阅读说明：本技术 一种立体摄像手机及立体摄像系统 (Stereo camera mobile phone and stereo camera system ) 是由 林道松 张宗永 于 2018-06-20 设计创作，主要内容包括：本发明公开一种立体摄像手机及立体摄像系统,通过在所述立体摄像手机上设置第一摄像头和第二摄像头,使所述第一摄像头和所述第二摄像头之间的距离为人的双眼之间的距离,因此可以利用人眼观察事物的原理,用两个所述摄像头模拟人的双眼对景物进行拍摄,能够使拍摄的3D照片和影片更为立体逼真、更具空间感、具有更身临其境的视觉震撼效果。(The invention discloses a stereo camera mobile phone and a stereo camera system, wherein a first camera and a second camera are arranged on the stereo camera mobile phone, so that the distance between the first camera and the second camera is the distance between two eyes of a person, therefore, the two cameras can be used for simulating the two eyes of the person to shoot a scene by utilizing the principle of observing objects by the eyes, and the shot 3D pictures and films can be more three-dimensional, vivid, more spatial and more immersive visual shock effects.)

1. A stereo camera phone, comprising: the mobile phone comprises a mobile phone and a plurality of cameras; the cameras are arranged on the mobile phone and used for shooting stereoscopic photos or videos; the number of the cameras is more than or equal to two; the plurality of cameras at least comprise a first camera and a second camera; the first camera and the second camera are arranged on the same plane, and the distance between the first camera and the second camera is 55-70 mm.

2. The stereo camera phone of claim 1, wherein a distance between the first camera and the second camera is 60 mm.

3. The stereo camera phone of any one of claims 1-2, further comprising: a wireless transmission module; the wireless transmission module adopts 5G communication; the wireless transmission module is arranged in the mobile phone; the wireless transmission module is connected with the camera and used for collecting the stereoscopic photos or videos shot by the camera and transmitting the stereoscopic photos or videos to a cloud platform through 5G communication; the wireless transmission module is also used for downloading the stereo photos or videos processed on the cloud platform to the mobile phone.

4. A stereoscopic camera system, comprising: a stereo camera mobile phone and a stereo camera device;

the stereo camera mobile phone comprises: the mobile phone comprises a mobile phone and a plurality of cameras; the cameras are arranged on the mobile phone and used for shooting stereoscopic photos or videos; the number of the cameras is more than or equal to two; the plurality of cameras at least comprise a first camera and a second camera; the first camera and the second camera are arranged on the same plane, and the distance between the first camera and the second camera is 55-70 mm;

the stereoscopic image pickup apparatus includes: the device comprises an image pickup device and a lens arranged on the image pickup device; the lens and the camera jointly shoot stereo pictures or videos.

5. The stereoscopic camera system of claim 4, wherein the stereoscopic camera device is the stereoscopic camera phone.

6. The stereoscopic camera system according to claim 4, wherein the camera device is one or more of a drone, a video camera, and a camera.

7. The stereo camera system according to any one of claims 4 to 6, wherein a distance between the first camera and the second camera is 60 mm.

8. The stereo camera system according to any one of claims 4 to 6, wherein the stereo camera phone further comprises: a first wireless transmission module; the first wireless transmission module adopts 5G communication; the first wireless transmission module is arranged in the mobile phone; the first wireless transmission module is connected with the camera and used for collecting the stereoscopic photos or videos shot by the camera and transmitting the stereoscopic photos or videos to a cloud platform through 5G communication; the first wireless transmission module is further used for downloading the stereoscopic photos or videos processed on the cloud platform to the mobile phone.

9. The stereoscopic camera system according to claim 8, wherein the stereoscopic camera device further comprises: a second wireless transmission module; the second wireless transmission module adopts 5G communication; the second wireless transmission module is arranged in the camera device; the second wireless transmission module is connected with the lens and used for acquiring the stereoscopic photos or videos shot by the lens and transmitting the stereoscopic photos or videos to a cloud platform through 5G communication; the second wireless transmission module is further used for downloading the stereoscopic photos or videos processed on the cloud platform to the camera device.

10. The stereoscopic camera system according to claim 9, wherein the first wireless transmission module and the second wireless transmission module are connected via a network; the first wireless transmission module and the second wireless transmission module synchronously transmit the stereoscopic photos or videos to the cloud platform through 5G communication.

Technical Field

The invention relates to the technical field of 3D photography, in particular to a stereo camera mobile phone and a stereo camera system.

Background

In recent years, the transition from black and white to color and from planar 2D to 3D stereoscopic has been carried out, the appearance of 3D film is generally recognized and popular by people, and the photography technique is also from planar 2D photography to stereoscopic 3D photography.

3D imaging techniques go back to 1844, where a foreigner named D.B took the earliest 3D pictures of the world through a stereoscope. In 1986, 3D films produced by michael jackson were shown in the disconey theme park and the city of the world movie. In 12 months of 2009, the James Carmelong officially invested 5 hundred million dollars of movie huge work "Afavada", which was also publicized in the world in various versions such as 2D, 2D IMAX, 3D, and 3D IMAX, and raised the global 3D hot tide. In 2008, the japanese cable BS 11 channel started broadcasting 3D programs. In 4 months 2010, 3D television channels were launched in the sky media. In 6 months 2010, world cup in south africa became the world cup game that was first 3D relayed in history. In recent years, 3D images are rapidly developed in the world, but at present, the 3D images are mainly focused in professional fields such as movies and 3D printing, but with the increasing speed of mobile phones and the increasing memory of mobile phones, people will not only be satisfied with recording life by using 2D photos and videos, and the technological development from planar images to stereoscopic images is an inevitable trend.

Although both P920 and G17 proposed by LG and HTC in the past of the mobile phone industry can shoot 3D videos, the shooting effect is poor and is not accepted by the market because the speed of the mobile phone at that time is low, the memory is small, and the distance between two cameras of the mobile phone at that time does not reach the distance between two eyes of a person.

Disclosure of Invention

The invention aims to provide a stereo camera mobile phone and a stereo camera system, wherein a camera arranged on the stereo camera mobile phone can simulate the distance between two eyes of a person to shoot a scenery, so that shot 3D pictures and films are more stereo and vivid, and the stereo photography and camera quality is improved.

In order to achieve the purpose, the invention provides the following scheme:

a stereo camera phone, comprising: the mobile phone comprises a mobile phone and a plurality of cameras; the cameras are arranged on the mobile phone and used for shooting stereoscopic photos or videos; the number of the cameras is more than or equal to two; the plurality of cameras at least comprise a first camera and a second camera; the first camera and the second camera are arranged on the same plane, and the distance between the first camera and the second camera is 55-70 mm.

Preferably, the distance between the first camera and the second camera is 60 mm.

Optionally, the stereo camera phone further includes: a wireless transmission module; the wireless transmission module adopts 5G communication; the wireless transmission module is arranged in the mobile phone; the wireless transmission module is connected with the camera and used for collecting the stereoscopic photos or videos shot by the camera and transmitting the stereoscopic photos or videos to a cloud platform through 5G communication; the wireless transmission module is also used for downloading the stereo photos or videos processed on the cloud platform to the mobile phone.

The present invention also provides a stereoscopic camera system, including: a stereo camera mobile phone and a stereo camera device;

the stereo camera mobile phone comprises: the mobile phone comprises a mobile phone and a plurality of cameras; the cameras are arranged on the mobile phone and used for shooting stereoscopic photos or videos; the number of the cameras is more than or equal to two; the plurality of cameras at least comprise a first camera and a second camera; the first camera and the second camera are arranged on the same plane, and the distance between the first camera and the second camera is 55-70 mm;

the stereoscopic image pickup apparatus includes: the device comprises an image pickup device and a lens arranged on the image pickup device; the lens and the camera jointly shoot stereo pictures or videos.

Optionally, the stereo camera device is the stereo camera phone.

Optionally, the image capturing device is one or more of an unmanned aerial vehicle, a video camera and a camera.

Optionally, the distance between the first camera and the second camera is 60 mm.

Optionally, the stereo camera phone further includes: a first wireless transmission module; the first wireless transmission module adopts 5G communication; the first wireless transmission module is arranged in the mobile phone; the first wireless transmission module is connected with the camera and used for collecting the stereoscopic photos or videos shot by the camera and transmitting the stereoscopic photos or videos to a cloud platform through 5G communication; the first wireless transmission module is further used for downloading the stereoscopic photos or videos processed on the cloud platform to the mobile phone.

Optionally, the stereo camera further includes: a second wireless transmission module; the second wireless transmission module adopts 5G communication; the second wireless transmission module is arranged in the camera device; the second wireless transmission module is connected with the lens and used for acquiring the stereoscopic photos or videos shot by the lens and transmitting the stereoscopic photos or videos to a cloud platform through 5G communication; the second wireless transmission module is further used for downloading the stereoscopic photos or videos processed on the cloud platform to the camera device.

Optionally, the first wireless transmission module and the second wireless transmission module are connected through a network; the first wireless transmission module and the second wireless transmission module synchronously transmit the stereoscopic photos or videos to the cloud platform through 5G communication.

According to the specific embodiment provided by the invention, the invention discloses the following technical effects:

the invention provides a stereo camera phone and a stereo camera system, wherein a first camera and a second camera are arranged on the stereo camera phone, so that the distance between the first camera and the second camera is the distance between two eyes of a person, therefore, the two cameras can be used for simulating the two eyes of the person to shoot a scene by utilizing the principle of observing objects by the eyes of the person, and the shot 3D pictures and films can be more three-dimensional, vivid, more spatial and more immersive visual impact.

In addition, the stereo camera mobile phone is also provided with a wireless transmission module, shooting data can be uploaded to the cloud platform through the wireless transmission module when the mobile phone is shot, and the shot data is processed through cloud computing, so that a final stereo picture or video is synthesized, and the problem of low processing speed of the mobile phone can be solved. Meanwhile, mass shooting data, stereo pictures and videos are stored in a cloud mode through the cloud platform, and the problem that the memory of the mobile phone is small can be solved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without inventive exercise.

Fig. 1 is a schematic structural diagram of a stereo camera phone provided by the present invention;

fig. 2 is a schematic structural diagram of a first embodiment of a stereo camera phone according to the present invention;

fig. 3 is a schematic structural diagram of a second embodiment of a stereo camera phone according to the present invention;

fig. 4 is an exploded view of the overall structure of a stereo camera device provided by the present invention;

fig. 5 is an exploded view of the overall structure of a camera assembly according to the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The invention aims to provide a stereo camera mobile phone and a stereo camera system, which can simulate two eyes of a person to shoot a scene, so that shot 3D pictures and films are more stereo and vivid, and the stereo photography quality is improved.

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in further detail below.

Fig. 1 is a schematic structural diagram of a stereo camera phone according to the present invention. Referring to fig. 1, the present invention provides a stereo camera phone, which includes: a mobile phone 1 and a plurality of cameras 2; the cameras 2 are arranged on the mobile phone 1 and used for shooting stereoscopic photos or videos. The number of the cameras 2 is more than or equal to two. The plurality of cameras 2 at least comprise a first camera 2-1 and a second camera 2-2; the first camera 2-1 and the second camera 2-2 are arranged on the same plane, and the plane can be any plane such as a side edge of the mobile phone 1, a screen surface or a back surface. The distance between the first camera 2-1 and the second camera 2-2 is 55-70mm, preferably 60 mm.

The distance between the first camera and the second camera is set to be the distance between the two eyes of a person, so that the principle that the eyes of the person observe objects can be utilized, the two cameras are used for simulating the two eyes of the person to shoot the scenery, and shot 3D pictures and films can be more three-dimensional, vivid, more spatial and more immersive visual shock effects.

With the popularization of 5G communication, it will become possible to upload shot 3D data to a cloud platform through 5G communication, process and store the uploaded 3D data through cloud computing and cloud storage, and display the processed 3D data on a mobile phone through 5G communication. Therefore, the stereo camera mobile phone of the invention further comprises: a wireless transmission module; the wireless transmission module adopts 5G communication; the wireless transmission module is arranged in the mobile phone; the wireless transmission module is connected with the camera and used for collecting the stereoscopic photos or videos shot by the camera and transmitting the stereoscopic photos or videos to a cloud platform through 5G communication. And after the stereo photo or the video is processed by the cloud platform, generating the processed stereo photo or the processed video. The wireless transmission module is also used for downloading the processed stereo photos or videos on the cloud platform to the mobile phone.

When the mobile phone is used for shooting, shooting data can be uploaded to the cloud platform through the wireless transmission module, and the shot data is processed through cloud computing, so that a final stereo picture or video is synthesized, and the problem of low processing speed of the mobile phone can be solved. Meanwhile, mass shooting data, stereo pictures and videos are stored in a cloud mode through the cloud platform, and the problem that the memory of the mobile phone is small can be solved.

The invention also provides various specific embodiments of the stereo camera mobile phone. Fig. 2 is a schematic structural diagram of a stereo camera phone according to a first embodiment of the present invention. Referring to fig. 2, the stereo camera phone includes: a body 301 and a plurality of stereo camera assemblies 302. A plurality of the stereo camera modules 302 are provided on the body 301.

A plurality of mounting grooves are formed in the machine body. The mounting groove is provided with a plurality of clamping convex blocks. The mounting groove is used for mounting the stereo camera shooting assembly. The stereo camera shooting assembly is connected with the plurality of clamping convex blocks on the mounting groove through the plurality of clamping grooves. Stereoscopic photography may be collectively implemented by a plurality of the stereoscopic camera assemblies 302.

Fig. 3 is a schematic structural diagram of a second embodiment of a stereo camera phone according to the present invention. The mobile phone comprises: a body 401, a stereo camera module 402, and a rotation mechanism 403. The back of the machine body is provided with a mounting groove, and a plurality of clamping convex blocks are arranged on the mounting groove. The mounting groove is used for mounting the stereo camera shooting assembly. The stereo camera module 402 is connected with the plurality of clamping convex blocks on the mounting groove through a plurality of clamping grooves. The rotating mechanism 403 is disposed on one side of the machine body, which may be any one of the upper, lower, left and right sides of the machine body. The stereo camera module 402 is connected to one side of the body 401 through the rotating mechanism 403.

The rotating mechanism 403 can drive the stereo camera module 402 to rotate 270 degrees around the side of the body 401. At this moment, the stereo camera component 402 is connected with the main control circuit board in the machine body 401 through the flexible circuit board, the circuit of the flexible circuit board is arranged at the rotating shaft of the rotating mechanism 403 and is in a spiral winding type, so that the effective connection of the main circuit board of the stereo camera component and the main control circuit board in the mobile phone can be realized, the movement of the rotating mechanism 403 cannot be influenced, and the service life of the device can be effectively prolonged.

By implanting elements such as a frame synchronizer, a double-camera image processing device and the like into the main circuit board or the main control circuit board, 3D pictures or videos can be directly generated on the stereo camera component or the mobile phone, and the functions of stereo photography, camera shooting and display are achieved. And when the mobile phone is used for shooting, the data can be uploaded to the cloud platform through 5G communication, and the shot data is processed through cloud computing, so that a final stereo picture or video is synthesized.

Preferably, the mobile phone can also be networked with an unmanned aerial vehicle, a video camera and a camera to upload shooting data together. Meanwhile, multiple mobile phones can be used for shooting stereo pictures and videos together, or shooting stereo pictures or videos through the cooperation of one mobile phone and a camera on the unmanned aerial vehicle, or shooting stereo pictures or videos through the cooperation of one mobile phone and a camera on the video camera, or shooting stereo pictures or videos through the cooperation of one mobile phone and a camera on the camera.

In addition, the stereo camera shooting assembly provided by the invention can be arranged in other mobile equipment such as a tablet personal computer, a portable computer and the like in the same way.

Fig. 4 is an exploded view of the overall structure of a stereo camera module according to the present invention. Referring to fig. 4, the present invention provides a stereo camera module, including: base 101, mounting hole 102, first camera assembly 103, sliding groove 104, sliding block 105, and second camera assembly 106.

The mounting hole 102 is provided at one side of the base 101, and the sliding groove 104 is provided at the other side of the base 101. The first camera assembly 103 is disposed in the mounting hole 102. The sliding block 105 is disposed in the sliding groove 104, and the sliding block 105 can slide along the sliding groove 104. The second camera assembly 106 is disposed in the mounting groove of the slide block 105. Therefore, the second camera assembly 106 can slide along with the sliding block 105 to adjust the distance between the second camera assembly 106 and the first camera assembly 103.

The human eye acts like a fully automated set of digital cameras with zoom lenses, iris diaphragms and the ability to convert light signals into electrical signals that the brain can recognize. The brain can judge the depth and the distance of the object according to the magnitude of the parallax between the same object in the two received images, the farther the brain is from the eyes, the smaller the parallax is, and vice versa, and the whole process is called stereovision (stereovision). The stereo photography is to simulate the positions of two eyes to respectively shoot the same object from two observation points with slight angle difference, and then show the two pictures in the same way, so that the left and right eyes can respectively watch the pictures with left vision and right vision to obtain a three-dimensionally reproduced 3D picture. The stereo camera assembly provided by the invention adopts a double-camera assembly to simulate the eyes of a person to shoot a scene according to the stereo vision principle, the first camera assembly 103 and the second camera assembly 106 are arranged in parallel, and the distance between the first camera assembly 103 and the second camera assembly 106 is adjustable, so that a user can adjust the distance between the double lenses according to the actual distance of the eyes of the user to obtain the optimal shooting effect.

Typically, the distance between the eyes of a person is about 55-70mm, and thus, in the present invention, the adjustment range between the two lenses of the first camera assembly 103 and the second camera assembly 106 is set to 55-70 mm. Also, since the average distance between both eyes of a human is 60mm, the distance between the lens centers of the first camera assembly 103 and the second camera assembly 106 is preferably 60mm in consideration of universality.

The top of the base 101 is provided with a plurality of clamping grooves 107 for clamping and connecting the clamping grooves with other equipment. The base 101 is made of a signal shielding material, and can effectively prevent external signal interference. The material of the base 101 may be an iron alloy, a manganese alloy, a molybdenum alloy, a silicon alloy, a nickel alloy, a vanadium alloy, a tungsten alloy, or the like.

Fig. 5 is an exploded view of the overall structure of a camera assembly according to the present invention. Referring to fig. 5, taking the first camera assembly 103 as an example, the first camera assembly 103 includes: a first frame 201, a first upper layer elastic pad 202, a first lens 203, a first lens holder 204, a first lower layer elastic pad 205, a first base holder 206 and a first circuit board 207.

The first circuit board 207 is disposed at the bottom of the first base bracket 206. The first lower elastic pad 205 is disposed between the first lens holder 204 and the first base holder 206 for buffering between the first lens holder 204 and the first base holder 206. The first lower layer elastic pad 205 and the first upper layer elastic pad 202 may be rubber pads, sponge pads or other elastic materials. The first lower layer elastic pad 205 and the first upper layer elastic pad 202 may be plate-mounted springs. The first frame 201 is integrally formed by metal casting, and is preferably made of an iron alloy or a manganese alloy material.

The first lens 203 is mounted inside the first lens holder 204. The first upper layer elastic gasket 202 is located between the first frame 201 and the first lens holder 204, so as to avoid rigid connection between the first frame 201 and the first lens holder 204. The lower bottom surface of the first frame 201 is connected to the first circuit board 207 to form a hollow accommodating chamber with an open upper end. Preferably, a bottom opening with a buckle is formed at the bottom of the first frame 201, and the first circuit board 207 is clamped in the bottom opening, so that the first circuit board 207 is flush with the bottom of the first frame 201, the thickness of the first frame 201 is not increased, and the device is light and thin.

The first upper layer elastic gasket 202, the first lens 203, the first lens holder 204, the first lower layer elastic gasket 205 and the first base holder 206 are all disposed in the accommodating cavity. For strengthening dustproof effect, can seal through the encapsulating in the gap that holds the intracavity, also can fill material such as bubble cotton, silica gel in the gap and seal dustproof, also can adopt the dust ring, effectively block the entering of impurity such as outside dust, avoid influencing the normal use of device.

The first lens holder 204 has a hollow hexagonal prism shape. A first left magnetic element 208 is disposed outside the first left side surface of the first lens holder 204. A first right magnetic element 209 is arranged outside the first right side surface of the first lens holder. The first left magnetic element 208 and the first right magnetic element 209 are both strip-shaped sheets. The first left magnetic element 208 and the first right magnetic element 209 may be magnets or magnetite.

The first left side face is opposite to and parallel to the first right side face. The first left magnetic element 208 is parallel to the first left side surface. The first right magnetic element 209 is aligned parallel to and opposite the first left magnetic element. A first supporting protrusion 210 is disposed on the first left side surface or the second right side surface. The first support protrusion 210 is mounted with a first racetrack coil 211. The first racetrack coil 211 is located between the first left magnetic element 208 and the first right magnetic element 209, and the first racetrack coil 211 is opposite to the first left side surface in parallel.

The first lens holder 204, the first left magnetic element 208, the first racetrack coil 211, and the first right magnetic element 209 together form a voice coil motor. The voice coil motor is driven and controlled by a voice coil motor driving chip integrated on the first circuit board. Voice coil motor driver chip adopts driver ICFP5510 with VCM voice coil motor matching, voice coil motor driver chip can drive first camera lens 203 is focused and is shot, realizes focusing fast accurately to obtain high pixel's photo and film. In addition, the runway coil adopted by the invention has small magnetic field interference, and can effectively avoid the mutual interference of the magnetic elements on the two voice coil motors to influence the normal work of the voice coil motors, thereby obtaining stronger magnetic field.

The first frame 201 has a cubic shape. The first frame 201 has a hollow hexagonal prism-shaped receiving cavity therein. The first upper layer elastic gasket 202 and the first lower layer elastic gasket 205 are provided with a hexagonal hole matched with the hexagonal prism-shaped accommodating cavity. The first lens 203 is cylindrical. The first lens holder 204 has a hollow cylindrical receiving cavity inside, which is matched with the shape of the first lens 203, and is used for placing the first lens 203. The first base support 206 has a hexagonal hole in the bottom. The top of the first lens 203 is flush with the top of the first frame 201. In order to protect the lenses, a protective lens may be disposed on a contact surface between the top of the first lens 203 and the first frame 201.

The first lens 203 senses light and shoots through the hexagonal opening at the top of the first frame 201. The bottom of the first lens 203 is flush with the bottom of the first base support 206. The first circuit board 207 is attached to the bottom of the first base bracket 206. The bottom of the first lens 203 is electrically connected to the first circuit board 207. The first circuit board 207 is integrated with a capacitor, a photosensitive chip, a voice coil motor driving chip and an output interface. The output interface is a golden finger provided with a plurality of bonding pads.

The second camera assembly and the first camera assembly have the same internal composition structure, consistent component size and mutual parallel and symmetrical central optical axis. The second camera assembly includes: the second frame, the second upper elastic gasket, the second lens bracket, the second lower elastic gasket, the second base bracket and the second circuit board. The second circuit board is arranged at the bottom of the second base support; the second lower layer elastic gasket is arranged between the second lens bracket and the second base bracket; the second lens is arranged in the second lens bracket; the second upper layer elastic gasket is positioned between the second frame and the second lens bracket; the lower bottom surface of the second frame is connected with the second circuit board to form a hollow accommodating cavity with an opening at the upper end; the second upper layer elastic gasket, the second lens support, the second lower layer elastic gasket and the second base support are all arranged in the accommodating cavity.

Optionally, the second lens holder is in a shape of a hollow hexagon prism; a second left magnetic element is arranged on the outer side of a second left side face of the second lens support; a second right magnetic element is arranged on the outer side of a second right side surface of the second lens support; the second left side is parallel to the second right side; the second left magnetic element is parallel to the second left side surface; the second right magnetic element is opposite to the second left magnetic element in parallel; a second supporting bump is arranged on the second left side surface or the second right side surface; a second runway coil is arranged on the second supporting convex block; the second runway coil is positioned between the second left side surface and the second right side surface, and the second runway coil is opposite to the second left side surface in parallel.

Optionally, the second frame is cube-shaped; the second frame is internally provided with a hollow hexagonal prism-shaped accommodating cavity; the second upper layer elastic gasket and the second lower layer elastic gasket are respectively provided with a hexagonal hole; the second lens is cylindrical; the second lens holder is internally provided with a hollow cylindrical accommodating cavity for accommodating the second lens; the bottom of the second base support is provided with a hexagonal hole; the top of the second lens is flush with the top of the second frame, and the second lens is used for sensitization and shooting through a hexagonal opening at the top of the second frame; the bottom of the second lens is flush with the bottom of the second frame; the second circuit board is attached to the bottom of the second frame; the bottom of the second lens is electrically connected with the second circuit board.

For adapting to different shooting requirements, the second camera in the second camera assembly and the first camera in the first camera assembly can be cameras with different parameters. In order to ensure the shooting quality of stereo photography, the white balance, the aperture value, the focus, the focal length and the brightness of the first camera group and the second camera group are consistent.

The bottom of the base 101 is provided with a main circuit board. The first circuit board of the first camera assembly is connected with the main circuit board through a first flexible circuit board. And the second circuit board of the second camera assembly is connected with the main circuit board through a second flexible circuit board. Through setting up the flexible line way board for camera subassembly can not lead to the circuit to damage at the slip in-process, has improved the life of device.

The present invention also provides a stereoscopic camera system, including: the stereo camera mobile phone and the stereo camera device.

The stereo camera mobile phone comprises: the mobile phone comprises a mobile phone and a plurality of cameras; the cameras are arranged on the mobile phone and used for shooting stereoscopic photos or videos; the number of the cameras is more than or equal to two; the plurality of cameras at least comprise a first camera and a second camera; the first camera and the second camera are arranged on the same plane, and the distance between the first camera and the second camera is 55-70mm, preferably 60 mm.

The stereoscopic image pickup apparatus includes: the device comprises an image pickup device and a lens arranged on the image pickup device; the lens and the camera jointly shoot stereo pictures or videos.

Optionally, the stereo camera device may be the stereo camera phone, and at this time, it is equivalent to synchronously implement stereo photography and shooting by using a plurality of stereo camera phones.

Optionally, the image capturing device is one or more of an unmanned aerial vehicle, a video camera and a camera. Namely, the stereo camera system provided by the invention can be used for shooting stereo pictures or videos through the cooperation of one mobile phone and the camera on the unmanned aerial vehicle, also can be used for shooting stereo pictures or videos through the cooperation of one mobile phone and the camera on the video camera, and also can be used for shooting stereo pictures or videos through the cooperation of one mobile phone and the camera on the camera. The three-dimensional camera mobile phone can shoot 3D images of objects at multiple angles through being matched with an unmanned aerial vehicle, a video camera or a camera, so that the all-dimensional dynamic 3D images of the upper part, the lower part, the left part, the right part, the front part and the rear part of the objects can be fitted.

The stereo camera mobile phone further comprises: a first wireless transmission module; the first wireless transmission module adopts 5G communication; the first wireless transmission module is arranged in the mobile phone; the first wireless transmission module is connected with the camera and used for collecting the stereoscopic photos or videos shot by the camera and transmitting the stereoscopic photos or videos to a cloud platform through 5G communication; the first wireless transmission module is further used for downloading the stereoscopic photos or videos on the cloud platform to the mobile phone.

The stereoscopic camera device further includes: a second wireless transmission module; the second wireless transmission module adopts 5G communication; the second wireless transmission module is arranged in the camera device; the second wireless transmission module is connected with the lens and used for acquiring the stereoscopic photos or videos shot by the lens and transmitting the stereoscopic photos or videos to a cloud platform through 5G communication; the second wireless transmission module is further used for downloading the stereoscopic photos or videos on the cloud platform to the camera device.

The first wireless transmission module is connected with the second wireless transmission module through a network; the first wireless transmission module and the second wireless transmission module synchronously transmit the stereoscopic photos or videos to the cloud platform through 5G communication. The cloud platform is used for carrying out cloud computing processing on the shooting data of the mobile phone or various camera devices, and the problem of low processing speed of the mobile phone and various camera devices is solved. The generated stereo photos and videos are stored in cloud data, and the mobile phone and the camera device can be downloaded and viewed from the cloud platform at any time, so that the problem of small memory of the mobile phone is solved. Because the 5G communication speed is very fast, the time from the shooting of the mobile phone to the viewing of the stereoscopic photos and videos is hardly prolonged.

The principles and embodiments of the present invention have been described herein using specific examples, which are provided only to help understand the method and the core concept of the present invention; meanwhile, for a person skilled in the art, according to the idea of the present invention, the specific embodiments and the application range may be changed. In view of the above, the present disclosure should not be construed as limiting the invention.