CN203117539U - A pair of 3D glasses containing wireless earphones - Google Patents

Abstract

The utility model provides a pair of 3D glasses containing wireless earphones. The pair of 3D glasses comprises a glass rack, a microcontroller, a power-on and power-off button, an earphone power-on and power-off button, earphone receivers, and a proximity sensor. The microcontroller is connected with the power-on and power-off button and the earphone power-on and power-off button and is used for controlling the 3D function and the earphone function of the 3D glasses. The microcontroller acts on the two earphone receivers through a Bluetooth chip. The microcontroller is connected with the proximity sensor through a proximity sensor chip and is used for controlling the standby or power-on state of the 3D glasses. When a user watches TV normally, the wireless earphone function of the 3D glasses containing wireless earphones is turned off and only the 3D glasses are activated. When others are influenced, the wireless earphone function can be activated in order that the 3D glasses and the wireless earphones operate simultaneously. The user may hear the voice in the TV while watching TV with the 3D glasses, achieving perfect matching of auditory sense and 3D visual sense and preventing others from being disturbed.

Description

3D glasses with wireless earphone

Technical Field

The utility model relates to a technical field of domestic 3D glasses, more specifically relates to a take 3D glasses of wireless earphone.

Background

With the development of science and technology, 3D televisions are released or released by various large television manufacturers in succession, the three-dimensional television becomes the development trend of future televisions, the application of 3D glasses is more and more extensive, and people no longer satisfy the electronic products such as the 3D glasses that have good visual viewing effects, and the demands on the use functions of the 3D glasses are increasingly increased.

At present, 3D (three-dimensional) glasses are commonly adopted by 3D eyes matched with a household television, and the stereoscopic effect during watching is realized by controlling the on and off of a liquid crystal lens through a circuit. Wherein, the 'on' can control the glasses lens to be completely black so as to block the image of one eye; the 'off' can control the glasses lenses to be transparent so that the other eye can see the images, therefore, the pictures of the left eye and the right eye can be continuously and alternately displayed on the screen, and the images seen by the left eye and the right eye are alternately matched with the stereo glasses, so that the brain fuses the two images into a whole to realize the three-dimensional stereoscopic vision, and the 3D depth perception of a single image is generated. The high-quality 3D glasses can provide high-quality 3D display effect for home users.

When watching television using 3D glasses, in order to prevent disturbing others, a user sometimes needs to adjust the volume to be small, and at this time, cannot reproduce auditory sensation matching 3D vision.

SUMMERY OF THE UTILITY MODEL

In view of the above problem, the utility model aims at providing a take 3D glasses of wireless earphone solves the unable problem that matches of sense of hearing and 3D vision when the user need with the volume control very little.

The utility model provides a 3D glasses with wireless earphone, which comprises a glasses frame and a microcontroller arranged on the glasses frame; the 3D glasses further comprise a switch key, an earphone receiver and a proximity sensor; the microcontroller is connected with the power on-off key and the earphone on-off key and is used for controlling the 3D function and the earphone function of the 3D glasses; the microcontroller acts on the two earphone receivers through the Bluetooth chip; the microcontroller is connected with the proximity sensor through the proximity sensor chip and is used for controlling the standby or starting state of the 3D glasses.

In addition, the preferred structure is that the on-off switch is arranged on one side of the spectacle frame, and the earphone on-off switch is arranged on the other side of the spectacle frame.

In addition, it is preferable that the headphone is led out from a temple of the spectacle frame.

Further, it is preferable that the proximity sensor is provided at a rear end of a temple of the spectacle frame.

In addition, it is preferable that the 3D glasses further include a volume key, and the volume key is disposed at one side of the glasses frame.

Further, it is preferable that the proximity sensor is a metal foil or an FPC.

According to the technical scheme, the 3D glasses with the wireless earphones provided by the utility model have the advantages that when watching TV normally, the wireless earphones are turned off, and only the 3D glasses are turned on; when sound probably influences other people, can open the wireless earphone function, 3D glasses and wireless earphone simultaneous working, the user can also hear the sound in the TV when watching TV with 3D glasses simultaneously, the sense of hearing can perfect adaptation with the 3D vision to can avoid disturbing other people.

Drawings

Other objects and results of the present invention will become more apparent and more readily appreciated as the same becomes better understood by reference to the following description and appended claims, taken in conjunction with the accompanying drawings. In the drawings:

fig. 1 is a schematic structural view of 3D glasses with wireless earphones according to an embodiment of the present invention;

fig. 2 is a schematic block circuit diagram of 3D glasses with wireless earphones according to an embodiment of the present invention;

fig. 3 is a schematic diagram of a 3D glasses part of a 3D glasses with wireless earphones according to an embodiment of the present invention;

fig. 4 is a schematic diagram of a bluetooth headset portion of 3D glasses with wireless headsets according to an embodiment of the present invention;

fig. 5 is a flowchart illustrating the working status of the wireless earphone of the 3D glasses with wireless earphones according to the embodiment of the present invention;

fig. 6 is a schematic diagram of a connection between a television and 3D glasses with wireless earphones according to the present invention.

Wherein the reference numerals include: the mobile phone comprises a switch key 200, an earphone switch key 305, a volume key 307, an eyeglass frame 800, a temple 900, an earphone receiver 1000, a microcontroller 100, a Bluetooth chip 301, a filter 302, a left ear speaker 303, a right ear speaker 304, a microphone 306, a charging interface 401, a power management unit 402, a lithium polymer battery 403, a 3V linear regulator 404, a 26MHZ crystal 500, a proximity sensor 601, a proximity sensing chip 602, a liquid crystal driving chip 701, a liquid crystal screen 702, an analog switch 703, a red-blue double-color indicator lamp 704 and an infrared sensor 705.

The same reference numbers in all figures indicate similar or corresponding features or functions.

Detailed Description

Specific embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

Fig. 1 and fig. 2 show a schematic structural diagram and a schematic circuit diagram of 3D glasses with wireless earphones according to an embodiment of the present invention.

As shown in fig. 1 and fig. 2, the 3D glasses with wireless earphones provided by the present invention includes a glasses frame 800, a microcontroller 100 (not shown in fig. 1), a proximity sensor 601 (not shown in fig. 1), a switch key 200, an earphone switch key 305, two earphones 1000, and a volume key 307; the eyeglass frame 800 includes temples 900.

In the embodiment shown in fig. 1 and 2, microcontroller 100 is disposed on eyeglasses frame 800, and is provided with an operating frequency by 26MHz crystal 500; switch keys 200 are disposed on the right side wall of the eyeglass frame 800; the headphone switch key 305 is provided on the left side wall of the eyeglass frame 800; the two earphone earpieces 1000 are respectively led out from the left and right temples 900 of the spectacle frame 800; take wireless earphone's 3D glasses start default only 3D function (switch key 200 controls promptly the utility model discloses a 3D function), wireless earphone is in the closed condition. When the earphone switch key 305 is pressed, the audio frequency passing through the filter 302 enters the Bluetooth chip 301, the Bluetooth earphone is started, the connection with the Bluetooth module on the television is established, and the sound in the television can be switched to the earphone for playing from the left ear loudspeaker 303 and the right ear loudspeaker 304. The bluetooth chip 301, the filter 302 and the antenna form a bluetooth module of the 3D glasses.

In this embodiment, a key for controlling the volume of the earphone, such as a volume key 307, may be added as needed, and the volume key 307 is disposed on the left side wall of the eyeglasses frame 800.

The microcontroller 100 is connected to the on-off key 200 and the headphone on-off key 305, and is configured to control a 3D function and a headphone function of the 3D glasses with wireless headphones.

The microcontroller 100 acts on both headset earpieces 1000 via the bluetooth chip 301.

The proximity sensor 601 is provided at the rear end of the temple 900 of the eyeglass frame 800, and the proximity sensor 601 is a metal foil or FPC (Flexible Printed Circuit board). The microcontroller 100 is connected to the proximity sensor 601 through the proximity sensor chip 602, and is configured to control a standby or power-on state of the 3D glasses with the wireless headset. In the starting state, when a user wears the 3D glasses with the wireless earphones, the 3D glasses are opened; once the user takes off the glasses, the 3D function and the headphone function enter a standby mode.

In addition, in order to save power consumption, the automatic shutdown condition of the 3D glasses can be set. Such as: if the user does not wear the 3D glasses with the wireless earphones again within 180 seconds, the 3D glasses are automatically turned off to save electric energy.

In this embodiment, the lcd tv composed of the lcd driver chip 701 and the lcd 702 is connected to the infrared sensor 705, and after the connection, information is transmitted to the microcontroller 100, and the microcontroller 100 controls the switching of the lenses of the left and right eyes of the 3D glasses by controlling the red and blue indicator lamps 704 after internal information processing under the action of the analog switch 703. Wherein, the infrared sensor 705 and the microcontroller 100 constitute an infrared module of the 3D glasses.

The 3D glasses in this embodiment supply power to the glasses, which includes a 3V linear regulator 404, a lithium polymer battery 403, a power management unit 402, and a charging interface 401. The 3D glasses are powered by a lithium polymer battery 403, and the lithium polymer battery 403 is connected with the microcontroller 100 through a 3V linear voltage stabilizer 404; a charging interface 401 connected to the power management unit 402, which in this embodiment is a USB charging interface or other types of charging interfaces; the lithium polymer battery 403 is charged through the charging interface 401 and the power management unit 402.

Fig. 3 is a schematic diagram of a 3D glasses part of a 3D glasses with a wireless earphone according to an embodiment of the present invention. As shown in fig. 3, the liquid crystal television emitter is connected with the wireless infrared device, the information is transmitted to the microcontroller after the connection, and after the information processing in the microcontroller, the switches of the lenses of the left eye and the right eye of the 3D glasses are controlled by controlling the red-blue double-color indicator lamps, so that the 3D function is realized.

Fig. 4 is a schematic diagram of a part of bluetooth headset of 3D glasses with wireless headset according to the embodiment of the present invention. As shown in fig. 4, when the on-off key of the earphone is pressed, the audio frequency passing through the filter enters the bluetooth chip, and after being processed by the microcontroller, the bluetooth earphone is started to be connected with the bluetooth module on the television, so that the sound in the 3D television can be switched to the earphone for playing.

Fig. 5 is a flowchart illustrating the working status of the wireless earphone of the 3D glasses with the wireless earphone according to the present invention.

As shown in fig. 5, the working state flow of the wireless earphone of the 3D glasses with the wireless earphone is as follows:

s501: starting the 3D glasses with the wireless earphones;

s502: initializing 3D glasses with wireless earphones; the 3D glasses are powered on with default 3D functions only,

the earphone is in a closed state;

s503: 3D functions in 3D glasses work;

s504: pressing an earphone switch key, wherein the 3D glasses with the wireless earphones have a detection action to detect whether the earphone switch key is pressed; if not, continuing to execute the step S503; if yes, the 3D glasses perform S505;

s505: the Bluetooth headset is started to be connected with a Bluetooth module on the television, so that sound in the television can be switched from the loudspeaker to the headset for playing, and the 3D glasses with the wireless headset can simultaneously execute the work of the 3D glasses and the work of the headset;

s506: pressing the earphone on-off key again, the 3D glasses with the wireless earphones can have a detection action, and whether the earphone on-off key is pressed or not is detected again; if yes, the Bluetooth headset is turned off, the headset function is turned off, and S503 is executed, namely the 3D glasses only execute the 3D function; if not, the bluetooth headset continues to be started, and S505 is continuously executed.

Fig. 6 is a schematic diagram of a connection between a television and 3D glasses with wireless earphones according to the present invention. As shown in fig. 6, the 3D tv includes an infrared module and a bluetooth module, and the 3D glasses with wireless earphones also include an infrared module (including the infrared sensor 705 and the microcontroller 100 shown in fig. 2) and a bluetooth module (including the bluetooth chip 301, the filter 302 and the antenna shown in fig. 2). The infrared module in the 3D television is in wireless infrared connection with the infrared module of the 3D glasses with the wireless earphones, the information of the connected 3D television is transmitted to the microcontroller of the 3D glasses with the wireless earphones, and after information processing, the left and right lenses of the 3D glasses with the wireless earphones are controlled to realize the 3D function.

In a specific embodiment of the present invention, the 3D glasses with wireless earphones are powered on to default to have only 3D functions, and the bluetooth module in the 3D glasses with wireless earphones is in a closed state; when the bluetooth module of the 3D glasses of wireless earphone is started, the bluetooth module in the 3D TV carries out bluetooth connection with the bluetooth module of the 3D glasses of wireless earphone, so that the sound in the 3D TV can be switched to the earphone from the ear speaker for playing.

According to the embodiment, the 3D glasses with the wireless earphones provided by the utility model have the advantages that when watching TV normally, the wireless earphones are turned off, and only the 3D glasses are turned on; when the volume of the television possibly affects the other person, the function of the wireless earphone can be turned on, and the 3D glasses and the wireless earphone work simultaneously. The 3D glasses with the wireless earphones can ensure the audio-visual effect when a user watches TV with the 3D glasses, and meanwhile, the problem that other people are disturbed due to the volume is avoided.

The 3D glasses with wireless headset according to the present invention are described above by way of example with reference to the accompanying drawings. However, it should be understood by those skilled in the art that various improvements can be made to the 3D glasses with wireless earphones provided by the present invention without departing from the scope of the present invention. Therefore, the scope of the present invention should be determined by the content of the appended claims.

Claims (6)

1. A3D glasses with wireless earphone comprises a glasses frame and a microcontroller arranged on the glasses frame, and is characterized in that,

the 3D glasses with the wireless earphones further comprise a switch key, an earphone receiver and a proximity sensor; wherein,

the microcontroller is connected with the switch key and the earphone switch key and is used for controlling the 3D function and the earphone function of the 3D glasses;

the microcontroller acts on the two earphone receivers through the Bluetooth chip;

the microcontroller is connected with the proximity sensor through a proximity sensor chip and is used for controlling the standby or starting state of the 3D glasses.

2. The 3D glasses with wireless earphones of claim 1, wherein the switch key is disposed on one side of the glasses frame and the earphone switch key is disposed on the other side of the glasses frame.

3. The 3D glasses with wireless earphones of claim 1, wherein the earphone earpieces are led out from the temples of the glasses frame.

4. The wireless headset carrying 3D glasses of claim 1 wherein the proximity sensor is disposed at a rear end of a temple of the glasses frame.

5. The wireless headset equipped 3D glasses according to claim 1, wherein the 3D glasses further comprise a volume key, the volume key being disposed at a side of the glasses frame.

6. The wireless headset equipped 3D glasses according to claim 1, wherein the proximity sensor is a metal foil or FPC.

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