CN110620915A - Stereo camera mobile phone and stereo camera system - Google Patents

Abstract

The invention discloses a stereo camera phone and a stereo camera system. By setting a first camera and a second camera on the stereo camera phone, the distance between the first camera and the second camera is equal to the distance between two eyes of a person. Therefore, the principle of observing things with the human eye can be used, and the two cameras can be used to simulate the human eyes to shoot the scene, which can make the 3D photos and movies taken more three-dimensional and realistic, with a more sense of space and a more personal experience. Immersive visual shocking effect.

Description

Stereo camera mobile phone and stereo camera system

technical field

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

Background technique

In recent years, films have transitioned from black and white to color, and from flat 2D to 3D. The emergence of 3D movies is generally recognized and sought after by everyone, and photography technology has also changed from flat 2D photography to stereoscopic 3D photography.

3D imaging technology can be traced back as far as 1844, when a foreigner named D.B took the world's earliest 3D photo through a stereoscopic mirror. In 1986, Disney theme parks and Universal Studios released a 3D film starring Michael Jackson. In December 2009, directed by James Cameron and costing 500 million US dollars, the film masterpiece "Avatar" was released globally in multiple versions including 2D, 2D IMAX, 3D, 3D IMAX, etc., setting off a global 3D boom. In 2008, Japan's cable channel BS 11 began broadcasting 3D programs. In April 2010, Sky Media launched a 3D TV channel. In June 2010, the World Cup in South Africa became the first World Cup game in history to be broadcast in 3D. 3D images have developed rapidly in the world in recent years, but currently they are mainly concentrated in professional fields such as movies and 3D printing. 2D photos and videos are used to record life, and the technological development from flat images to three-dimensional images is an inevitable trend.

Although the P920 launched by LG and the G17 launched by HTC before the mobile phone industry can both shoot 3D videos, due to the slow speed and small memory of the mobile phones at that time, the distance between the two cameras of the mobile phones launched at that time did not reach the distance between the eyes of people. Distance, so the shooting effect is poor, not recognized by the market.

Contents of the invention

The object of the present invention is to provide a kind of stereo camera mobile phone and stereo camera system, the camera set on the stereo camera phone can simulate the distance between the eyes of people to shoot the scenery, so that the 3D photos and films taken are more three-dimensional and realistic, and the three-dimensional Photographic camera quality.

To achieve the above object, the present invention provides the following scheme:

A stereoscopic camera mobile phone, the stereoscopic camera mobile phone includes: a mobile phone and a plurality of cameras; a plurality of the cameras are arranged on the mobile phone for taking stereoscopic photos or videos; the number of the cameras is greater than or equal to two; Among the cameras, at least include 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, the distance between the first camera and the second camera is 60mm.

Optionally, the stereo camera mobile phone also includes: a wireless transmission module; the wireless transmission module adopts 5G communication; the wireless transmission module is set inside the mobile phone; the wireless transmission module is connected to the camera for Collect the stereoscopic photos or videos taken by the camera, and transmit the stereoscopic photos or videos to the cloud platform through 5G communication; the wireless transmission module is also used to transfer the processed stereoscopic photos or videos on the cloud platform Download to the mobile phone in question.

The present invention also provides a stereo camera system, which comprises: a stereo camera phone and a stereo camera device;

The stereo camera mobile phone includes: a mobile phone and a plurality of cameras; a plurality of the cameras are arranged on the mobile phone for taking stereo photos or videos; the number of the cameras is greater than or equal to two; among the plurality of cameras, At least including 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;

The stereoscopic camera device includes: a camera device and a lens arranged on the camera device; the lens and the camera jointly take stereoscopic photos or videos.

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

Optionally, the camera device is one or more of a drone, 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 also includes: a first wireless transmission module; the first wireless transmission module adopts 5G communication; the first wireless transmission module is set inside the mobile phone; the first wireless transmission module Connected with the camera, used to collect the stereoscopic photo or video taken by the camera, and transmit the stereoscopic photo or video to the cloud platform through 5G communication; the first wireless transmission module is also used to transfer the The three-dimensional photos or videos processed on the cloud platform are downloaded to the mobile phone.

Optionally, the stereo camera device further includes: a second wireless transmission module; the second wireless transmission module adopts 5G communication; the second wireless transmission module is set inside the camera device; the second wireless transmission module The module is connected with the lens, and is used to collect the stereoscopic photo or video taken by the lens, and transmit the stereoscopic photo or video to the cloud platform through 5G communication; the second wireless transmission module is also used to transfer the stereoscopic photo or video to the cloud platform; The three-dimensional photos or videos processed on the cloud platform are downloaded 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 embodiments provided by the invention, the invention discloses the following technical effects:

The invention provides a stereo camera phone and a stereo camera system. By setting a first camera and a second camera on the stereo camera phone, the distance between the first camera and the second camera is equal to two eyes of a person. Therefore, the principle of observing things with the human eye can be used, and the two cameras can be used to simulate the human eyes to shoot the scene, which can make the 3D photos and movies taken more three-dimensional, realistic, spatial, and more Immersive visual shocking effects.

In addition, the stereoscopic camera mobile phone is also provided with a wireless transmission module, and the mobile phone can upload the shooting data to the cloud platform through the wireless transmission module when shooting, and use cloud computing to process the captured data, thereby synthesizing the final stereoscopic photo or video , which can solve the problem of slow processing speed of mobile phones. At the same time, cloud storage of mass shooting data, stereoscopic photos, and videos through the cloud platform can also solve the problem of small memory in mobile phones.

Description of drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention or the prior art, the following will briefly introduce the accompanying drawings required in the embodiments. Obviously, the accompanying drawings in the following description are only some of the present invention. Embodiments, for those of ordinary skill in the art, other drawings can also be obtained according to these drawings without paying creative labor.

Fig. 1 is the structural representation of a kind of stereo camera mobile phone provided by the present invention;

Fig. 2 is a structural schematic diagram of Embodiment 1 of a stereo camera mobile phone provided by the present invention;

Fig. 3 is a structural schematic diagram of Embodiment 2 of a stereoscopic camera phone provided by the present invention;

FIG. 4 is an exploded view of the overall structure of a stereoscopic imaging device provided by the present invention;

FIG. 5 is an exploded view of the overall structure of a camera assembly provided by the present invention.

Detailed ways

The following will clearly and completely describe the technical solutions in the embodiments of the present invention with reference to the accompanying drawings in the embodiments of the present invention. Obviously, the described embodiments are only some, not all, embodiments of the present invention. Based on the embodiments of the present invention, all other embodiments obtained by persons of ordinary skill in the art without making creative efforts belong to the protection scope of the present invention.

The object of the present invention is to provide a stereoscopic camera mobile phone and a stereoscopic camera system, capable of simulating people's eyes to shoot scenes, making the photographed 3D photos and films more three-dimensional and realistic, and improving the quality of stereoscopic photography.

In order to make the above objects, features and advantages of the present invention more comprehensible, the present invention will be further described in detail below in conjunction with the accompanying drawings and specific embodiments.

FIG. 1 is a schematic structural diagram of a stereo camera phone provided by the present invention. Referring to FIG. 1 , a mobile phone with a stereo camera provided by the present invention includes: a mobile phone 1 and a plurality of cameras 2; a plurality of the cameras 2 are arranged on the mobile phone 1 for taking stereoscopic photos or videos. The number of the cameras 2 is greater than or equal to two. The plurality of cameras 2 at least include 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 It is any side such as the side of the mobile phone 1, the side where the screen is located or the back side. The distance between the first camera 2-1 and the second camera 2-2 is 55-70mm, preferably 60mm.

By setting the distance between the first camera and the second camera as the distance between the eyes of a person, the principle of observing things with the human eye can be used, and the two cameras can be used to simulate the eyes of a person to shoot the scene , which can make the 3D photos and videos taken more three-dimensional and realistic, more spatial, and have a more immersive visual shocking effect.

With the popularization of 5G communication, upload the captured 3D data to the 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 the mobile phone through 5G communication. will become possible. Therefore, the stereo camera phone of the present invention also includes: a wireless transmission module; the wireless transmission module adopts 5G communication; the wireless transmission module is arranged inside the mobile phone; the wireless transmission module is connected with the camera for collecting The stereoscopic photo or video taken by the camera, and the stereoscopic photo or video is transmitted to the cloud platform through 5G communication. After the three-dimensional photo or video is processed by the cloud platform, a processed three-dimensional photo or video is generated. The wireless transmission module is also used for downloading the processed three-dimensional photo or video on the cloud platform to the mobile phone.

When the mobile phone is shooting, the shooting data can be uploaded to the cloud platform through the wireless transmission module, and the shooting data can be processed by cloud computing, thereby synthesizing the final three-dimensional photo or video, which can solve the problem of slow processing speed of the mobile phone. At the same time, cloud storage of mass shooting data, stereoscopic photos, and videos through the cloud platform can also solve the problem of small memory in mobile phones.

The invention also provides specific embodiments of various stereo camera phones. FIG. 2 is a schematic structural diagram of Embodiment 1 of a stereo camera phone provided by the present invention. Referring to FIG. 2 , the stereo camera phone includes: a body 301 and multiple stereo camera components 302 . Multiple stereo camera components 302 are arranged on the body 301 .

The body is provided with a plurality of installation slots. There are a plurality of locking protrusions on the installation groove. The installation groove is used for installing the stereo camera assembly. The stereoscopic camera assembly is connected with a plurality of locking protrusions on the installation groove through a plurality of locking grooves. Stereo photography and imaging can be realized through multiple stereo camera components 302 .

Fig. 3 is a schematic structural diagram of Embodiment 2 of a stereo camera phone provided by the present invention. The mobile phone includes: a body 401 , a stereo camera assembly 402 and a rotating mechanism 403 . The back of the machine body is provided with a mounting groove, and the mounting groove has a plurality of engaging protrusions. The installation groove is used for installing the stereo camera assembly. The stereo camera assembly 402 is connected with a plurality of locking protrusions on the installation groove through a plurality of locking grooves. The rotating mechanism 403 is arranged on one side of the body, which can be any side of the body, up, down, left or right. The stereo camera assembly 402 is connected to one side of the body 401 through the rotating mechanism 403 .

The rotation mechanism 403 can drive the stereo camera assembly 402 to rotate 270 degrees around the side of the body 401 . At this time, the stereo camera assembly 402 is connected to the main control circuit board in the body 401 through a flexible circuit board, and the circuit of the flexible circuit board is arranged as a spiral winding type at the rotating shaft of the rotating mechanism 403, which can realize The effective connection between the main circuit board of the stereo camera assembly and the main control circuit board in the mobile phone will not affect the movement of the rotating mechanism 403, which can effectively improve the service life of the device.

By implanting components such as a frame synchronizer and a dual-camera image processing device in the main circuit board or the main control circuit board, 3D photos or videos can be directly generated on the stereoscopic camera assembly or the mobile phone to realize Stereo photography camera and display function. Moreover, when the mobile phone is shooting, the data can be uploaded to the cloud platform through 5G communication, and the captured data can be processed by cloud computing to synthesize the final three-dimensional photo or video. First, it can solve the problem of slow processing speed of the mobile phone, and second, it can Solve the problem of small mobile phone memory.

Preferably, the mobile phone can also be networked with drones, video cameras, and cameras to jointly upload shooting data. At the same time, multiple mobile phones can be used together to realize stereoscopic photography, or a mobile phone and a camera on a drone can be used to take stereoscopic photos or videos, or a mobile phone and a camera on a camera can be used to take stereoscopic photos or videos. , or through the cooperation of a mobile phone and a camera on the camera to take stereoscopic photos or videos.

In addition, the stereo camera assembly provided by the present invention can also be used in other mobile devices such as tablet computers and laptop computers in the same manner.

FIG. 4 is an exploded view of the overall structure of a stereo camera assembly provided by the present invention. Referring to FIG. 4 , a stereoscopic camera assembly provided by the present invention includes: a base 101 , a mounting hole 102 , a first camera assembly 103 , a sliding groove 104 , a sliding block 105 and a second camera assembly 106 .

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

The human eye is like a fully automatic digital camera, with a zoom lens, variable aperture and the ability to convert light signals into electrical signals that the brain can recognize. The brain can judge the depth and distance of the same object according to the magnitude of the disparity between the two received images. The farther away from the eyes, the smaller the disparity, and vice versa. This whole process is called It is stereo vision (stereovision). Stereoscopic photography is to simulate the position of both eyes to take pictures of the same object from two observation points with slight angle differences on the left and right, and then display the two photos in the same way, so that the left and right eyes can watch the photos of left vision and right vision respectively. to obtain stereoscopically reproduced 3D photos. A stereoscopic camera assembly provided by the present invention is based on the principle of stereo vision, using a dual camera assembly to simulate human eyes to shoot scenes, the first camera assembly 103 and the second camera assembly 106 are placed side by side, and the The distance between the first camera assembly 103 and the second camera assembly 106 is adjustable, so that the user can adjust the distance between the two lenses according to the actual distance of his own eyes to obtain the best shooting effect.

Generally, the distance between the eyes of a person is about 55-70 mm, so 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 be 55-70 mm. Moreover, since the average distance between human eyes is 60 mm, the distance between the lens centers of the first camera assembly 103 and the second camera assembly 106 is preferably 60 mm under the condition of universality.

A plurality of locking grooves 107 are provided on the top of the base 101 for locking connection with other devices. The base 101 is made of signal shielding material, which can effectively prevent external signal interference. The material of the base 101 may be iron alloy, manganese-based alloy, molybdenum-based alloy, silicon-based alloy, nickel-based alloy, vanadium-based alloy, tungsten-based alloy, and the like.

FIG. 5 is an exploded view of the overall structure of a camera assembly provided by the present invention. 5, taking the first camera assembly 103 as an example, the first camera assembly 103 includes: a first frame 201, a first upper elastic gasket 202, a first lens 203, a first lens holder 204, a first The lower elastic gasket 205 , the first base bracket 206 and the first circuit board 207 .

The first circuit board 207 is disposed on the bottom of the first base frame 206 . The first lower elastic spacer 205 is arranged between the first lens bracket 204 and the first base bracket 206 for the connection between the first lens bracket 204 and the first base bracket 206 buffer. The first lower elastic gasket 205 and the first upper elastic gasket 202 can be rubber pads, sponge pads or other elastic materials. The first lower elastic washer 205 and the first upper elastic washer 202 may also use leaf springs. The first frame 201 is integrally formed by casting metal, preferably iron alloy or manganese alloy material.

The first lens 203 is mounted inside the first lens holder 204 . The first upper elastic spacer 202 is located between the first frame 201 and the first lens holder 204 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 with the first circuit board 207 to form a hollow cavity with an open upper end. Preferably, a bottom opening with buckles is formed at the bottom of the first frame 201, and the first circuit board 207 is snapped into the bottom opening, so that the first circuit board 207 and the first frame 201 The bottom is even and does not increase the thickness of the first frame 201, which is beneficial to light and thin the device.

The first upper elastic gasket 202 , the first lens 203 , the first lens bracket 204 , the first lower elastic gasket 205 and the first base bracket 206 are all disposed in the accommodating cavity. In order to enhance the dust-proof effect, the gap in the accommodation chamber can be sealed by pouring glue, or foam, silica gel and other materials can be filled in the gap for sealing and dust-proof, and a dust-proof ring can also be used to effectively block external dust Wait for the entry of impurities to avoid affecting the normal use of the device.

The first lens holder 204 is a hollow hexagonal prism. A first left magnetic element 208 is disposed outside the first left side of the first lens holder 204 . A first right magnetic element 209 is disposed outside the first right side of the first lens holder. Both the first left magnetic element 208 and the first right magnetic element 209 are strip-shaped. The first left magnetic element 208 and the first right magnetic element 209 can be magnets or magnets.

The first left side is opposite to and parallel to the first right side. The first left magnetic element 208 is parallel to the first left side. The first right magnetic element 209 is parallel to the first left magnetic element. A first supporting protrusion 210 is disposed on the first left side or the second right side. A first racetrack coil 211 is mounted on the first support bump 210 . 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 parallel to the first left side.

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 driver chip integrated on the first circuit board. The voice coil motor driver chip adopts the driver ICFP5510 matched with the VCM voice coil motor, and the voice coil motor driver chip can drive the first lens 203 to focus and shoot, realize fast and accurate focusing, and obtain high-resolution photos and videos . Moreover, the magnetic field interference of the racetrack coil used in the present invention is small, which can effectively avoid the mutual interference of the magnetic elements on the two voice coil motors, affecting the normal operation of the voice coil motors, thereby obtaining a stronger magnetic field.

The first frame 201 is cube-shaped. The first frame 201 has a hollow hexagonal prism-shaped accommodation cavity inside. Both the first upper layer elastic gasket 202 and the first lower layer elastic gasket 205 have a hexagonal hole matching the hexagonal prism-shaped accommodating cavity. The first lens 203 is cylindrical. The inside of the first lens holder 204 has a hollow cylindrical accommodation cavity matching the shape of the first lens 203 for placing the first lens 203 . The bottom of the first base bracket 206 has a hexagonal hole. The top of the first lens 203 is flush with the top of the first frame 201 . In order to protect the lens, a protective lens can also be provided on the contact surface between the top of the first lens 203 and the first frame 201 .

The first lens 203 receives and shoots light 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 bracket 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 . Capacitors, photosensitive chips, voice coil motor driver chips and output interfaces are integrated on the first circuit board 207 . The output interface is a gold finger provided with a plurality of pads.

The second camera assembly has the same internal structure as the first camera assembly, has the same component size, and is symmetrical to each other with a central optical axis parallel to each other. The second camera assembly includes: a second frame, a second upper elastic spacer, a second lens, a second lens support, a second lower elastic spacer, a second base support and a second circuit board. The second circuit board is arranged at the bottom of the second base bracket; the second lower elastic gasket is arranged between the second lens bracket and the second base bracket; the second lens is installed on the second base bracket The inside of the second lens bracket; the second upper elastic gasket is located 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 A hollow accommodating cavity with an open upper end; the second upper layer elastic gasket, the second lens, the second lens bracket, the second lower layer elastic gasket and the second base bracket are all arranged in the accommodating cavity.

Optionally, the second lens holder is in the shape of a hollow hexagonal prism; a second left magnetic element is arranged outside the second left side of the second lens holder; The second right magnetic element is set; the second left side is parallel to the second right side; the second left magnetic element is parallel to the second left side; the second right magnetic element is parallel to the second right side The second left magnetic element is parallel and facing; the second left side or the second right side is provided with a second support protrusion; the second support protrusion is installed with a second racetrack coil; The second track coil is located between the second left side and the second right side, and the second track coil is parallel to the second left side.

Optionally, the second frame is in the shape of a cube; the second frame has a hollow hexagonal prism-shaped accommodating cavity; both the second upper layer elastic gasket and the second lower layer elastic gasket have a a hexagonal hole; the second lens is cylindrical; the second lens bracket has a hollow cylindrical accommodation cavity for placing the second lens; the bottom of the second base bracket has a hexagon shaped hole; the top of the second lens is flush with the top of the second frame, and the second lens is photosensitive and photographed through the hexagonal opening at the top of the second frame; the bottom of the second lens 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 to the second circuit board.

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

A main circuit board is arranged at the bottom of the base 101 . The first circuit board of the first camera assembly is connected to the main circuit board through a first flexible circuit board. The second circuit board of the second camera assembly is connected to the main circuit board through a second flexible circuit board. By arranging the flexible circuit board, the camera assembly will not cause damage to the circuit during the sliding process, thereby improving the service life of the device.

The present invention also provides a stereo camera system, which includes: the stereo camera phone and a stereo camera device.

The stereo camera mobile phone includes: a mobile phone and a plurality of cameras; a plurality of the cameras are arranged on the mobile phone for taking stereo photos or videos; the number of the cameras is greater than or equal to two; among the plurality of cameras, Including at least 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 is 60mm.

The stereoscopic camera device includes: a camera device and a lens arranged on the camera device; the lens and the camera jointly take stereoscopic photos or videos.

Optionally, the stereo camera device may be the stereo camera phone, which is equivalent to using multiple stereo camera phones to simultaneously realize stereo photography.

Optionally, the camera device is one or more of a drone, a video camera, and a camera. That is, the stereoscopic camera system provided by the present invention can realize taking stereoscopic photos or videos by cooperating with a camera on a mobile phone and a drone, and can also realize taking stereoscopic photos or videos by cooperating with a camera on a mobile phone and a video camera. Through the cooperation of a camera on a mobile phone and a camera, it is possible to take stereoscopic photos or videos. The stereo camera mobile phone can shoot 3D images of objects from multiple angles by cooperating with unmanned aerial vehicles, video cameras or cameras, so as to fit all-round dynamic 3D images of objects up, down, left, right, front and back.

The stereo camera mobile phone also includes: a first wireless transmission module; the first wireless transmission module adopts 5G communication; the first wireless transmission module is arranged inside the mobile phone; the first wireless transmission module and the camera connected, used to collect the stereoscopic photo or video taken by the camera, and transmit the stereoscopic photo or video to the cloud platform through 5G communication; the first wireless transmission module is also used to transfer the stereoscopic photo or video on the cloud platform The three-dimensional photo or video is downloaded to the mobile phone.

The stereo camera device also includes: a second wireless transmission module; the second wireless transmission module adopts 5G communication; the second wireless transmission module is arranged inside the camera device; the second wireless transmission module is connected to the The lens connection is used to collect the stereoscopic photo or video taken by the lens, and transmit the stereoscopic photo or video to the cloud platform through 5G communication; the second wireless transmission module is also used to transmit the stereoscopic photo or video on the cloud platform The stereoscopic photos or videos are downloaded to the camera device.

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 transmit the stereoscopic photos or videos synchronously to the cloud platform through 5G communication. The cloud computing processing is performed on the shooting data of the mobile phone or various camera devices through the cloud platform, which solves the problem of slow processing speed of the mobile phone and various camera devices. The three-dimensional photos and videos generated after cloud computing processing are stored as cloud data, and mobile phones and camera devices can be downloaded and viewed from the cloud platform at any time, which solves the problem of small memory in mobile phones. Due to the high communication speed of 5G, it will hardly prolong the time from shooting to viewing stereoscopic photos and videos on mobile phones.

In this paper, specific examples have been used to illustrate the principle and implementation of the present invention. The description of the above embodiments is only used to help understand the method of the present invention and its core idea; meanwhile, for those of ordinary skill in the art, according to the present invention Thoughts, there will be changes in specific implementation methods and application ranges. In summary, the contents of this specification should not be construed as limiting the present invention.

Claims (10)

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.