CN210351343U - Glasses camera structure - Google Patents

Abstract

The utility model relates to a glasses camera structure, which comprises a shell, a glasses clamp, a circuit board and a camera module; the shell comprises a side cavity and a front cavity which are communicated with each other, the side cavity and the front cavity are distributed in an L shape, and a circuit main board is fixed in the side cavity; the camera module is electrically connected with the circuit main board through the flexible circuit board and is fixed in the front cavity; the glasses clamp is fixed on the outer wall of the side cavity and used for clamping the glasses legs of the glasses to realize fixation; the circuit main board is in communication connection with the multimedia terminal through a data wire. The utility model discloses play beneficial effect and include: 1. through redesign video recording module, combine it with glasses to the shooting effect that has realized unanimous with user's visual angle. 2. The data wire is connected with the multimedia terminal, so that the circuit structure is simplified, and the problem of power consumption is effectively solved. 3. The replaceable front-end shell is adopted, so that a user can select lenses with different functions according to different requirements, and the compatibility of shooting scenes is better.

Description

Glasses camera structure

Technical Field

The utility model relates to a portable camera field, in particular to glasses camera structure.

Background

With the improvement of living standard, the living standard of people is more and more diversified, and the requirement of recording some specific moments by means of videos is more and more increased.

At present, video recording modes are various, such as professional video cameras and cameras, commonly used mobile phone cameras and portable holders. However, this conventional video recording method has some disadvantages:

1. the equipment is required to be held by hands, and the carrying performance is poor;

2. the power consumption is large, and the endurance time is uncontrollable;

3. attention needs to be focused on video recording equipment, and certain potential safety hazards exist.

At present, no good solution to the above problems exists. How to simply and easily record videos becomes a great difficulty in the field of current consumer video recording.

Disclosure of Invention

The utility model provides a solve above-mentioned technical problem, provide a glasses camera structure.

A glasses camera structure comprises a shell, a glasses clamp, a circuit main board and a camera module; the shell comprises a side cavity and a front cavity which are communicated with each other, the side cavity and the front cavity are distributed in an L shape, and the circuit main board is fixed in the side cavity; the camera module is electrically connected with the circuit main board through a flexible circuit board and is fixed in the front cavity; the glasses clamp is fixed on the outer wall of the side cavity and used for clamping glasses legs of glasses to realize fixation; the circuit main board is in communication connection with the multimedia terminal through a data wire.

Further, the glasses anchor clamps include centre gripping support and buffer, the centre gripping support includes installation base and centre gripping arm, the installation base pass through the screw structure with casing fixed connection, the centre gripping arm pass through the transition piece with the installation base is connected and with installation base parallel arrangement, the bolster cover is established on the centre gripping arm.

Further, the clamping arm is a wavy flat elastic block, and the buffer piece is a silica gel sleeve.

Further, the transition piece is perpendicular to the mounting base; the first edge is fixedly connected with the mounting base, and the second edge opposite to the first edge is fixedly connected with the clamping arm.

Furthermore, the corresponding part of the shell and the mounting base extends out of the positioning column, and the mounting base is provided with a positioning hole corresponding to the positioning column.

Further, the housing comprises a first housing, a second housing and a third housing which together form a sealed chamber; the first shell is L-shaped, the second shell is buckled with the first shell to form a side cavity, and the third shell is buckled with the first shell to form a front cavity; the front end of the third shell is provided with a lens fixing hole corresponding to the camera module, and the lens fixing hole is provided with an optical lens.

Furthermore, the circuit main board is provided with an audio acquisition unit, and an audio acquisition hole is formed in a position, corresponding to the audio acquisition unit, of the second shell.

Furthermore, a convex ridge extends from the inner side of the audio acquisition hole, and the shape of the convex ridge is matched with that of the audio acquisition unit.

Further, the data conductor is a USB data conductor.

The utility model discloses a beneficial effect who plays includes:

1. through redesign video recording module, combine it with glasses to the shooting effect that has realized unanimous with user's visual angle.

2. The circuit structure is simplified by connecting the data wire with the multimedia terminal, and the power supply is provided by the multimedia terminal, so that the problem of power consumption is effectively solved.

3. The replaceable front-end shell is adopted, so that a user can select lenses with different functions according to different requirements, and the compatibility of shooting scenes is better.

Drawings

Fig. 1 is a schematic structural diagram in an embodiment of the present invention.

Fig. 2 is an exploded view of the structure principle in the embodiment of the present invention.

Fig. 3 is a schematic diagram of a housing according to an embodiment of the present invention.

Fig. 4 is a schematic diagram of an eyeglass holder according to an embodiment of the present invention.

The optical lens comprises a shell 1, a first shell 11, a second shell 12, a third shell 13, an optical lens 131, a side cavity 14 and a front cavity 15, wherein the first shell is a cylindrical shell; the glasses anchor clamps are 2, and the centre gripping support is 21, and the installation base is 211, and the centre gripping arm is 212, and the transition piece is 213, and the bolster is 22, and the reference column is 23, and the locating hole is 24, and the circuit board sum is 3, and audio acquisition unit is 31, and the audio acquisition hole is 32, and the convex ridge is 33, data wire 34, and the camera module is 4.

Detailed Description

The following detailed description of the preferred embodiments of the present invention is provided to enable those skilled in the art to better understand the advantages and features of the present invention, and to define the scope of the present invention more clearly.

As shown in fig. 1 and fig. 2, this embodiment illustrates a glasses camera structure, which is mainly used for collecting video information with the same visual angle as a user, and can be fixed at a glasses frame of the user to liberate both hands of the user.

Specifically, this glasses camera structure includes casing 1, glasses anchor clamps 2, circuit board 3 and camera module 4.

Wherein, casing 1 is the main part of camera structure, and its shape can carry out the phase-match according to the structure of glasses to it is fixed with the mirror leg of glasses through the mode of centre gripping.

And an eyeglass holder 2 fixed at an outer surface of the housing 1, the holder being a main functional part of the fixed camera mechanism.

The camera module 4 is used for collecting video signals, the circuit board structure is used for processing the video signals, and the video signals are transmitted to the multimedia terminal to complete video recording. In this embodiment, the multimedia terminal may be a mobile phone, a removable storage device, or the like. The mobile phone is further preferred, and the display screen of the mobile phone can be used for watching the image information acquired by the camera module 4 in real time, and meanwhile, the modification and the operation are facilitated.

It can be understood that, in the communication coordination of the multimedia terminal, since the multimedia communication means is a very mature technology for those skilled in the art, the video signal can be obtained only by combining with the conventional knowledge of those skilled in the art, and therefore, the present application is not described in detail in the aspect of the method for recording and processing the video signal.

In this embodiment, the data line 34 may be a USB data line, which is further enhanced by compatibility. Can also do in the time of data communication the utility model discloses a glasses camera provides the power.

In addition, for convenience, the data wire 34 may be further provided with an elastic ring fixedly connected with the data wire, and the elastic ring may be fixed at the end of the earpiece of the glasses during use, so that the data wire 34 is conveniently guided to the back of a user, and the interference of the data wire 34 to the user action is avoided.

Referring to fig. 3, the figure illustrates a specific structure of the housing 1 of this embodiment, a closed space is formed inside the housing 1, and is divided from a functional mechanism, the housing 1 may include a side cavity 14 and a front cavity 15 that are communicated, the side cavity 14 and the front cavity 15 form an L-shaped distribution, the circuit board 3 is fixed in the side cavity 14, and the camera module 4 is fixed in the front cavity 15. The front cavity 15 faces the direction generally right in front of the user, and it can be understood that it may also be turned to some extent or obtain wide-angle video information through an optical structure such as a lens for a wider shooting range.

In order to facilitate the arrangement of the corner, the camera module 4 is electrically connected with the circuit main board 3 through the flexible circuit board.

In order for the casing 1 to enclose a closed space, the casing 1 of the present embodiment includes a first casing 11, a second casing 12, and a third casing 13. The first housing 11 is L-shaped, the second housing 12 is fastened to the first housing 11 to form a side cavity 14, and the third housing 13 is fastened to the first housing 11 to form a front cavity 15. The joint of the second casing 12 and the third casing 13 is tightly abutted, so as to achieve the effect of protection and isolation. In the embodiment, the joint of the second casing 12 and the third casing 13 is the corner of the first casing 11, which is favorable for injection molding and production of the product.

A lens fixing hole is formed at the front end of the third housing 13 corresponding to the camera module 4, and an optical lens 131 is arranged on the lens fixing hole. Because the second housing 12 and the third housing 13 are designed separately, the user can replace the third housing 13 according to different shooting requirements, thereby achieving the purpose of replacing the optical lens 131. For example, when a distant scene needs to be photographed, a telephoto lens combination may be used, and when a wide-range scene needs to be photographed, a wide-angle lens combination may be used.

Referring to fig. 4, this figure shows a specific structure of the eyeglass holder 2, and the eyeglass holder 2 includes a holding bracket 21 and a buffer 22. Wherein the holding bracket 21 serves as a main body of the eyeglass holder 2, providing a holding force for the holding action. The cushioning member 22 is intended to protect the eyeglasses from damage during the clamping process.

Specifically, the clamp bracket 21 includes a mounting base 211 and a clamp arm 212. In this embodiment, the mounting base 211 is flat and is fixedly connected to the housing 1 through a screw structure. And the clamping arm 212 is connected to the mounting base 211 by a transition piece 213 and is disposed parallel to the mounting base 211. The transition piece 213 is perpendicular to the mounting base 211, and has a first edge fixedly connected to the mounting base 211 and a second edge opposite to the first edge fixedly connected to the clamping arm 212.

In conjunction with the transition piece 213, the eyeglass holder 2 is formed as a U-shaped structure, and the arm 212 needs to overcome its own resilience when it is angularly deflected and deformed. Thereby ensuring the effectiveness of the clamping action.

Specifically, in order to improve the clamping efficiency, the structure of the clamping arm 212 can be a wavy flat elastic block, so that the elasticity of the clamping arm is increased, and the clamping force is ensured. The buffer 22 is disposed on the clamping arm 212, and the buffer 22 is preferably a silicone sleeve.

In addition, in order to simplify the structure, prevent the relative displacement between the glasses holder 2 and the housing 1, and ensure the stable connection between the glasses holder 2 and the housing 1, the positioning column 23 extends from the corresponding position of the housing 1 and the mounting base 211, and the mounting base 211 is provided with a positioning hole 24 corresponding to the positioning column 23. After the glasses holder 2 is assembled, the positioning posts 23 are combined with the positioning holes 24, and the glasses holder 2 is firmly mounted on the housing 1 under the locking of the screw structure.

In addition, in order to effectively acquire the synchronous sound information while recording the video information, the sound acquisition part of the present embodiment is disposed at the second housing 12, and specifically includes an audio acquisition unit 31 and an audio acquisition hole 32. The audio collecting unit 31 is disposed on the circuit main board 3, and may be a sound pickup, and the audio collecting hole 32 is disposed at a position where the second housing 12 corresponds to the audio collecting unit 31. In order to ensure effective sound reception and avoid interference, a ridge 33 extends inside the audio collection hole 32, and the ridge 33 is matched with the audio collection unit 31 in shape.

The embodiments of the present invention have been described in detail with reference to the drawings, but the present invention is not limited to the above embodiments, and various changes can be made without departing from the spirit of the present invention within the knowledge of those skilled in the art.

Claims (9)

1. A glasses camera structure is characterized by comprising a shell, a glasses clamp, a circuit main board and a camera module; the shell comprises a side cavity and a front cavity which are communicated with each other, the side cavity and the front cavity are distributed in an L shape, and the circuit main board is fixed in the side cavity; the camera module is electrically connected with the circuit main board through a flexible circuit board and is fixed in the front cavity; the glasses clamp is fixed on the outer wall of the side cavity and used for clamping glasses legs of glasses to realize fixation; the circuit main board is in communication connection with the multimedia terminal through a data wire.

2. The structure of claim 1, wherein the glasses holder comprises a holding frame and a buffer member, the holding frame comprises a mounting base and a holding arm, the mounting base is fixedly connected to the housing through a screw structure, the holding arm is connected to the mounting base through a transition member and is parallel to the mounting base, and the buffer member is sleeved on the holding arm.

3. The eyewear camera structure of claim 2, wherein the clip arms are wave-shaped flat elastic blocks, and the buffer is a silicone sleeve.

4. The eyewear camera structure of claim 2 or 3, wherein the transition piece is perpendicular to the mounting base; the first edge is fixedly connected with the mounting base, and the second edge opposite to the first edge is fixedly connected with the clamping arm.

5. The structure of claim 2, wherein the housing extends beyond the positioning post at a location corresponding to the mounting base, and the mounting base defines a positioning hole corresponding to the positioning post.

6. The eyewear camera structure of claim 1, wherein the housing comprises a first housing, a second housing, and a third housing that together form a sealed chamber; the first shell is L-shaped, the second shell is buckled with the first shell to form a side cavity, and the third shell is buckled with the first shell to form a front cavity; the front end of the third shell is provided with a lens fixing hole corresponding to the camera module, and the lens fixing hole is provided with an optical lens.

7. The eyeglasses camera structure according to claim 6, wherein the circuit board is provided with an audio acquisition unit, and the second housing is provided with an audio acquisition hole corresponding to the audio acquisition unit.

8. The eyeglasses camera structure of claim 7, wherein a raised ridge extends inside the audio capture hole, and the raised ridge is shaped to match the audio capture unit.

9. The eyewear camera structure of claim 1, wherein the data conductor is a USB data conductor.

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