CN215599457U - Electronic glasses - Google Patents

Abstract

An electronic glasses comprises a frame portion, a first frame portion, a second frame portion, an electronic device, a Hall switch and an audio input/output device. The Hall switch is arranged on one of the frame part, the first frame part and the second frame part. The audio input and output device comprises a vibration component and a magnetic component arranged corresponding to the vibration component, and the other one of the vibration component and the magnetic component is arranged on the frame portion, the second frame portion and the first frame portion.

Description

Electronic glasses

Technical Field

The present invention relates to the field of electronics, and more particularly, to electronic glasses.

Background

Whether electronic products can permeate consumer groups or not is greatly critical in terms of convenience in carrying, long-term use, and product cycle. At present, although practical products are provided for the intelligent glasses, the loading space of the intelligent glasses is very limited, and the volume of the battery is also very limited. At present, the battery can last for about sixteen hours, but if the battery is matched with long-time shooting or map information display, the time for the battery to last can be greatly reduced, and the purchase willingness of consumers is reduced.

In addition, at present, the intelligent glasses are usually closed or opened by pressing keys, but if the consumers forget to turn off the intelligent glasses, the electric power is easy to be insufficient when the intelligent glasses are used for the next time, and if the intelligent glasses are used for a long time, the service life of the battery can be influenced.

SUMMERY OF THE UTILITY MODEL

In order to solve the problems faced by the prior art, an electronic glasses is provided. The electronic glasses comprise a frame part, a first frame part, a second frame part, an electronic device, a Hall switch and an audio input/output device.

The first frame part is connected to the first side of the frame part through a first pivot, and the second frame part is connected to the second side of the frame part through a second pivot. The electronic device is arranged on the frame part, the first frame part or the second frame part. The Hall switch is arranged on one of the frame part, the first frame part and the second frame part and is electrically connected with the electronic device. The audio input and output device is arranged on the other one of the frame portion and the first and second frame portions, the audio input and output device comprises a vibration component and a magnetic component arranged corresponding to the vibration component, when the first and/or second frame portions are folded, the Hall switch and the audio input and output device are close to each other, the Hall switch transmits a first signal to the electronic device, when the first or second frame portions are unfolded, the Hall switch and the audio input and output device are far away from each other, and the Hall switch transmits a second signal to the electronic device.

In some embodiments, the first frame portion includes a first connecting portion and a first bending portion, the first connecting portion is connected to the first side of the frame portion by a first pivot, and the first bending portion is bent and extended from the first connecting portion. The second frame part comprises a second connecting part and a second bending part, the second connecting part is connected to the second side of the frame part through a second pivot, and the second bending part is bent and extended out of the second connecting part. When the first frame part and the second frame part are folded at one side of the frame part, the first connecting part is overlapped with a part of the second bending part, and the second connecting part is overlapped with a part of the first bending part. The first and second frame parts are hollow components, one of the Hall switch and the audio input/output device is arranged in the first or second connecting part, and the other of the Hall switch and the audio input/output device is arranged in the frame part, the first bending part or the second bending part.

In more detail, in some embodiments, the hall switch is disposed inside the first connecting portion or the second connecting portion, the audio input/output device is disposed in the second bending portion or the first bending portion, and the second bending portion or the first bending portion is provided with a sound transmitting hole for receiving or outputting audio.

Further, in some embodiments, the audio input/output device is a speaker or a microphone, the vibration component is a diaphragm, the magnetic component is a magnet, and the diaphragm is located between the sound transmission hole and the magnet.

In some embodiments, the electronic device includes an image acquisition module and a power supply unit, the image acquisition module includes a camera unit and a storage unit, the storage unit stores an image acquired by the camera unit, and the power supply unit supplies power to the image acquisition module and is electrically connected to the hall switch and the audio input/output device.

In more detail, the electronic device further includes a signal transceiver module electrically connected to the image capturing module. Further, in some embodiments, the signal transceiver module is selected from the group consisting of a bluetooth communication chip, a Wifi communication chip, and a 4G/5G communication chip.

In some embodiments, the electronic glasses further include a display lens, the electronic device includes a signal transceiver module and a power supply unit, the display lens is mounted in the frame portion and electrically connected to the signal transceiver module for displaying a signal from the signal transceiver module, and the power supply unit supplies power to the display lens and the signal transceiver module.

In more detail, in some embodiments, the electronic device further includes a touch key electrically connected to the display lens and the power supply unit, and the touch key generates a control signal through touch to change a picture displayed by the display lens.

In more detail, in some embodiments, the electronic device further includes a camera unit electrically connected to the display lens, the power supply unit, the touch key and the signal transceiver module, wherein the touch key controls the operation of the camera unit by a control signal and displays a picture displayed by the lens, and the signal transceiver module wirelessly transmits an image captured by the camera unit.

In summary, the electronic eyeglasses employ the hall switch and the magnet inside the audio input/output device to generate the corresponding signal when the first and second frame portions are folded or unfolded, so that the electronic device performs the corresponding action, for example, the induced magnetic field is automatically turned off when the electronic device is folded, thereby achieving the effects of saving power and energy and prolonging the service life of the product. In addition, the audio input/output device is a component which is required by the electronic glasses to achieve the audio input or audio output function, the audio input/output device is matched with the Hall switch to achieve the above function, and a magnet which is used for matching with the Hall switch is not required to be additionally arranged, so that the weight can be effectively reduced, the space occupation can be reduced, and the cost can be reduced.

Drawings

Fig. 1 is a perspective view of the electronic eyeglasses in a first state.

Fig. 2 is a rear view of the electronic eyeglasses in a second state.

FIG. 3 is a block diagram of an embodiment of electronic glasses.

Fig. 4 is a perspective view of another embodiment of the electronic eyeglasses in use.

Fig. 5 is a block diagram of another embodiment of electronic glasses.

Detailed Description

Fig. 1 is a perspective view of the electronic eyeglasses in a first state. Fig. 2 is a rear view of the electronic eyeglasses in a second state. As shown in fig. 1 and 2, the electronic eyeglasses 1 include a frame portion 10, a first frame portion 21, a second frame portion 23, an electronic device 30, a hall switch 40, and an audio input/output device 50.

The first frame portion 21 includes a first connecting portion 211 and a first bending portion 213, the first connecting portion 211 is connected to the first side of the frame portion 10 by a first pivot 11, and the first bending portion 213 is bent and extended from the first connecting portion 211. The second frame portion 23 includes a second connecting portion 231 and a second bending portion 233, the second connecting portion 231 is connected to the second side of the frame portion 10 via the second pivot 13, and the second bending portion 233 is bent and extended from the second connecting portion 231.

As shown in fig. 2, when the first frame portion 21 and the second frame portion 23 are folded and positioned at one side of the frame portion 10, the first connecting portion 211 overlaps a portion of the second bent portion 233, and the second connecting portion 231 overlaps a portion of the first bent portion 213.

Here, as shown in the figure, the electronic device 30 is disposed on a portion of the frame portion 10 and the second frame portion 23, and may be a lens for acquiring an image, but this is merely an example and is not a limitation. In practice, the electronic device 30 is mounted on the frame portion 10, the first frame portion 21, or the second frame portion 23. In other words, electronic device 30 may be provided on frame portion 10, first frame portion 21, or second frame portion 23 alone, or may be provided on frame portion 10 and first frame portion 21, or frame portion 10 and second frame portion 23.

In some embodiments, the hall switch 40 may be mounted on one of the frame portion 10, the first frame portion 21 and the second frame portion 23, and the audio input/output device 50 may be mounted on another one of the frame portion 10, the first frame portion 21 and the second frame portion 23. For example, one of the hall switch 40 and the audio input/output device 50 may be mounted on the first side of the frame portion 10, and the other of the hall switch 40 and the audio input/output device 50 may be mounted on the first connecting portion 211 of the first frame portion 21 near the frame portion 10, so that when the first frame portion 21 is folded, the hall switch 40 and the audio input/output device 50 approach each other; when the first frame part 21 is unfolded, the hall switch 40 and the audio input/output device 50 are separated from each other. Alternatively, one of the hall switch 40 and the audio input/output device 50 may be mounted on the first side of the frame portion 10, and the other of the hall switch 40 and the audio input/output device 50 may be mounted on the second bending portion 233 of the second frame portion 23 at a position away from the frame portion 10, so that when the second frame portion 23 is folded, the hall switch 40 and the audio input/output device 50 approach each other; when the second frame part 23 is unfolded, the hall switch 40 and the audio input/output device 50 are separated from each other. In some embodiments, one of the hall switch 40 and the audio input/output device 50 may be disposed inside the first connecting portion 211 or the second connecting portion 231, and the other of the hall switch 40 and the audio input/output device 50 may be disposed in the mirror frame portion 10, the first bending portion 213, or the second bending portion 233.

In some embodiments, as shown in the drawings, the hall switch 40 is mounted on the first connection portion 211 and electrically connected to the electronic device 30, but the hall switch 40 may also be mounted on the second connection portion 231. The audio input/output device 50 may be a speaker or a microphone, which includes a vibration component and a magnetic component disposed corresponding to the vibration component. The vibration component is, for example, a diaphragm to which a voice coil is connected, and the magnetic component is, for example, a magnet 51 for vibrating the voice coil. In the drawing, the audio input/output device 50 is disposed at the second bending portion 233. In some embodiments, if the hall switch 40 is installed on the second connection portion 231, the audio input/output device 50 is correspondingly disposed on the first bending portion 213. In some embodiments, two hall switches 40 may be disposed on the first connecting portion 211 and the second connecting portion 231, and two audio input/output devices 50 may be disposed on the first bending portion 213 and the second bending portion 233. As shown in fig. 2, when the first and second frame portions 21 and 23 are folded, the hall switch 40 and the audio input/output device 50 are partially overlapped, the hall switch 40 and the audio input/output device 50 are close to each other, the hall switch 40 is triggered by the magnetic force generated by the magnet 51, so as to generate a first signal and transmit the first signal to the electronic device 30, so that the electronic device 30 performs a corresponding action according to the first signal, the first signal is, for example, but not limited to, a closing signal, and the closing signal is used for closing the electronic device 30, for example, the electronic device 30 automatically enters a shutdown mode or a power saving mode after receiving the closing signal. As shown in fig. 1, when the first or second frame part 21 or 23 is unfolded such that the hall switch 40 and the audio input/output device 50 are not overlapped, the hall switch 40 generates a second signal and transmits the second signal to the electronic device 30, so that the electronic device 30 performs a corresponding action according to the second signal, where the second signal is, for example, but not limited to, an on signal, and the on signal is used to turn on the electronic device 30, for example, the electronic device 30 will automatically turn on or return to an operation mode from a power saving mode after receiving the on signal.

Referring to fig. 1 and 2 again, in more detail, in some embodiments, the first and second mirror frame portions 21 and 23 are hollow components, and the hall switch 40 is installed inside the first connection portion 211 or the second connection portion 231. However, this is merely an example, and may be embedded or mounted on the surface of the first connection portion 211 or the second connection portion 231.

In addition, the audio input/output device 50 is disposed in the second bending portion 233 or the first bending portion 213, and the second bending portion 233 or the first bending portion 213 is opened with a sound transmitting hole V for receiving or outputting audio. The diaphragm of the audio input/output device 50 is located between the sound transmission hole V and the magnet 51.

FIG. 3 is a block diagram of an embodiment of electronic glasses. As shown in fig. 3, the electronic device 30 includes an image obtaining module 31 and a power supply unit 33, the image obtaining module 31 includes a camera unit 311 and a storage unit 313, the storage unit 313 stores the image obtained by the camera unit 311, and the power supply unit 33 supplies power to the image obtaining module 31 and is electrically connected to the hall switch 40 and the audio input/output device 50. In this way, when the hall switch 40 overlaps or does not overlap with the audio input-output device 50, the power supply unit 33 is turned off or on, and the image acquisition module 31 is turned off or on. In this state, the electronic glasses 1 operate similarly to a driving recorder.

Further, the electronic device 30 further includes a signal transceiver module 35, the signal transceiver module 35 is electrically connected to the image acquisition module 31, and the signal transceiver module 35 can transmit the image acquired by the image acquisition module 31 in a wired or wireless manner, for example, to a mobile phone or a cloud. Further, the signal transceiver module 35 may be connected to the audio input/output device 50, and thus may also receive and play an audio signal from a mobile phone connected to the signal transceiver module for communication. In more detail, in some embodiments, the signal transceiver module 35 is selected from a group consisting of a bluetooth communication chip, a Wifi communication chip, and a 4G/5G communication chip, that is, the signal transceiver module 35 may have at least one of functions of bluetooth communication, Wifi communication, or 4G/5G communication.

Fig. 4 is a perspective view of another embodiment of the electronic eyeglasses in use. Fig. 5 is a block diagram of another embodiment of electronic glasses. As shown in fig. 4 and 5, the electronic eyeglasses 1 further comprise a display lens 60. The electronic device 30 includes a signal transceiver module 35 and a power supply unit 33, the display lens 60 is installed in the frame portion 10 and electrically connected to the signal transceiver module 35 for displaying a signal from the signal transceiver module 35, and the power supply unit 33 supplies power to the display lens 60 and the signal transceiver module 35.

The signal transceiver module 35 may include a bluetooth and/or Wifi chip, and wirelessly receives signals from the outside, such as a mobile phone, a tablet computer, etc. connected to the electronic glasses 1, and displays the signals on the display lens 60, for example, the display lens 60 displays a navigation picture, etc. In this way, the electronic glasses 1 can be used as an extended auxiliary display of a mobile phone or a tablet computer. Still further, the electronic glasses 1 further include a touch key 70, the touch key 70 is electrically connected to the display lens 60 and the power supply unit 33, and the touch key 70 generates a control signal through touch control to change the image displayed by the display lens 60.

Referring to fig. 5 again, the electronic device 30 further includes a camera unit 311, the camera unit 311 is electrically connected to the display lens 60, the power supply unit 33, the touch key 70 and the signal transceiver module 35, the touch key 70 controls the operation of the camera unit 311 by a control signal and displays a picture displayed by the display lens 60, and the signal transceiver module 35 wirelessly transmits an image captured by the camera unit 311. In addition, the electronic device 30 may include the storage unit 313 as in fig. 3, and may constitute the image acquisition module 31 together with the imaging unit 311.

In some embodiments, the signal transceiver module 35 may also be connected to the audio input/output device 50, and then replace the touch button 70 with a sound control chip.

The electronic glasses 1 employ the hall switch 40 and the magnet 51 inside the audio input/output device 50 to generate a corresponding signal when the first frame part 21 and the second frame part 23 are folded or unfolded, so that the electronic device executes a corresponding action, for example, the induction magnetic field can be automatically turned off when folded, thereby achieving the effects of saving electricity and energy and prolonging the service life of the product. Moreover, since the audio input/output device 50 is a component of the electronic glasses 1 that is required to achieve the audio input or output function, the audio input/output device 50 and the hall switch 40 are used in cooperation to achieve the above-mentioned function, and there is no need to additionally add a magnet for cooperating with the hall switch, so that the weight, the space occupation, and the cost can be effectively reduced.

It will be understood that when an element is referred to as being "connected" or "disposed" to another element, it can be directly on the other element or intervening elements may also be present, connected to the other element via intervening elements. Conversely, when an element is referred to as being "directly on" or "directly connected to" another element, it is to be understood that there are no intervening elements explicitly defined.

In addition, the terms "first", "second", and "third" are used only to distinguish one element, component, region, or section from another element, component, region, layer, or section, and do not necessarily denote any order or sequence. Moreover, relative terms, such as "lower" and "upper," may be used herein to describe one element's relationship to another element, and it is to be understood that the relative terms are intended to encompass different orientations of the device in addition to the orientation depicted in the figures. For example, if the device in one of the figures is turned over, elements described as being on the "lower" side of other elements would then be oriented on "upper" sides of the other elements. This represents only a relative orientation relationship, not an absolute orientation relationship.

Although the present invention has been described with reference to the preferred embodiments, it should be understood that various changes and modifications can be made without departing from the spirit and scope of the utility model as defined by the appended claims.

Claims (10)

1. An electronic eyewear, comprising:

a mirror frame portion;

a first frame portion connected to a first side of the frame portion by a first pivot;

a second frame portion connected to a second side of the frame portion via a second pivot;

characterized in that, the electronic glasses still include:

an electronic device mounted on the frame portion, the first frame portion or the second frame portion;

the Hall switch is arranged on one of the frame part, the first frame part and the second frame part and is electrically connected with the electronic device; and

the audio input and output device is arranged on the other one of the frame portion, the first frame portion and the second frame portion, and comprises a vibration component and a magnetic component arranged corresponding to the vibration component, when the first frame portion and/or the second frame portion are/is folded, the Hall switch and the audio input and output device are close to each other, the Hall switch transmits a first signal to the electronic device, when the first frame portion or the second frame portion is unfolded, the Hall switch and the audio input and output device are far away from each other, and the Hall switch transmits a second signal to the electronic device.

2. The electronic eyeglasses according to claim 1, wherein the first frame portion comprises a first connecting portion and a first bending portion, the first connecting portion is connected to the first side of the frame portion by the first pivot, and the first bending portion is bent and extended from the first connecting portion; the second mirror frame part comprises a second connecting part and a second bending part, the second connecting part is connected to the second side of the mirror frame part through the second pivot, when the first mirror frame part and the second mirror frame part are folded and positioned on one side of the mirror frame part, the first connecting part is partially overlapped with the second bending part, the second connecting part is partially overlapped with the first bending part, the first mirror frame part and the second mirror frame part are hollow components, one of the hall switch and the audio input/output device is arranged in the first connecting part or the second connecting part, and the other of the hall switch and the audio input/output device is arranged in the mirror frame part, the first bending part or the second bending part.

3. The electronic glasses according to claim 2, wherein the hall switch is installed inside the first connecting portion or the second connecting portion, the audio input/output device is installed in the second bending portion or the first bending portion, and the second bending portion or the first bending portion is provided with a sound transmitting hole for receiving or outputting audio.

4. The electronic eyeglasses according to claim 3, wherein said audio input/output device is a speaker or a microphone, said vibration component is a diaphragm, said magnetic component is a magnet, and said diaphragm is located between said sound transmission hole and said magnet.

5. The electronic glasses according to claim 1, wherein the electronic device comprises an image capturing module and a power supply unit, the image capturing module comprises a camera unit and a storage unit, the storage unit stores an image captured by the camera unit, and the power supply unit supplies power to the image capturing module and is electrically connected to the hall switch and the audio input/output device.

6. The electronic eyeglasses according to claim 5, wherein the electronic device further comprises a signal transceiver module electrically connected to the image capture module.

7. The electronic glasses according to claim 6, wherein the signal transceiver module is selected from the group consisting of a Bluetooth communication chip, a Wifi communication chip, and a 4G/5G communication chip.

8. The electronic eyeglasses according to claim 1, further comprising a display lens, wherein the electronic device comprises a signal transceiver module and a power supply unit, wherein the display lens is mounted in the eyeglass frame and electrically connected to the signal transceiver module for displaying a signal from the signal transceiver module, and the power supply unit supplies power to the display lens and the signal transceiver module.

9. The electronic glasses according to claim 8, wherein the electronic device further comprises a touch key electrically connected to the display lens and the power supply unit, and the touch key generates a control signal by touch to change a picture displayed by the display lens.

10. The electronic glasses according to claim 9, wherein the electronic device further comprises a camera unit electrically connected to the display lens, the power supply unit, the touch key and the signal transceiver module, the touch key controls the operation of the camera unit and the image displayed by the display lens according to the control signal, and the signal transceiver module wirelessly transmits the image captured by the camera unit.

Images