disposed on the left side arm 20 and away from one end of the frame 10, and the first speaker 43 is disposed on the side of the left side arm 20 close to the right side arm 30. Accordingly, the second speaker 53 is provided on the right temple 30 at an end away from the frame 10, and the second speaker 53 is provided on the right temple 30 on a side close to the left temple 20. The two speakers are all arranged at one end of the glasses leg far away from the glasses frame 10, and the two speakers are oppositely arranged. So that when the user wears the glasses, the speakers can be positioned near the user's ears to facilitate the user hearing the audio played by the speakers.

As an alternative embodiment, referring to fig. 2, the first wireless bluetooth headset 40 further includes a first protrusion 44. The first protrusion 44 is provided on the left temple 20 at an end remote from the frame 10. The first speaker 43 is provided on the first boss 44 near one side of the right temple 30. When the user wears the glasses, the first speaker 43 faces the left ear of the user. Correspondingly, the second bluetooth wireless headset 50 further includes a second protrusion 54, the second protrusion 54 is disposed on the right temple 30 and away from one end of the glasses frame 10, and the second speaker 53 is disposed on the second protrusion 54 and near one side of the left temple 20. The second speaker 53 is directed towards the right ear of the user when the user is wearing the glasses.

In this application embodiment, every wireless bluetooth headset still includes protruding piece, and the one end of picture frame is kept away from to protruding piece setting on the mirror leg, and the speaker setting is on protruding piece, and when the user wore glasses, the speaker can just be towards user's ear, has improved user's use and has experienced.

Optionally, the first speaker 43 and the second speaker 53 are directional speakers. It should be noted that the directional speaker emits ultrasonic waves, and audible sound is carried in the ultrasonic waves, so that when the ultrasonic waves are attenuated quickly in the air, people can hear the sound, and directional transmission of the sound is further realized. That is, directional loudspeaker can be with sound control in predetermined region, because the speaker is towards user's ear in this application, consequently, the audio frequency that the user received can only be heard oneself, has avoided the sound that the speaker sent to external interference, has also improved the security of using this glasses simultaneously.

Referring to fig. 3 and 4, optionally, the first wireless bluetooth headset 40 further includes a first DAC (digital-to-analog converter) module 45. The first DAC module 45 is electrically connected to the first speaker 43 and the first controller 42, respectively. Correspondingly, the second wireless bluetooth headset 50 further comprises a second DAC module 55. The second DAC module 55 is electrically connected to the second speaker 53 and the second controller 52, respectively.

It should be noted that the DAC module is basically composed of 4 parts, namely, a weight resistor network, an operational amplifier, a reference power supply, and an analog switch. The DAC module is used for converting the digital signals into analog signals. Because the voice signal played by the speaker is an analog signal, in this embodiment of the application, each wireless bluetooth module includes a DAC module, and the DAC module is configured to convert a digital signal sent by the controller into an analog signal so as to be played by the speaker.

In the embodiment of the present application, the number of the first speakers 43 is two, and the number of the second speakers 53 is two. That is, the glasses that this application embodiment provided include four speakers. Of course, in other embodiments, the number of speakers may also be two, that is, the first wireless bluetooth headset 40 and the second wireless bluetooth headset 50 each include one speaker. The number of speakers may also be six, i.e. the first wireless bluetooth headset 40 and the second wireless bluetooth headset 50 each comprise three speakers. The present application is not limited thereto.

It should be noted that the number of the first DAC modules 45 is equal to the number of the first speakers 43, and the number of the second DAC modules 55 is equal to the number of the second speakers 53. That is, when the first wireless bluetooth headset 40 includes two speakers, the first wireless bluetooth headset includes two first DAC modules 45. Each first DAC module 45 is connected to the first controller 42 and to one first speaker 43. When the second wireless bluetooth headset 50 includes two speakers, the second wireless bluetooth headset 50 includes two second DAC modules 55. Each second DAC module 55 is connected to the second controller 52 and to one second loudspeaker 53.

Optionally, the first wireless bluetooth headset 40 further comprises a first microphone 46. The first microphone 46 is provided on the left temple 20 near one end of the frame 10. The first microphone 46 is electrically connected to the first controller 42. Correspondingly, the second wireless bluetooth headset 50 further includes a second microphone 56. A second microphone 56 is provided on the right temple 30 near one end of the frame 10. The second microphone 56 is electrically connected to the second controller 52.

The first microphone 46 and the second microphone 56 are used for receiving voice information of a user. The intelligent glasses that this application embodiment provided all include the microphone on two wireless bluetooth headset, and one comes, has guaranteed that the receipt audio signal scope of microphone is more balanced, and the audio signal can effectual receipt in glasses both sides homoenergetic. Secondly, the weight of the two temples is ensured to be consistent, so that the user can wear the glasses for a long time without discomfort.

In the embodiment of the present application, the number of the first microphones 46 is two, and the number of the second microphones 56 is two. That is, the glasses that this application embodiment provided include four microphones, can more effectively reduce noise through four microphones.

Wherein, the distance between the two first microphones 46 is 2 cm to 6 cm. The distance between the two second microphones 56 is 2 cm to 6 cm.

Of course, in other embodiments, the number of microphones may also be two, that is, the first wireless bluetooth headset 40 and the second wireless bluetooth headset 50 each include one microphone. The number of microphones may also be six, i.e. the first wireless bluetooth headset 40 and the second wireless bluetooth headset 50 each comprise three microphones. The present application is not limited thereto.

Optionally, the first wireless bluetooth headset 40 further includes a first ADC (analog to digital converter) module 47. The first ADC module 47 is electrically connected to the first microphone 46 and the first controller 42, respectively. Correspondingly, the second wireless bluetooth headset 50 further includes a second ADC module 57, and the second ADC module 57 is electrically connected to the second microphone 56 and the second controller 52, respectively.

Because the voice signal that the microphone gathered is analog signal, therefore, in this application embodiment, every wireless bluetooth module all includes the ADC module, and the ADC module is used for converting the analog signal that the microphone gathered into digital signal to and send digital signal to the controller, so that the controller handles the voice signal that the microphone gathered.

It should be noted that the number of the first ADC modules 47 is equal to the number of the first microphones 46, and the number of the second ADC modules 57 is equal to the number of the second microphones 56. That is, when the first wireless bluetooth headset 40 includes two microphones, the first wireless bluetooth headset 40 includes two first ADC modules 47. Each first ADC module 47 is connected to the first controller 42 and to one first microphone 46. When the second wireless bluetooth headset 50 includes two microphones, the second wireless bluetooth headset 50 includes two second ADC modules 57. Each second ADC module 57 is connected to the second controller 52 and to one second microphone 56.

In the embodiment of the present application, the first bluetooth module 41, the first ADC module 47, the first DAC module 45, and the first controller 42 of the first wireless bluetooth headset 40 are all integrated on one chip. Accordingly, the second bluetooth module 51, the second ADC module 57, the second DAC module 55, and the second controller 52 of the second wireless bluetooth headset 50 are also integrated on one chip.

Optionally, the first wireless bluetooth headset 40 further comprises a first power module. The first power module is used to supply power to the devices in the first wireless bluetooth headset 40. For example, a first power supply is connected to the first controller 42, the first bluetooth module 41 and the first speaker 43, respectively. The first power supply is used to power the first controller 42, the first bluetooth module 41 and the first speaker 43. And for example a first power supply, is connected to the first microphone 46. The first power supply is used to power the first microphone 46.

Correspondingly, the second wireless bluetooth headset 50 further includes a second power module. The second power module is used to supply power to the devices in the second wireless bluetooth headset 50. For example, the second power supply is connected to the second controller 52, the second bluetooth module 51, and the second speaker 53, respectively. The second power supply is used to power the second controller 52, the second bluetooth module 51 and the second speaker 53. And for example a second power supply, is connected to the second microphone 56. The second power supply is used to power the second microphone 56.

In the embodiment of the application, two wireless Bluetooth headsets comprise one power supply module. In the prior art, the two earphones are powered through one power supply module, and a power line between the two earphones is easily damaged and broken when the glasses legs are folded. Therefore, compared with the prior art, a power line does not need to be arranged between the two glasses legs, the situation that the power line is abraded and broken due to folding of the glasses legs is avoided, and the stability of power supply is improved. In addition, the two power supply modules are arranged, so that the weight consistency of the two glasses legs is ensured, and the user can wear the glasses for a long time without discomfort.

Alternatively, the first wireless bluetooth headset 40 is equidistant from the frame 10 and the second wireless bluetooth headset 50 is equidistant from the frame 10. Namely, the distance between each identical device in the two wireless Bluetooth headsets and the frame is equal. For example, the distance between the first speaker 43 and the frame 10 is equal to the distance between the second speaker 53 and the frame 10; the first microphone 46 is located at the same distance from the frame 10 as the second microphone 56 is located at the same distance from the frame 10; the first controller 42 is located at the same distance from the frame 10 as the second controller 52 is located from the frame 10. Make two mirror legs fully symmetrical through this mode, comfort when having improved the user and wearing.

In the embodiment of the present application, the first controller 42 and the second controller 52 can be used for audio decompression, resampling, and audio equalization. The first controller 42 and the second controller 52 may also be used for voice recognition, keyword recognition, and the like.

It should be noted that, when the glasses are used, the user can set the master earphone and the slave earphone, for example, the first wireless bluetooth earphone 40 is the master earphone, and the second wireless bluetooth earphone 50 is the slave earphone. When the user speaks, the first speaker 43 of the master earpiece and the second speaker 43 of the slave earpiece receive the speech signal. The slave earphone sends the received voice signal to the master earphone through the second bluetooth module 51, and the first controller 42 of the master earphone performs noise reduction processing on the voice signals received by the two earphones to serve as an uplink voice signal for the intelligent device, and of course, the first controller 42 may also perform keyword recognition or voice recognition according to the noise reduction result.

It should be noted that the Controller may be a single chip, such as a 51 single chip, a Programmable Logic Controller (PLC), or a general-purpose Processor, including a Central Processing Unit (CPU), a Network Processor (NP), and the like; but also Digital Signal Processors (DSPs), Application Specific Integrated Circuits (ASICs), Field Programmable Gate Arrays (FPGAs) or other Programmable logic devices, discrete Gate or transistor logic devices, discrete hardware components. A general purpose processor may be a microprocessor or the controller may be any conventional processor or the like.

Next, a communication process between the smart glasses and the smart device provided in the embodiment of the present application is described in detail.

The intelligent glasses that this application embodiment provided, including main earphone and follow earphone. The master earphone can be a first wireless Bluetooth earphone or a second wireless Bluetooth earphone, and when the master earphone is the first wireless Bluetooth earphone, the slave earphone is the second wireless Bluetooth earphone; when the master earphone is the second wireless bluetooth earphone, the slave earphone is the first wireless bluetooth earphone. The master earpiece is configured to establish a bluetooth connection with the smart device for bluetooth communication with the smart device, the master earpiece transmitting parameters related to the bluetooth connection to the slave earpiece for the slave earpiece to listen to and receive bluetooth signals from the smart device.

The master earphone and the slave earphone are configured to: and sending an indication frame to the other earphone under the condition that the Bluetooth audio data frame is received by the earphone, so as to indicate that the earphone has the Bluetooth audio data frame which is not correctly received from the intelligent device. When one of the two earphones correctly receives the Bluetooth audio data frame from the intelligent device, the other earphone sends an ack (acknowledge character) to the intelligent device, otherwise, a nack (unacknowledged character) is sent. The smart device retransmits the bluetooth audio data frame upon receiving the nack.

When one of the master earphone and the slave earphone correctly receives the Bluetooth audio data frame from the intelligent equipment, and the other earphone does not correctly receive the Bluetooth audio data frame, the correct receiver forwards the Bluetooth audio data frame to the other earphone through the Bluetooth connection between the master earphone and the slave earphone.

By this way, system reliability is improved. The two earphones can also work more reliably in various interference environments and are not easy to block.

In the description of the present application, it should be noted that the terms "inside", "outside", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings or orientations or positional relationships that the products of the application usually place when using, and are only used for convenience in describing the present application and simplifying the description, but do not indicate or imply that the devices or elements that are referred to must have a specific orientation, be constructed in a specific orientation, and operate, and thus, should not be construed as limiting the present application. Furthermore, the terms "first," "second," and the like are used merely to distinguish one description from another, and are not to be construed as indicating or implying relative importance.

It should also be noted that, unless expressly stated or limited otherwise, the terms "disposed" and "connected" are to be construed broadly, e.g., as meaning fixedly connected, detachably connected, or integrally connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present application can be understood in a specific case by those of ordinary skill in the art.

The above description is only an example of the present application and is not intended to limit the scope of the present application, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, improvement and the like made within the spirit and principle of the present application shall be included in the protection scope of the present application.

Claims (9)

1. An intelligent glasses comprises a glasses frame, a left glasses leg and a right glasses leg; left side mirror leg with right side mirror leg sets up the picture frame both sides, its characterized in that still includes:

a first wireless Bluetooth headset; the first wireless Bluetooth headset is arranged on the left glasses leg; the first wireless Bluetooth headset comprises a first Bluetooth module, a first controller and a first loudspeaker, wherein the first controller is electrically connected with the first Bluetooth module and the first loudspeaker respectively; and

a second wireless Bluetooth headset; the second wireless Bluetooth headset is arranged on the right glasses leg; the second wireless Bluetooth headset comprises a second Bluetooth module, a second controller and a second loudspeaker, wherein the second controller is electrically connected with the second Bluetooth module and the second loudspeaker respectively; the second Bluetooth module is in communication connection with the first Bluetooth module;

the first wireless Bluetooth headset further comprises a first DAC module, and the first DAC module is electrically connected with the first loudspeaker and the first controller respectively;

the second wireless Bluetooth headset further comprises a second DAC module, and the second DAC module is electrically connected with the second loudspeaker and the second controller respectively.

2. The smart eyewear of claim 1, wherein the first wireless bluetooth headset further comprises: a first microphone; the first microphone is arranged on the left glasses leg and close to one end of the glasses frame; the first microphone is electrically connected with the first controller;

the second wireless Bluetooth headset further comprises a second microphone; the second microphone is arranged on the right glasses leg and close to one end of the glasses frame; the second microphone is electrically connected with the second controller.

3. The smart eyewear of claim 2, wherein the first microphones are two in number and the second microphones are two in number.

4. The smart eyewear of claim 2, wherein the first wireless bluetooth headset further comprises a first ADC module electrically connected to the first microphone and the first controller, respectively;

the second wireless Bluetooth headset further comprises a second ADC module, and the second ADC module is electrically connected with the second microphone and the second controller respectively.

5. The smart glasses according to claim 1, wherein the first speaker is disposed on the left side of the temple and at an end away from the frame, and the first speaker is disposed on a side of the left side of the temple adjacent to the right side of the temple;

the second speaker sets up on the right side mirror leg and keep away from the one end of picture frame, just the second speaker sets up be close to on the right side mirror leg one side of left side mirror leg.

6. The pair of smart glasses according to claim 1, wherein the first wireless bluetooth headset further comprises a first protrusion piece, the first protrusion piece is disposed on the left leg and away from one end of the glasses frame, and the first speaker is disposed on the first protrusion piece and close to one side of the right leg; the first speaker faces a left ear of a user when the user wears the smart glasses;

the second wireless Bluetooth headset further comprises a second protruding piece, the second protruding piece is arranged on the right glasses leg and is far away from one end of the glasses frame, and the second loudspeaker is arranged on the second protruding piece and is close to one side of the left glasses leg; the second speaker is oriented toward a right ear of the user when the user is wearing the smart glasses.

7. The smart eyewear of claim 1, wherein the first speaker and the second speaker are directional speakers.

8. The smart glasses according to claim 1, wherein the first wireless bluetooth headset further comprises a first power module, the first power module is connected to the first controller, the first bluetooth module, and the first speaker, respectively, and the first power module is configured to supply power to the first controller, the first bluetooth module, and the first speaker;

the second wireless Bluetooth headset further comprises a second power module, the second power is respectively connected with the second controller, the second Bluetooth module and the second loudspeaker, and the second power is used for supplying power to the second controller, the second Bluetooth module and the second loudspeaker.

9. The smart eyewear of claim 1, wherein the first wireless bluetooth headset is equidistant from the frame and the second wireless bluetooth headset is equidistant from the frame.

Images