CN213403304U - Binocular 3D camera and mobile device thereof - Google Patents

Abstract

The utility model relates to a camera equipment, in particular to two mesh 3D cameras and mobile device thereof, support, first camera, second camera, synchronizing signal generator and image processing device, synchronizing signal generator with first camera, second camera are fixed respectively extremely two opposite sides of support, synchronizing signal generator with first camera, second camera correspond the electricity and connect, and trigger first camera, second camera synchronous working, first camera with the second camera with image information or video information input extremely image processing device generates the three-dimensional picture, the utility model discloses a set up the collection that two the same cameras realized high-quality 3D video or 3D pictures, simple structure, the practicality is high, has higher market value.

Description

Binocular 3D camera and mobile device thereof

[ technical field ] A method for producing a semiconductor device

The utility model relates to a camera equipment, in particular to two mesh 3D cameras and mobile device thereof.

[ background of the invention ]

The 3D camera has the functions of face recognition, gesture recognition, three-dimensional measurement, environment perception and the like, and is widely applied to the fields of televisions, mobile phones, robots and the like.

At present, a plurality of naked-eye 3D mobile devices such as naked-eye 3D mobile phones, naked-eye 3D tablets, naked-eye 3D advertisement machines and the like appear in the market, most of the naked-eye 3D mobile devices have two or more cameras, but the naked-eye 3D mobile devices can only play or display 3D videos or pictures provided by a third party, and do not have a function of acquiring the 3D videos or the 3D pictures.

[ Utility model ] content

Do not gather the functional problem of 3D video or 3D picture for solving bore hole 3D mobile device, the utility model provides a two mesh 3D cameras and mobile device thereof.

In order to solve the technical problem, the utility model provides a binocular 3D camera, including support, first camera, second camera, synchronizing signal generator and image processing device, synchronizing signal generator with first camera, second camera are fixed respectively extremely two opposite sides of support, synchronizing signal generator with first camera, second camera correspond the electricity and connect to trigger first camera, second camera synchronous working, first camera with the second camera with image information or video information input extremely image processing device generates the stereoscopic picture.

Preferably, the stereoscopic picture is a 3D picture or a 3D video.

Preferably, the image processing apparatus is a printed circuit board with a controller and a memory module.

Preferably, the first camera is identical to the second camera.

Preferably, the two cameras are arranged on the same horizontal plane and parallel to the bracket.

Preferably, the distance between the optical axes of the two cameras is 14mm-20 mm.

Preferably, the two cameras are RGB cameras.

Another technical solution to solve the above technical problem of the present invention is to provide a mobile device, including a connector, a main control device and the binocular 3D camera, wherein the binocular 3D camera is connected to the main control device through the connector, and the binocular 3D camera transmits a naked eye 3D image or a naked eye 3D video to the main control device through the connector;

preferably, the main control device further includes a display device and/or a storage device, the display device is configured to display the naked eye 3D image or the naked eye 3D video transmitted by the binocular 3D camera, and the storage device is configured to store the naked eye 3D image or the naked eye 3D video transmitted by the binocular 3D camera.

Preferably, the mobile device is a mobile phone, a tablet computer, a notebook computer, and 3D glasses.

Compared with the prior art, the utility model provides a pair of two mesh 3D cameras and mobile device thereof has following advantage:

1. the device comprises a support, a synchronous signal generating device, an image processing device and at least two identical cameras, wherein the two cameras are integrated on the same side of the support and are electrically connected with the synchronous signal generating device and the image processing device, the synchronous signal generating device controls the two cameras to synchronously output image information or video information, the two cameras transmit the image information or the video information to the image processing device, the image processing device processes the image information or the video information and synthesizes a naked eye 3D picture or a naked eye 3D video, the device realizes the collection of the high-quality 3D video or the 3D picture by arranging the two identical cameras, and the device is simple in structure, high in practicability and higher in market value.

2. Two cameras are calibrated through AA (advanced) process procedures during the assembly of the binocular 3D camera, the AA process procedures effectively reduce the assembly tolerance of the binocular 3D camera, the consistency of binocular 3D camera products is improved, and the 3D video or 3D picture output by the binocular 3D camera is guaranteed to have higher quality.

3. The image processing device is a printed circuit board with a controller and a storage module, the printed circuit board can realize connection among elements in the circuit, wiring workload under a traditional mode is greatly reduced, the size of the binocular 3D camera is reduced, cost of the binocular 3D camera is reduced, and quality and reliability of the binocular 3D camera are improved.

4. The X axle and the Y axle of two cameras are fixed on the coplanar through digital AA calibration board during binocular 3D camera equipment, two cameras, the X axle, the Y axle is respectively on same water flat line, the optical axis of two cameras is parallel or assembles the same point, assemble binocular 3D camera through the AA calibrator, can effectually reduce the assembly tolerance of binocular 3D camera, the uniformity of binocular 3D camera product has been promoted simultaneously.

5. Two camera settings are parallel at same horizontal plane and with the support, and the phenomenon of the unable higher-quality 3D video of output or 3D picture that cause has been avoided owing to two camera deviations to this design, and two cameras and support parallel arrangement simultaneously, when the binocular 3D camera of being convenient for is installed on other equipment, judge the relative position between camera and other equipment, have higher practicality.

6. The optical axis distance between the two cameras is 14-20 mm, the optical axis distance between the two cameras is limited to be 14-20 mm, the quality of 3D videos or 3D pictures output by the binocular 3D cameras can be effectively improved, and the user experience is improved through the 3D videos or the 3D pictures with higher quality.

7. The camera is the RGB camera, and 16777216 kinds of colours can reappear on the screen to the RGB camera, have higher image display quality, and capture details that can be better make the photo of shooing more clear and concrete, and the content is abundanter, and picture details are more exquisite, improves the shooting ability.

8. The utility model provides a mobile device, which comprises a connector, a main control device and a binocular 3D camera, wherein the binocular 3D camera is connected with the main control device through the connector, the binocular 3D camera transmits naked eye 3D images or naked eye 3D videos to the main control device through the connector, the binocular 3D camera is arranged on the mobile equipment, so that the function of acquiring high-quality 3D video or 3D pictures by the mobile equipment is realized, the design has simple structure, improves the functionality and the practicability of the mobile equipment, greatly meets the photographic requirements of most of the mobile equipment at present, the shot photos or videos have naked eye 3D effects, are clearer and more graceful, and have higher market value.

9. The main control equipment further comprises display equipment and/or storage equipment, the display equipment is used for displaying naked eye 3D images or naked eye 3D videos transmitted by the binocular 3D cameras, the storage equipment is used for storing the naked eye 3D images or the naked eye 3D videos transmitted by the binocular 3D cameras, the naked eye 3D images or the naked eye 3D videos provided by the binocular 3D cameras can be intuitively and clearly reflected through the display equipment in the design, the naked eye 3D images or the naked eye 3D videos transmitted by the binocular 3D cameras can be stored by the storage equipment, data loss is avoided, and the high practicability is achieved.

10. The mobile device is a mobile phone, a tablet computer, a notebook computer and 3D glasses, the binocular 3D camera is arranged on the mobile device, the function that the mobile device collects high-quality 3D videos or 3D pictures is achieved, the structure is simple, the practicability is high, and the market value is high.

[ description of the drawings ]

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained without inventive work, wherein:

fig. 1 is a schematic structural diagram of a binocular 3D camera according to a first embodiment of the present invention;

fig. 2 is a flowchart illustrating steps taken by a binocular 3D camera according to a first embodiment of the present invention;

fig. 3 is an exploded schematic view of a mobile device according to a second embodiment of the present invention;

fig. 4 is a flowchart illustrating steps of a mobile device photographing according to a second embodiment of the present invention;

fig. 5 is a schematic structural diagram of a mobile phone according to a second embodiment of the present invention.

[ detailed description ] embodiments

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and the embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only.

Referring to fig. 1, a first embodiment of the present invention provides a binocular 3D camera 1, which includes two identical first cameras 2 and second cameras 3, wherein the first cameras 2 and the second cameras 3 are integrated on the same side of a bracket 4.

The utility model discloses do not specifically prescribe a limit to the shape of support 4, as long as the installation of the first camera 2 of being convenient for and second camera 3 can, it is specific, the utility model discloses support 4 is square structure in the first embodiment.

With continuing reference to fig. 1, the bracket 4 is further provided with a square cavity 41, the square cavity 41 is further provided with two mounting holes 411 matching the outer contours of the first camera 2 and the second camera 3, the first camera 2 and the second camera 3 are arranged in the mounting holes 411 and separated by a reinforcing rib 412, the first camera 2 and the second camera 3 are bonded and fixed with the bracket 4 into a whole by glue pouring and fixing, the size precision of the first camera 2 and the second camera 3 is limited by the two mounting holes 411, so that the relative size distance between the first camera 2 and the second camera 3 is ensured, the position precision of the first camera 2 and the second camera 3 is improved, meanwhile, the connection strength between the first camera 2 and the second camera 3 and the bracket 4 is enhanced by the reinforcing rib 412, so that the stability of the optical axis of the first camera 2 and the optical axis of the second camera 3 is ensured, and then improved the formation of image quality of shooing or making a video recording, promoted user experience effect. Of course, the first camera 2 and the second camera 3 can be connected and fixed with the bracket 4 in other manners as long as the fixing manner is satisfied, and the fixing is tight and reliable.

The utility model discloses do not specifically restrict the distance between first camera 2 and the second camera 3 on the support 4, as long as satisfy first camera 2 and second camera 3 install do not take place after accomplish interfere can, specific, the embodiment of the utility model provides an in the distance of the optical axis of first camera 2 and second camera 3's optical axis between 14mm-20mm, the embodiment of the utility model provides a further prescribe a limit to the distance between first camera 2 and second camera 3 optical axis, improved two mesh 3D camera 1's shooting quality, also promoted user experience effect simultaneously.

The utility model discloses do not specifically prescribe a limit to first camera 2 and second camera 3's type, as long as it is the same with second camera 3 type to satisfy first camera 2, optional camera has RGB camera, AV camera, depth of structure camera etc. specific, the embodiment of the utility model provides an adopt RGB camera, RGB camera can reappear 16777216 kinds of colours on the screen, has higher image display quality, and the seizure detail that can be better, the photo that makes to shoot can be more clear and concrete, content is abundanter, picture detail is more exquisite, has improved two mesh 3D camera 1's shooting ability.

With reference to fig. 1, the binocular 3D camera 1 further includes a synchronization signal generator 5, the synchronization signal generator 5 is disposed on the bracket 4 and electrically connected to the first camera 2 and the second camera 3, specifically, the synchronization signal generator 5 is disposed on a side opposite to the lens 21 of the first camera 2, when the first camera 2 needs to output image information or video information, the first camera 2 sends a synchronization signal to the second camera 3 through the synchronization signal generator 5, and the second camera 3 receives the signal and then outputs image information or video information synchronously with the first camera 2 to trigger the first camera 2 and the second camera 3 to work synchronously.

With reference to fig. 1, the binocular 3D camera 1 further includes an image processing device 6, the image processing device 6 is disposed on the bracket 4 on the same side as the synchronizing signal generating device 5 and electrically connected to the first camera 2 and the second camera 3, the first camera 2 and the second camera 3 input image information or video information to the image processing device 6, and the image processing device 6 performs synthesis processing on the image information or video information and finally synthesizes a naked eye 3D format picture or a naked eye 3D format video. The embodiment of the utility model provides an in image processing apparatus 6 is for having controller and storage module's printed circuit board, and printed circuit board not only can realize the connection between each component in the circuit, and the wiring work load under the traditional mode that has significantly reduced moreover reduces two mesh 3D camera volumes in, has reduced two mesh 3D camera's cost, has improved two mesh 3D camera's quality and reliability.

Further, the utility model discloses do not specifically prescribe a limit to being connected between binocular 3D camera and other electronic equipment, binocular 3D camera 1 can pass through in cluster, parallel port or the USB interface passes to other electronic equipment with the image or the video of bore hole 3D format.

Referring to fig. 1, in detail, the rack 4 is further provided with a flat cable 43, the flat cable 43 is connected to the image processing device 6 and extends out of the rack 4, further, a connector 44 for electrically connecting with a circuit of an electronic device (not shown in the figure) is provided at a terminal of the flat cable 43, in detail, a slot (not shown in the figure) adapted to the connector 44 is provided in the circuit of the electronic device, and when the electronic device is assembled, the connector 44 is inserted into the slot to form an electrical connection.

At the in-process of 1 equipment of binocular 3D camera, involve the cooperation assembly many times of accessories such as first camera 2, second camera 3, support 4, synchronizing signal generating device 5, image processing device 6, in order to further improve the quality level of 3D video or the 3D picture of 1 output of binocular 3D camera, avoid the stack of accessories at the in-process tolerance of assembly, the embodiment of the utility model provides a calibrate the installation to binocular 3D camera 1 through AA processing procedure. In the AA processing procedure, when each part is assembled, the assembled semi-finished product is detected firstly, active alignment is performed according to the actual condition of the assembled semi-finished product, and then the next part is assembled in place, so that the assembly tolerance of the whole binocular 3D camera 1 can be effectively reduced, and the product consistency of the binocular 3D camera 1 is improved. The first camera 2 and the second camera 3 which are installed through the AA processing procedure are positioned on the same horizontal plane and are parallel to the bracket 4.

The utility model does not limit the integration mode of the first camera 2 and the second camera 3 on the bracket 4, as long as the first camera 2 and the second camera 3 are connected reliably, the first camera 2 and the second camera 3 are integrated and assembled by the digital AA calibration machine, when the binocular 3D camera is installed, the X-axis and the Y-axis of the first camera 2 and the second camera 3 are fixed on the same plane through a digital AA calibration machine, the first camera 2, the second camera 3, the X-axis and the Y-axis are respectively on the same horizontal line, the optical axes of the two cameras are parallel or converged at the same point, the binocular 3D camera is assembled through the AA calibrating machine, the assembling tolerance of the binocular 3D camera can be effectively reduced, and the 3D video or the 3D picture output by the binocular 3D camera has high quality.

Referring to fig. 2, specifically, when the binocular 3D camera 1 takes a 3D picture or a 3D video, the method includes the following steps:

s1, initializing the first camera 2 and the second camera 3, and setting the same parameters, including but not limited to frame frequency, image size, exposure, white balance, etc., after the initialization is completed, the synchronization signal generating device 5 sends out the synchronization signal, and under the effect of the synchronization signal, the first camera 2 and the second camera 3 synchronously output the image information or the video information;

s2, the image processing device 6 processes the image information or video information output by the first camera 2 and the second camera 3 respectively, the processing procedures include but are not limited to cropping, format conversion, effect processing, etc., and the image processing device 6 synthesizes the processed image information or video information into an image or video in naked eye 3D format.

Please refer to fig. 3, a second embodiment of the present invention provides a mobile device 7, including binocular 3D camera 1, connector 71 and main control device 72, please refer to the first embodiment about the structure and function of binocular 3D camera 1, which is not repeated here, binocular 3D camera 1 is connected to main control device 72 through connector 71, and binocular 3D camera 1 transmits images or videos to main control device 72 through connector 71. The main control device 72 further includes a display device 721 and/or a storage device 722, the display device 721 is used for displaying the images or videos transmitted by the binocular 3D camera 1, and the storage device 722 is used for storing the images or videos transmitted by the binocular 3D camera 1. This design realizes the function that mobile device 7 gathered high-quality 3D video or 3D picture through binocular 3D camera 1 to play 3D video or 3D picture through display device 721, or storage device 722 stores 3D video or 3D picture, moreover, the steam generator is simple in structure, the functionality and the practicality of mobile device have been improved, very big photographic demand that has satisfied present most mobile device, make the photo or the video of shooing have bore hole 3D's effect and more clear graceful, have higher market value.

Referring to fig. 4, specifically, when the mobile device 7 takes a 3D picture or a 3D video through the binocular 3D camera 1, the method includes the following steps:

s3, initializing the first camera 2 and the second camera 3, and setting the same parameters, including but not limited to frame frequency, image size, exposure, white balance, etc., after the initialization is completed, the synchronization signal generating device 5 sends out the synchronization signal, and under the effect of the synchronization signal, the first camera 2 and the second camera 3 synchronously output the image information or the video information;

s4, processing the image information or video information output by the first camera 2 and the second camera 3 respectively by the image processing device 6, wherein the processing procedures include but are not limited to clipping, format conversion, effect processing, etc., and the image processing device 6 synthesizes the processed image information or video information into an image or video in naked eye 3D format;

s5, the image or video that has finished the naked eye 3D format composition is transmitted to the mobile device 7 through the connector 71, and the mobile device 7 plays the image or video through the display device 721 and/or saves the image or video through the storage device 722.

The utility model discloses do not specifically limit to the type of mobile device 7, as long as satisfy can store and/or play the image or the video that binocular 3D camera 1 provided can, optionally, mobile device 7 can be electronic equipment such as 3D glasses, cell-phone, panel computer, notebook computer, specific in the second embodiment the utility model discloses mobile device 7 is cell-phone 8.

Please refer to fig. 5, in order to facilitate the installation of the binocular 3D camera 1, the utility model discloses the third embodiment is through installing support 4 on cell-phone 8 as lid behind cell-phone 8, and is concrete, cell-phone 8 further include with support 4 outline assorted screen 81, screen 81 inlays on support 4, support 4 further including setting up first camera 2 and the second camera 3 in support 4 left side and vertical setting, first camera 2 optical axis and second camera 3 optical axis interval are between 14mm-20mm, the utility model discloses the third embodiment does not specifically limit to first camera 2 optical axis and second camera 3 optical axis interval, and specific distance is decided according to the outer profile size of hand, and this design is through regarding support 4 as cell-phone 8's shell, and simple structure is reliable, and cell-phone 8 overall structure is more small and exquisite compact when practicing thrift the cost.

The utility model discloses the third embodiment realizes that cell-phone 8 gathers 3D image or 3D video function through installing two mesh 3D cameras 1 at the 8 backs of cell-phone, certainly, also can set up two mesh 3D cameras 1 in the front of cell-phone 8, or all set up two mesh 3D cameras 1 at the front and the back of cell-phone 8.

Compared with the prior art, the utility model provides a pair of two mesh 3D cameras and mobile device thereof has following advantage:

1. the device comprises a support, a synchronous signal generating device, an image processing device and at least two identical cameras, wherein the two cameras are integrated on the same side of the support and are electrically connected with the synchronous signal generating device and the image processing device, the synchronous signal generating device controls the two cameras to synchronously output image information or video information, the two cameras transmit the image information or the video information to the image processing device, the image processing device processes the image information or the video information and synthesizes a naked eye 3D picture or a naked eye 3D video, the device realizes the collection of the high-quality 3D video or the 3D picture by arranging the two identical cameras, and the device is simple in structure, high in practicability and higher in market value.

2. Two cameras are calibrated through AA (advanced) process procedures during the assembly of the binocular 3D camera, the AA process procedures effectively reduce the assembly tolerance of the binocular 3D camera, the consistency of binocular 3D camera products is improved, and the 3D video or 3D picture output by the binocular 3D camera is guaranteed to have higher quality.

3. The image processing device is a printed circuit board with a controller and a storage module, the printed circuit board can realize connection among elements in the circuit, wiring workload under a traditional mode is greatly reduced, the size of the binocular 3D camera is reduced, cost of the binocular 3D camera is reduced, and quality and reliability of the binocular 3D camera are improved.

4. The X axle and the Y axle of two cameras are fixed on the coplanar through digital AA calibration board during binocular 3D camera equipment, two cameras, the X axle, the Y axle is respectively on same water flat line, the optical axis of two cameras is parallel or assembles the same point, assemble binocular 3D camera through the AA calibrator, can effectually reduce the assembly tolerance of binocular 3D camera, the uniformity of binocular 3D camera product has been promoted simultaneously.

5. Two camera settings are parallel at same horizontal plane and with the support, and the phenomenon of the unable higher-quality 3D video of output or 3D picture that cause has been avoided owing to two camera deviations to this design, and two cameras and support parallel arrangement simultaneously, when the binocular 3D camera of being convenient for is installed on other equipment, judge the relative position between camera and other equipment, have higher practicality.

6. The optical axis distance between the two cameras is 14-20 mm, the optical axis distance between the two cameras is limited to be 14-20 mm, the quality of 3D videos or 3D pictures output by the binocular 3D cameras can be effectively improved, and the user experience is improved through the 3D videos or the 3D pictures with higher quality.

7. The camera is the RGB camera, and 16777216 kinds of colours can reappear on the screen to the RGB camera, have higher image display quality, the capture details that can be better, and the photo that makes to shoot can be more clear and concrete, and the content is abundanter, and the picture detail is more exquisite, has higher shooting ability.

8. The utility model provides a mobile device, which comprises a connector, a main control device and a binocular 3D camera, wherein the binocular 3D camera is connected with the main control device through the connector, the binocular 3D camera transmits naked eye 3D images or naked eye 3D videos to the main control device through the connector, the binocular 3D camera is arranged on the mobile equipment, so that the function of acquiring high-quality 3D video or 3D pictures by the mobile equipment is realized, the design has simple structure, improves the functionality and the practicability of the mobile equipment, greatly meets the photographic requirements of most of the mobile equipment at present, the shot photos or videos have naked eye 3D effects, are clearer and more graceful, and have higher market value.

9. The main control equipment further comprises display equipment and/or storage equipment, the display equipment is used for displaying naked eye 3D images or naked eye 3D videos transmitted by the binocular 3D cameras, the storage equipment is used for storing the naked eye 3D images or the naked eye 3D videos transmitted by the binocular 3D cameras, the naked eye 3D images or the naked eye 3D videos provided by the binocular 3D cameras can be intuitively and clearly reflected through the display equipment in the design, the naked eye 3D images or the naked eye 3D videos transmitted by the binocular 3D cameras can be stored by the storage equipment, data loss is avoided, and the high practicability is achieved.

10. The mobile device is a mobile phone, a tablet computer, a notebook computer and 3D glasses, the binocular 3D camera is arranged on the mobile device, the function that the mobile device collects high-quality 3D videos or 3D pictures is achieved, the structure is simple, the practicability is high, and the market value is high.

The above embodiments of the present invention are only described, and it should be noted that, for those skilled in the art, modifications can be made without departing from the inventive concept, but these all fall into the protection scope of the present invention.

Claims (10)

1. The utility model provides a binocular 3D camera which characterized in that: the device comprises a support, a first camera, a second camera, a synchronous signal generator and an image processing device, wherein the synchronous signal generator is respectively fixed on two opposite sides of the support, the synchronous signal generator is correspondingly electrically connected with the first camera and the second camera and triggers the first camera and the second camera to synchronously work, and the first camera and the second camera input image information or video information into the image processing device to generate a three-dimensional picture.

2. The binocular 3D camera of claim 1, wherein: the stereoscopic picture is a 3D picture or a 3D video.

3. The binocular 3D camera of claim 1, wherein: the image processing device is a printed circuit board with a controller and a memory module.

4. The binocular 3D camera of claim 1, wherein: the first camera is the same as the second camera.

5. The binocular 3D camera of claim 1, wherein: the two cameras are arranged on the same horizontal plane and are parallel to the support.

6. The binocular 3D camera of claim 1, wherein: the optical axis distance between the two cameras is 14mm-20 mm.

7. The binocular 3D camera of claim 1, wherein: the two cameras are RGB cameras.

8. A mobile device, characterized by: the binocular 3D camera comprises a connector, a master control device and the binocular 3D camera of any one of claims 1-7, wherein the binocular 3D camera is connected with the master control device through the connector, and the binocular 3D camera transmits naked eye 3D images or naked eye 3D videos to the master control device through the connector.

9. The mobile device of claim 8, wherein: the master control equipment further comprises display equipment and/or storage equipment, the display equipment is used for displaying the naked eye 3D image or the naked eye 3D video transmitted by the binocular 3D camera, and the storage equipment is used for storing the naked eye 3D image or the naked eye 3D video transmitted by the binocular 3D camera.

10. The mobile device of claim 8, wherein: the mobile device is a mobile phone, a tablet computer, a notebook computer and 3D glasses.

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