CN110248006B

CN110248006B - Light and thin 3D camera of mobile phone

Info

Publication number: CN110248006B
Application number: CN201910575364.5A
Authority: CN
Inventors: 李峥炜
Original assignee: Wuhan Contemporary Hualu Photoelectric Technology Co ltd
Current assignee: Wuhan contemporary Hualu Photoelectric Technology Co.,Ltd.
Priority date: 2019-06-28
Filing date: 2019-06-28
Publication date: 2021-04-23
Anticipated expiration: 2039-06-28
Also published as: CN110248006A

Abstract

The invention relates to a light and thin 3D camera of a mobile phone, which comprises a body of the camera fixedly arranged on a shell, wherein the body comprises a circuit connecting substrate and a camera lens group, a sliding groove is formed in the shell, and an adjusting body is arranged in the sliding groove in a sliding manner; a matched limit convex strip and a limit groove are arranged between the sliding chute and the adjusting body; the adjusting body comprises a zoom lens group and a direction adjusting lens group; the zoom lens group comprises a group of lenses capable of zooming and collecting images, the zoomed images are reflected by a group of reflectors to be adjusted in direction, and the group of reflectors are the direction-adjusting lens group; the image emitted from the direction-adjusting lens group is transmitted along the axial direction of the lens; a new idea is provided for improving the camera shooting quality of the light and thin mobile phone; the camera can effectively reduce the thickness of the mobile phone when the camera is assembled on the mobile phone on the premise of ensuring the shooting quality of the camera lens, thereby balancing the thickness and the appearance of the mobile phone.

Description

Light and thin 3D camera of mobile phone

Technical Field

The invention relates to a mobile phone component, in particular to a camera.

Background

Nowadays, science and technology products are different day by day, and the field of smart phones is developed at a high speed; mobile phones begin to become essential products for life of people, more and more electronic products are replaced by mobile phones, and even a mobile phone can be carried all the day around; the smart phone gradually has excess performance from the first pursuit of performance to the present, and the present mobile phone can replace MP3, a player and a television, and even can replace a computer; with the development of the mobile phone, the center of gravity is shifted to the camera from performance, the smart phone has a tendency to replace a common camera, especially the recent rapid development of 3D photography, and the progress of the mobile phone camera can enable everyone to become a small photographer; according to the current aesthetic feeling, people like pursuing a light and thin mobile phone appearance, and the lighter and thinner the mobile phone size, the more beautiful the lines; however, according to the camera shooting principle of the traditional camera, the camera has to have enough height to realize high-quality camera shooting, and particularly, the size of a long-focus lens is large; therefore, in order to pursue a better camera shooting effect, mobile phone developers begin to compromise on the thickness of the mobile phone, and a currently popular camera-protruding mobile phone appears, so that the design destroys the simplicity and smoothness of the mobile phone, and seriously affects the aesthetic feeling of the mobile phone.

Disclosure of Invention

Aiming at the problems, the invention provides a camera which provides a new idea for improving the camera shooting quality of a light and thin mobile phone; the camera can effectively reduce the thickness of the mobile phone when the camera is assembled on the mobile phone on the premise of ensuring the shooting quality of the camera lens, thereby balancing the thickness and the appearance of the mobile phone.

In order to solve the problems, the technical scheme adopted by the invention is as follows: the light and thin 3D camera of the mobile phone comprises a body of the camera fixedly arranged on a shell, wherein the body comprises a circuit connecting substrate, an image sensor, a focusing motor and a camera lens group, and a protective film is arranged on the surface of the camera lens group;

a connecting line from the image sensor to the camera lens group is a lens axis, and the lens axis is not parallel to the thickness direction of the mobile phone;

the shell is provided with a sliding groove extending along the axis direction of the lens, an adjusting body is arranged in the sliding groove in a sliding manner, and the adjusting body can slide in the sliding groove in a damping manner; a matched limit convex strip and a limit groove are arranged between the sliding chute and the adjusting body; the adjusting body comprises a zoom lens group and a direction adjusting lens group; the zoom lens group comprises a group of lenses capable of zooming and collecting images, the zoomed images are reflected by a group of reflectors to be adjusted in direction, and the group of reflectors are the direction-adjusting lens group; the image emitted from the direction-adjusting lens group is propagated along the axial direction of the lens.

Preferably, the body, the sliding groove and the adjusting body are a group of cameras, and more than two groups of cameras are arranged on the shell; so as to take 3D images.

Preferably, the chutes in the two groups of the cameras are in the same straight line, and the camera lens groups are arranged oppositely; the structure can simulate the eyes of a human body, and can perform personalized adjustment according to the difference of the distances between the axes of the eyes, so that three-dimensional images meeting different user groups are shot.

Preferably, the chutes in the two groups of cameras are arranged in parallel, and the camera lens groups are arranged on different sides of the chutes; so as to shoot the stereoscopic image from more angles, thereby improving the stereoscopic effect of the image.

Preferably, a flash lamp is arranged on the body, and the irradiation direction of the flash lamp is parallel to the sliding chute; the light of the flash lamp is transmitted to the lens group and the zoom lens group through the direction regulator and is used for supplementing light to an object to be shot; the structure can avoid the flash lamp from directly irradiating human eyes, thereby weakening the red eye phenomenon when the portrait is shot, simultaneously avoiding the flash lamp from stimulating the human eyes, and having safer use and more comfortable shooting.

Preferably, a flash lamp is arranged on the adjusting body; therefore, the flash lamp can move along with the zoom lens group, and the scene can be conveniently and accurately polished.

The invention has the beneficial effects that: the traditional mobile phone camera is arranged along the thickness direction of the mobile phone, and the camera of the mobile phone protrudes out of the back shell or the front surface due to the fact that the camera is higher, so that the aesthetic feeling of the mobile phone is affected; in the invention, the body is not parallel to the thickness direction of the mobile phone and can be set to be parallel to the back shell of the mobile phone, and the size of the camera does not limit the thickness of the mobile phone, so that the thickness of the mobile phone can be effectively reduced; meanwhile, the body arranged in the direction is not limited by height, so that the mountable size of the camera can be effectively increased, and the camera with higher shooting quality and larger size can be assembled for the mobile phone.

In the using process, the zooming lens group on the adjusting body can shoot and zoom the scenery, and then the scenery is spread to the lens group by adjusting, so that the zoomed scenery is transmitted to the camera lens group along the direction of the sliding groove and is further processed and imaged by the mobile phone; because the image that the lens group of adjusting to jetted out propagates along the camera lens axis direction, therefore no matter how the regulating body is the translation in the spout, this group of camera shooting body homoenergetic is effectively taken.

When a mobile phone has more than two groups of cameras, the two groups of cameras can be used for shooting at multiple angles, so that a 3D image is formed; when the shooting lens groups are oppositely arranged, the structure can simulate the two eyes of a human body, and a stereo picture is shot like a scene observed by the two eyes of a human body; meanwhile, the structure can be used for carrying out personalized adjustment according to different wheelbases of human eyes, so that three-dimensional images meeting different user groups are shot, and people with different wheelbases of human eyes can obtain comfortable visual experience; in addition, when one mobile phone has multiple groups of cameras, the camera can shoot scenes from more angles, so that film and television works with better stereoscopic effect are provided for users.

When shooting scenes with insufficient light, such as night scenes, and the like, a flash lamp is needed, and the flash lamp can be arranged on the adjusting body and also can be assembled on the body; the flashlight assembled on the adjusting body can move along with the lens, so that the object to be shot can be accurately illuminated by light; the flash lamp is assembled on the body, and the irradiation direction of the flash lamp is parallel to the sliding chute; the light of the flash lamp is transmitted to the lens group and the zoom lens group through the direction regulator and is used for supplementing light to an object to be shot; the structure can avoid the flash lamp from directly irradiating human eyes, thereby weakening the red eye phenomenon when the portrait is shot, simultaneously avoiding the flash lamp from stimulating the human eyes, and having safer use and more comfortable shooting.

To sum up, the camera can fully improve the performance of the camera under the condition of ensuring the lightness and thinness of the mobile phone, provides a larger and wider development space for the mobile phone camera, and provides a new idea for the progress of the mobile phone camera.

Drawings

Fig. 1 is a schematic top view of a thin 3D camera of the mobile phone according to an embodiment.

Fig. 2 is an enlarged sectional structure view of the embodiment shown in fig. 1.

Detailed Description

Example (b):

in the embodiment shown in fig. 1 and 2, the mobile phone light and thin 3D camera includes a body 2 of the camera fixedly mounted on a housing 1, the body 2 includes a circuit connection substrate 21, an image sensor, a focusing motor and a camera lens group 22, and a protective film is disposed on a surface of the camera lens group 22;

the line connecting the image sensor to the image capturing lens group 22 is the lens axis 3, as shown by the dashed-dotted line in fig. 2; the lens axis 3 is not parallel to the thickness direction of the mobile phone;

a sliding groove 4 extending along the lens axis 3 direction is formed in the shell 1, a flash lamp 5 is arranged on the body 2, and the irradiation direction of the flash lamp 5 is parallel to the sliding groove 4; an adjusting body 6 is arranged in the sliding groove 4, and the adjusting body 6 can slide in the sliding groove 4 in a damping manner; a matched limit convex strip and a limit groove are arranged between the sliding groove 4 and the adjusting body 6; the adjusting body 6 comprises a zoom lens group 61 and a direction adjusting lens group 62; the zoom lens group 61 includes a group of lenses capable of zooming and collecting images, and the zoomed images are reflected and steered by a group of reflectors, wherein the group of reflectors are the direction-adjusting lens group 62; the image emitted from the redirecting lens group 62 propagates along the lens axis 3, as shown by the dashed trace in fig. 2; the body 2, the chute 4 and the adjusting body 6 form a group of cameras 7, and more than two groups of cameras 7 are arranged on the shell 1; so as to take 3D images.

The traditional mobile phone camera is arranged along the thickness direction of the mobile phone, and the camera of the mobile phone protrudes out of the back shell or the front surface due to the fact that the camera is higher, so that the aesthetic feeling of the mobile phone is affected; in the invention, the body 2 is not parallel to the thickness direction of the mobile phone and can be set to be parallel to the back shell of the mobile phone, and the size of the camera does not limit the thickness of the mobile phone, so that the thickness of the mobile phone can be effectively reduced; meanwhile, the body 2 arranged in the direction has no height limitation, so that the mountable size of the camera can be effectively increased, and the camera with higher shooting quality and larger size can be assembled for the mobile phone.

In the using process, the zooming lens group 61 on the adjusting body 6 can shoot and zoom the scenery, and then the scenery is spread to the lens group 62, so that the zoomed scenery is transmitted to the camera lens group 22 along the direction of the sliding groove 4, and then is processed and imaged by the mobile phone; since the image emitted to the lens group 62 propagates along the lens axis 3, the group of the image pickup objects 7 can be effectively picked up no matter how the adjusting body 6 is translated in the slide groove 4.

When a mobile phone has more than two groups of cameras 7, the two groups of cameras 7 can be used for shooting at multiple angles, so that a 3D image is formed; for example, when the sliding grooves 4 in the two groups of cameras 7 are in the same straight line and the camera lens groups 22 are arranged oppositely, the structure can simulate the two eyes of a human body, and take a stereoscopic picture as if the two eyes of a person observe a scene; meanwhile, the structure can be used for carrying out personalized adjustment according to different wheelbases of human eyes, so that three-dimensional images meeting different user groups are shot, and people with different wheelbases of human eyes can obtain comfortable visual experience; in addition, when one mobile phone has multiple groups of cameras 7, the camera can shoot scenes from more angles, so that film and television works with better stereoscopic effect are provided for users.

When shooting scenes with insufficient light, such as night scenes, a flash lamp 5 is needed; in the present embodiment, the flash 5 is assembled on the body 2, and the light of the flash 5 is transmitted to the lens group 62 and the zoom lens group 61 through adjustment and fills light to the object to be photographed; the structure can prevent the flash lamp 5 from directly irradiating human eyes, thereby weakening the red eye phenomenon during portrait shooting, simultaneously preventing the flash lamp 5 from stimulating the human eyes, and having safer use and more comfortable shooting; in addition, the flash 5 can be arranged on the adjusting body 6, so that the flash 5 can move along with the zoom lens group 61, and the scene can be conveniently and accurately polished.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims

1. A mobile phone light and thin 3D camera comprises a body (2) of the camera fixedly mounted on a shell (1), wherein the body (2) comprises a circuit connecting substrate (21), an image sensor, a focusing motor and a camera lens group (22), and a protective film is arranged on the surface of the camera lens group (22); the method is characterized in that: a connecting line from the image sensor to the camera lens group (22) is a lens axis (3), and the lens axis (3) is not parallel to the thickness direction of the mobile phone; a sliding groove (4) extending along the lens axis (3) direction is formed in the shell (1), an adjusting body (6) is arranged in the sliding groove (4) in a sliding mode, and the adjusting body (6) can slide in the sliding groove (4) in a damping mode; a matched limit convex strip and a limit groove are arranged between the sliding chute (4) and the adjusting body (6); the adjusting body (6) comprises a zoom lens group (61) and a direction adjusting lens group (62); the zoom lens group (61) comprises a group of lenses capable of zooming and collecting images, the zoomed images are reflected and steered by a group of reflectors, and the group of reflectors are the steering lens group (62); the image emitted from the direction-adjusting lens group (62) propagates along the direction of the lens axis (3).

2. The thin and thin 3D camera of claim 1, wherein: the body (2), the sliding groove (4) and the adjusting body (6) are a group of camera bodies (7), and more than two groups of camera bodies (7) are arranged on the shell (1).

3. The thin and thin 3D camera of claim 2, wherein: the chutes (4) in the two groups of cameras (7) are in the same straight line, and the camera lens groups (22) are arranged oppositely.

4. The thin and thin 3D camera of claim 2, wherein: the chutes (4) of the two groups of cameras (7) are arranged in parallel, and the camera lens groups (22) are arranged on different sides of the chutes (4).

5. The thin and thin 3D camera of mobile phone according to any one of claims 1 to 4, wherein: the body (2) is provided with a flash lamp (5), and the irradiation direction of the flash lamp (5) is parallel to the sliding chute (4).

6. The thin and thin 3D camera of mobile phone according to any one of claims 1 to 4, wherein: the adjusting body (6) is provided with a flash lamp (5).