CN213637901U - Electronic device - Google Patents

Abstract

The application discloses electronic equipment belongs to the technical field of communication. The electronic equipment comprises a shell, a rotating component, a reflector, a plurality of cameras and a driving mechanism; an accommodating space is formed in the shell, a light hole communicated with the accommodating space is formed in the shell, and the rotating assembly, the reflector and the camera are arranged in the accommodating space; the reflector is fixedly arranged on the rotating assembly; at least two cameras are arranged around the rotating assembly; the rotating assembly is connected with the driving mechanism; under the first state, the reflector simultaneously faces towards the light transmitting hole and the first camera, so that light passing through the light transmitting hole is reflected by the reflector and then enters the first camera, and under the second state, the reflector simultaneously faces towards the light transmitting hole and the second camera, so that light passing through the light transmitting hole is reflected by the reflector and then enters the second camera. Like this, can reduce the window trompil of seting up on the electronic equipment many, and then reduce the waterproof degree of difficulty of camera.

Description

Electronic device

Technical Field

The application belongs to the technical field of communication, and particularly relates to an electronic device.

Background

With the continuous development of electronic devices, the performance requirements of electronic devices are also continuously improved. The camera module is used as a shooting device of the electronic equipment, and the function of the camera module also influences the performance of the electronic equipment.

At present, in order to increase the function of camera module, camera module can include a plurality of cameras usually, includes wide camera, super wide camera, long focus camera and depth of field camera etc. simultaneously like a camera module.

However, in the process of implementing the present application, the inventors found that at least the following problems exist in the prior art: along with the increase of camera number, the window trompil of seting up also increases thereupon on electronic equipment, and then has increased the waterproof degree of difficulty of camera module.

SUMMERY OF THE UTILITY MODEL

The embodiment of the application aims to provide electronic equipment which can solve the problem that windows are too many in openings due to the fact that the number of cameras is increased.

In order to solve the technical problem, the present application is implemented as follows:

in a first aspect, an embodiment of the present application provides an electronic device, which includes a housing, a rotating assembly, a reflective mirror, a plurality of cameras, and a driving mechanism;

an accommodating space is formed in the shell, a light hole communicated with the accommodating space is formed in the shell, and the rotating assembly, the reflector and the camera are arranged in the accommodating space;

the reflector is fixedly arranged on the rotating assembly;

the at least two cameras are arranged around the rotating assembly and comprise a first camera and a second camera;

the rotating assembly is connected with the driving mechanism;

the rotating assembly drives the reflector to switch between a plurality of states under the driving of the driving mechanism, in the first state, the reflector faces the light hole and the first camera at the same time so that light passing through the light hole is reflected by the reflector and then enters the first camera, and in the second state, the reflector faces the light hole and the second camera at the same time so that light passing through the light hole is reflected by the reflector and then enters the second camera.

It can be seen from the above-mentioned embodiment that, in this application embodiment, because under actuating mechanism's drive, the runner assembly drives the reflector and switches between a plurality of states, under first state, the reflector is simultaneously towards light trap and first camera to make the light that passes through the light trap inject first camera after the reflector reflection, under the second state, the reflector is simultaneously towards light trap and second camera, so that the light that passes through the light trap injects the second camera after the reflector reflection. Therefore, the light receiving surface of the first camera and the light receiving surface of the second camera can face the reflecting surface of the reflector, so that light can be reflected to the light receiving surface of the first camera or the light receiving surface of the second camera through the reflecting surface of the reflector. On the other hand, because the camera is fixed inside the shell, the risk of cracking and damaging the lens of the camera can be reduced.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings needed to be used in the description of the embodiments of the present application will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without inventive exercise.

FIG. 1 is a schematic structural diagram of an electronic device provided herein;

FIG. 2 is a schematic structural view of an exterior of a housing included in an electronic device provided herein;

FIG. 3 is a schematic diagram of a first imaging of a camera provided herein;

FIG. 4 is a schematic diagram of a second imaging of a camera provided herein;

FIG. 5 is a first focusing diagram of a camera provided herein;

FIG. 6 is a second schematic focusing diagram of a camera provided herein;

fig. 7 is a third schematic focusing diagram of the camera provided in the present application.

Reference numerals:

1-a shell; 2-a rotating assembly; 3-a camera; 4-a reflector; 5 an optical lens; 11-an accommodating space; 12-light-transmitting holes; 21-rotating table.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some, but not all, embodiments of the present application. 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 application.

The terms first, second and the like in the description and in the claims of the present application are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used is interchangeable under appropriate circumstances such that the embodiments of the application are capable of operation in sequences other than those illustrated or described herein. In addition, "and/or" in the specification and claims means at least one of connected objects, a character "/" generally means that a preceding and succeeding related objects are in an "or" relationship.

The electronic device provided by the embodiment of the present application is described in detail below with reference to the accompanying drawings through specific embodiments and application scenarios thereof. Fig. 1 is a schematic structural diagram of an electronic apparatus provided in the present application, and fig. 2 is a schematic structural diagram of an exterior of a housing 1 included in the electronic apparatus provided in the present application, and as shown in fig. 1 and fig. 2, the electronic apparatus includes a housing 1, a rotating assembly 2, a mirror 4, a plurality of cameras 3, and a driving mechanism; an accommodating space 11 is formed inside the shell 1, a light hole 12 communicated with the accommodating space 11 is formed in the shell 1, and the rotating assembly 2, the reflector 4 and the camera 3 are arranged in the accommodating space 11; the reflector 4 is fixedly arranged on the rotating assembly 2; the at least two cameras 3 are arranged around the rotating assembly 2, and the at least two cameras 3 comprise a first camera and a second camera; the rotating assembly 2 is connected with a driving mechanism; wherein, under actuating mechanism's drive, rotating assembly 2 drives reflector 4 and switches between a plurality of states, and under the first state, reflector 4 is towards light trap 12 and first camera simultaneously to make the light that passes through light trap 12 inject first camera after reflector 4 reflects, and under the second state, reflector 4 is towards light trap 12 and second camera simultaneously, so that the light that passes through light trap 12 injects the second camera after reflector 4 reflects.

The housing 1 may include a stand and an equipment enclosure, among others. The inside of equipment shell forms accommodation space 11, is provided with the light trap 12 with accommodation space 11 intercommunication on the equipment shell for see through light, and the support is fixed in accommodation space 11, and in addition, rotating assembly 2, reflector 4 and camera 3 also set up in accommodation space 11.

Specifically, the bracket is mainly used for supporting and fixing accessories of the electronic equipment, such as a key assembly, the camera 3, a receiver and the like. The bracket is usually made of hard plastic or aluminum alloy material, so that the bracket has certain strength and plasticity. In the embodiment of the present application, the rotating assembly 2 may be hinged on the bracket, so that the rotating assembly 2 can rotate on the bracket. In addition, a clamping groove can be formed in the support, the camera 3 is fixed on the base, and the base is clamped in the clamping groove. Specifically, can set up the joint arch on the base, realize the joint of camera 3 and base through the joint arch of joint and joint groove, and then make camera 3 can the monolithic stationary on the support, and when camera 3 takes place to damage, also can convenient and fast more dismantle camera 3 from the support down, make things convenient for the dismantlement and the change of this camera 3 more.

At least two cameras 3 encircle and rotate 2 settings of subassembly, and at least two cameras 3 include first camera and second camera, and first camera and second camera all can include camera lens, fixer and color filter, sensor and other parts. In a possible implementation, the working principle of the camera 3 may be: the lens projects the generated optical signal onto the sensor, then the optical signal is converted into an electric signal, the electric signal is converted into a digital signal, the digital signal is processed and then transmitted to the printed circuit board for processing, and finally the digital signal is converted into an image which can be seen on a screen of the electronic equipment,

it should be noted that each camera 3 may include one or more pieces of optical glass, and each camera 3 includes at least one convex lens and at least one concave lens. As shown in fig. 5 to 7, taking an example in which the camera 3 includes one convex lens and one concave lens, the focal length of the camera 3 changes with a change in the distance between the convex lens and the concave lens, in other words, the lens position inside the camera 3 changes when the camera 3 performs a zoom operation. In the embodiment of the present application, the lens position inside each camera 3 may be made different, that is, the focal length inside each camera 3 is different.

In the embodiment of the present application, the reflective mirror 4 is fixed on the rotating assembly 2, and the reflective surface of the reflective mirror 4 faces the light-transmitting hole 12 and the at least one camera 3, so that external light can be reflected by the reflective mirror 4 to reflect the light onto the light-receiving surface of the camera 3. It should be noted that the mirror 4 may be a mirror 4 sheet, but the mirror 43 may also be other devices, such as a metal member having a polished surface, which can reflect light. The type of the mirror 4 is not limited in the embodiments of the present application.

In addition, as shown in fig. 2, a light hole 12 is formed in the housing 1 for light to pass through, specifically, the housing 1 may include a shell or a battery cover, and usually, the light hole 12 may be formed in the battery cover, so as to facilitate shooting by a user. The projection of the light-transmitting hole 12 covers the mirror 4 so that the light can be totally reflected on the light-receiving surface of the camera 3. Specifically, the area of the hole surface of the light hole 12 may be greater than or equal to the projection of the reflecting surface of the reflective mirror 4 along the axis direction of the light hole 12, so that the reflecting surface of the reflective mirror 4 has no area where light cannot shine, and further the camera 3 cannot generate black spots after imaging. It should be noted that, after the camera 3 provided in the embodiment of the present application is installed in the electronic device, the light receiving surface of the first camera and the light receiving surface of the second camera included in the camera 3 may both face the reflecting surface of the reflective mirror 4, so that the light may be reflected onto the light receiving surface of each camera 3 through the reflecting surface of the reflective mirror 4. Because only need set up a light trap 12 on the casing 1, trompil quantity reduces, makes the window trompil on the electronic equipment reduce, and then improves electronic equipment's wholeness, prolongs electronic equipment's life, promotes user experience.

The rotating assembly 2 is connected to a driving mechanism, specifically, in the embodiment of the present application, the driving mechanism may be a motor, but of course, the driving mechanism may also be other components capable of driving, and the embodiment of the present application is not limited herein. As shown in fig. 3, taking the driving mechanism as an example of a motor, the rotating assembly 2 may include a rotating table 21, an output shaft of the driving motor is connected to one end of the rotating shaft through a coupling and other devices, and the other end of the rotating shaft is hinged to the rotating table 21, so that the rotating shaft can be driven to rotate during the rotation of the motor, and the rotating table 21 can drive the reflective mirror 4 to rotate during the rotation of the rotating table 21, so that the reflective surface of the reflective mirror 4 rotates, and further, different cameras 3 are opposite to the reflective surface, and further, different shooting effects are achieved.

Wherein, under actuating mechanism's drive, rotating assembly 2 drives reflector 4 and switches between a plurality of states, and under the first state, reflector 4 is towards light trap 12 and first camera simultaneously to make the light that passes through light trap 12 inject first camera after reflector 4 reflects, and under the second state, reflector 4 is towards light trap 12 and second camera simultaneously, so that the light that passes through light trap 12 injects the second camera after reflector 4 reflects.

Specifically, the reflective mirror 4 includes a reflective surface, and the reflective surface can be made to face different cameras 3 by the rotation of the rotating assembly 2. Taking the camera 3 including the first camera and the second camera as an example, the first camera and the second camera are arranged oppositely, the light receiving surface of the first camera can face the light receiving surface of the second camera, the reflective mirror 4 can be arranged between the light receiving surface of the first camera and the light receiving surface of the second camera, the reflective mirror 4 is connected with the rotating component 2, and the rotating component 2 can be hinged on the bracket through a rotating shaft, so that the rotating component 2 can rotate around the rotating shaft under the driving of the driving component, and further the reflective mirror 4 is driven to rotate according to a preset angle. The preset angle may be an angle of rotation of the rotating assembly 2, for example, if an angle value that the reflecting surface of the reflective mirror 4 needs to be rotated from the first camera to the second camera relative to the rotating assembly 2 is 120 °, the preset angle value is 120 °. The preset angle can be determined according to the size of the included angle between two adjacent cameras 3, namely, the rotating shaft is used as a common end point, and the line where the two adjacent cameras 3 are located is the size of the included angle formed by rays.

It should be further noted that, during the rotation of the rotating assembly 2, the rotating assembly 2 can drive the reflective mirror 4 to rotate, so as to rotate the reflective surface of the reflective mirror 4. During the rotation of the reflective mirror 4 along with the rotating component 2, the reflective surface of the reflective mirror 4 may face the light receiving surface of the first camera and the light receiving surface of the second camera in sequence. In the first state, when the reflecting surface of the reflector rotates to the first position, the reflecting surface may face the light receiving surface of the first camera and the light transmitting hole 12 simultaneously, and at this time, the light passing through the light transmitting hole 12 is reflected by the reflecting surface and enters the light receiving surface of the first camera. In the second state, when the reflecting surface rotates to the second position, the reflecting surface may face both the light receiving surface of the second camera and the light transmitting hole 12, and at this time, the light passing through the light transmitting hole 12 is reflected by the reflecting surface and enters the light receiving surface of the second camera. And the included angle formed between the first position and the rotating dots, the included angle formed between the second position and the rotating dots are preset included angles. Like this, when predetermineeing the contained angle and changing, runner assembly 2 has rotated different angles promptly, and the plane of reflection is towards different camera 3 respectively promptly, like this, can be so that a plurality of cameras 3 share light trap 12 and shoot, and then reduce the window trompil of seting up on the electronic equipment.

As can be seen from the foregoing embodiments, in the embodiment of the present application, the rotating assembly 2 drives the reflective mirror 4 to switch between a plurality of states under the driving of the driving mechanism, in the first state, the reflective mirror 4 faces the light-transmitting hole 12 and the first camera at the same time, so that the light passing through the light-transmitting hole 12 is reflected by the reflective mirror 4 and then enters the first camera, and in the second state, the reflective mirror 4 faces the light-transmitting hole 12 and the second camera at the same time, so that the light passing through the light-transmitting hole 12 is reflected by the reflective mirror 4 and then enters the second camera. Therefore, the light receiving surface of the first camera and the light receiving surface of the second camera can both face the reflecting surface of the reflective mirror 4, so that light can be reflected to the light receiving surface of the first camera or the light receiving surface of the second camera through the reflecting surface of the reflective mirror 4, and therefore on one hand, the first camera and the second camera can share one light transmission hole 12 for shooting, the number of open holes of a window formed in the electronic equipment can be reduced, and the difficulty of water and dust prevention of the camera 3 is further reduced. On the other hand, since the camera 3 is fixed inside the housing 1, the risk of cracking and damaging the lens of the camera 1 can be reduced.

Optionally, the electronic device further includes a support, and the rotating assembly 2 includes a turntable 21 and a rotating shaft; the bracket is fixed in the accommodating space 11, one end of the rotating shaft is hinged on the bracket, and the other end of the rotating shaft is fixed on the rotary table 21; the driving mechanism comprises a rack and a driving motor, the driving motor drives the rack to move, the rack drives the rotating shaft to rotate, and the rotating shaft drives the rotating table 21 to rotate.

Specifically, the bracket is fixed in the accommodating space 11, and the bracket is mainly used for supporting and fixing accessories of the electronic device, such as a key assembly, the camera 3, a telephone receiver and the like. The bracket is usually made of hard plastic or aluminum alloy material, so that the bracket has certain strength and plasticity. In the embodiment of the present application, the rotating assembly 2 may be hinged on the bracket, so that the rotating assembly 2 can rotate on the bracket. In addition, a clamping groove can be formed in the support, the camera 3 is fixed on the base, and the base is clamped in the clamping groove. Specifically, can set up the joint arch on the base, realize the joint of camera 3 and base through the joint arch of joint and joint groove, and then make camera 3 can the monolithic stationary on the support, and when camera 3 takes place to damage, also can convenient and fast more dismantle camera 3 from the support down, make things convenient for the dismantlement and the change of this camera 3 more.

The turntable 21 may be a rotating body having a circumferential surface such as a cylinder or a circular table, and the turntable 21 may be made of a hard plastic or an aluminum alloy material. Driving motor can pass through ball and rack connection, when the assembly, the drive shaft cooperation that shaft coupling and driving motor were passed through to ball's one end is connected, so that ball and the coaxial rotation of drive shaft, ball's the other end is provided with the nut seat, the nut seat includes the internal thread, the internal thread of nut seat and ball's external screw thread cooperation are connected, rack and nut seat fixed connection, like this, when driving motor's drive shaft rotates, it rotates to drive ball, make the nut seat along the length direction motion that moves ball, and then drive the rack motion. One end of the rotating shaft can be fixedly connected with the rotary table 21, the other end of the rotating shaft can be fixedly connected with the gear, the gear and the rotary table 21 rotate coaxially, and the gear is meshed with the rack. Like this, when the rack moved under driving motor's drive, can drive gear revolve, because gear and revolving stage 21 coaxial rotation, like this, revolving stage 21 can rotate along with the gear together, and then makes the reflection of light face of the reflector 4 that sets up on the revolving stage 21 can face different camera 3.

It should be noted that the turntable 21 may further be fixed with a first gear, the support may be fixed with a second gear, the first gear is engaged with the second gear, and the second gear is driven to rotate by a structure of the motor matching with the rack, so that the first gear rotates simultaneously to drive the turntable 21 to rotate, thereby realizing rotation of the reflecting surface of the reflector 4. In addition, the rotary table 21 can also rotate through other rotating structures, which is not described in detail herein.

Optionally, the electronic device further includes an optical lens 5; the optical lens 5 is disposed on the rotating component 2, and the reflective mirror 4 faces both the light-transmitting hole 12 and the optical lens 5, so that the light passing through the light-transmitting hole 12 is reflected by the reflective mirror 4 and then enters the optical lens 5.

Specifically, the optical lens 5 may be one of a focus lens, which may include a plurality of lens groups, and the focus lens focuses mainly by changing the relative positions of the lens groups. In the embodiment of the application, since the internal focal length of each camera 3 is fixed, the zoom range of the camera 3 assembly can be increased by adding the optical lens 5 between the camera 3 and the mirror 4. Illustratively, if the camera 3 assembly comprises a first camera, a second camera and a third camera 3, the focal length of the first camera is 10mm, the focal length of the second camera is 20mm, and the focal length of the third camera 3 is 30mm, then if it is desired to achieve a focal length adjustment within 10mm to 20mm, for example, 15mm, it is necessary to complete the adjustment by means of the optical lens 5. Further, the optical paths of the optical lens 5 and the optical lens 5 are added as shown in fig. 4 and 3, respectively, as shown in fig. 3 and 4, and the added optical lens 5 has a wider focusing range than the optical lens 5 is not added.

It should be noted that, in the embodiment of the present application, if the reflective mirror 4 includes a reflective surface, the optical lens 5 may be fixed on the rotating assembly 2, and the reflective surface of the reflective mirror 4 is opposite to the light receiving surface of the optical lens 5, and when the rotating assembly 2 rotates, the optical lens 5 may rotate along with the reflective mirror 4, so that each camera 3 may zoom through the optical lens 5.

Alternatively, each camera 3 is at a different distance from the mirror 4.

It should be noted that, since the functions of the camera 3 are different, the angle of view of the camera 3 is different, and the angle of view determining factor is the relative position between the camera 3 and the mirror 4, for example, the angle of view of a standard lens is about 45 °, the angle of view of a telephoto lens is about 40 °, and the angle of view of a wide-angle lens is 60 ° or more. Therefore, the distance from each camera 3 to the reflective mirror 4 is different, and the requirement of the angle of view of each camera 3 can be met, so that the function of each camera 3 is maximized.

Optionally, the electronic device further comprises a processor and a receiving member; the accommodating piece is fixed in the accommodating space 11, a light inlet hole is formed in the accommodating piece, and the light inlet hole is aligned with the light hole 12; the accommodating piece is internally provided with an accommodating cavity, the reflector 4 and the plurality of cameras 3 are both arranged in the accommodating cavity, and the accommodating piece is provided with a contact point; the processor is fixed in the accommodation space 11, and the camera 3 and the rotating assembly 2 are electrically connected with the processor through contact contacts.

Specifically, the holding piece can be rigid plastic shell 1 or aluminum alloy shell 1 etc. to make the holding piece possess certain intensity and plasticity, and then can play the effect of inside camera 3 of protection, and then prolong camera 3's life. In addition, the accommodating piece is provided with a light inlet hole, the light inlet hole is aligned with the light hole 12, and then the accommodating piece cannot influence the imaging path of the camera 3. Therefore, the camera 3 is installed in the electronic equipment or the camera 3 is detached from the electronic equipment, and the camera 3 is only required to be installed or detached in a whole, so that the maintenance and the replacement in the later period are more convenient.

In addition, it should be noted that the wiring of each camera 3 can be integrated on the contact point included by the accommodating part, and the contact point contacts with the contact point of the electronic device, so that the wiring of the camera 3 is completed, the problem that the wiring is complicated due to the excessive number of the cameras 3 and occupies the internal installation space of the electronic device is avoided, and the problem that the wiring is easy to damage due to the complicated wiring can be solved.

It should be further noted that, the processor may include circuit control devices such as a circuit board assembly and a processing chip, when the processor includes the circuit board assembly, the circuit board assembly may be any one of a single-panel type printed circuit board, a dual-panel type printed circuit board, a four-panel type printed circuit board, a six-panel type printed circuit board and other multi-layer printed circuit boards, and the camera 3 and the rotating assembly 2 are electrically connected to the processor through contact contacts, so as to control different cameras 3 of the camera 3 to operate through the processor.

Alternatively, the focal length of each camera 3 is different.

Specifically, when the focal length of each camera 3 is different, when the different cameras 3 are opposite to the reflecting surface of the reflector 4, the shooting function is different, so that the function of the camera 3 is diversified, and the product performance of the camera 3 is improved. Exemplarily, the camera 3 includes a standard lens, a telephoto lens and a wide-angle lens, so that the camera 3 can have multiple shooting modes, and the operation experience of the user is improved.

Optionally, the electronic device further comprises a plurality of sliding assemblies; a plurality of sliding component fix in the inside of casing 1, every camera 3 all with a sliding component sliding connection, and sliding component's slip direction and camera 3's light path direction are unanimous.

Specifically, when the distance between the camera 3 and the mirror 4 is changed, the angle of view of the camera 3 can be changed. Based on this, a sliding component can be connected to each camera 3, and when the field angle of the camera 3 needs to be changed, the camera 3 can be controlled to move along the optical path direction towards the direction close to the reflective mirror 4 and the direction far away from the reflective mirror 4, so that the field angle selection range of the camera 3 is wider.

Optionally, the sliding assembly includes a sliding rail and a sliding block; the slide rail is fixed in the casing 1, and slider and camera 3 fixed connection, the slider slides along the length direction of slide rail, and wherein, the length direction of slide rail is unanimous with the light path direction of camera 3.

Specifically, when the slider and the camera 3 are fixedly connected, the slider can drive the camera 3 to move along the light path direction towards the direction close to the reflective mirror 4 and the direction far away from the reflective mirror 4 when sliding in the slide rail, and then the angle of view of the camera 3 is changed. It should be noted that the slider can be connected with the motor lead screw structure, and then make the motor can control the slider and slide in the slide rail, because the control of motor is comparatively accurate, and then can the accurate movement distance of control slider, and can establish the corresponding relation between slider displacement and the angle of view, and then make the regulation of angle of view controllable.

Optionally, the angle α between the reflecting surface of the mirror 4 and the surface on which the rotating assembly 2 is located is acute.

Specifically, in the embodiment of the present application, as shown in fig. 3 and 4, an included angle α exists between the reflecting surface of the reflective mirror 4 and the surface of the rotating assembly 2, where the included angle α is an acute angle, and if the included angle α is 45 °, the included angle may also be other values, for example, 30 °, and the included angle α is determined according to actual requirements, and the present application is not limited herein. In this way, when the reflecting surface of the mirror 4 reflects light onto the light receiving surface of the camera 3, the reflected light is not interfered by other light, and the light reflected by the reflecting surface. Further, when the included angle α is 45 °, the reflection angle of the light is a right angle, so that the light can be reflected by the reflection surface and directly incident on the light receiving surface of the camera 3, and the imaging effect is optimal.

It should be noted that the electronic device may be: a cell phone, a tablet, an e-book reader, an MP3 player, an MP4 player, a laptop portable computer, a car computer, a desktop computer, a set-top box, a smart television, or a wearable device.

As can be seen from the foregoing embodiments, in the embodiment of the present application, the rotating assembly 2 drives the reflective mirror 4 to switch between a plurality of states under the driving of the driving mechanism, in the first state, the reflective mirror 4 faces the light-transmitting hole 12 and the first camera at the same time, so that the light passing through the light-transmitting hole 12 is reflected by the reflective mirror 4 and then enters the first camera, and in the second state, the reflective mirror 4 faces the light-transmitting hole 12 and the second camera at the same time, so that the light passing through the light-transmitting hole 12 is reflected by the reflective mirror 4 and then enters the second camera. Therefore, the light receiving surface of the first camera and the light receiving surface of the second camera can both face the reflecting surface of the reflective mirror 4, so that light can be reflected to the light receiving surface of the first camera or the light receiving surface of the second camera through the reflecting surface of the reflective mirror 4, and thus, on one hand, the first camera and the second camera can share one light transmission hole 12 for shooting, the number of windows opened on the electronic equipment can be reduced, and the difficulty of water and dust prevention of the camera 3 is further reduced. On the other hand, since the camera 3 is fixed inside the housing 1, the risk of cracking and damaging the lens of the camera 1 can be reduced.

Besides, the electronic device further comprises an optical lens 5, the optical lens 5 is disposed on the rotating component 2, and the reflective mirror 4 faces the light hole 12 and the optical lens 5 at the same time, so that light passing through the light hole 12 is reflected by the reflective mirror 4 and then enters the optical lens 5, and thus, the zoom range of the camera 3 component can be increased by adding the optical lens 5 between the camera 3 and the reflective mirror 4.

While the present embodiments have been described with reference to the accompanying drawings, it is to be understood that the invention is not limited to the precise embodiments described above, which are meant to be illustrative and not restrictive, and that various changes may be made therein by those skilled in the art without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (8)

1. An electronic device, characterized in that the electronic device comprises a shell, a rotating component, a reflector, a plurality of cameras and a driving mechanism;

an accommodating space is formed in the shell, a light hole communicated with the accommodating space is formed in the shell, and the rotating assembly, the reflector and the camera are arranged in the accommodating space;

the reflector is fixedly arranged on the rotating assembly;

the at least two cameras are arranged around the rotating assembly and comprise a first camera and a second camera;

the rotating assembly is connected with the driving mechanism;

the rotating assembly drives the reflector to switch among a plurality of states under the driving of the driving mechanism, in a first state, the reflector faces the light hole and the first camera at the same time so that light passing through the light hole is reflected by the reflector and then enters the first camera, and in a second state, the reflector faces the light hole and the second camera at the same time so that light passing through the light hole is reflected by the reflector and then enters the second camera;

the electronic device further comprises an optical lens;

the optical lens is arranged on the rotating component, and the reflector faces the light hole and the optical lens simultaneously, so that light rays passing through the light hole are reflected by the reflector and then enter the optical lens.

2. The electronic device of claim 1, further comprising a stand, the rotating assembly comprising a turntable and a rotating shaft;

the support is fixed in the accommodating space, one end of the rotating shaft is hinged to the support, and the other end of the rotating shaft is fixed on the rotary table;

the driving mechanism comprises a rack and a driving motor, the driving motor drives the rack to move, the rack drives the rotating shaft to rotate, and the rotating shaft drives the rotating table to rotate.

3. The electronic device of claim 1, wherein each of the cameras is a different distance from the mirror.

4. The electronic device of claim 1, further comprising a processor and a receptacle;

the accommodating piece is fixed in the accommodating space, a light inlet hole is formed in the accommodating piece, and the light inlet hole is aligned with the light transmitting hole;

the accommodating piece is internally provided with an accommodating cavity, the reflector and the plurality of cameras are all arranged in the accommodating cavity, and the accommodating piece is provided with a contact point;

the processor is fixed in the accommodating space, and the camera and the rotating assembly are electrically connected with the processor through the contact contacts.

5. The electronic device of claim 1, wherein a focal length of each of the cameras is different.

6. The electronic device of claim 1, further comprising a plurality of sliding components;

a plurality of sliding component fixes the inside of casing, every the camera all with one sliding component sliding connection, just sliding component's slip direction with the light path direction of camera is unanimous.

7. The electronic device of claim 6, wherein the sliding assembly comprises a sliding track and a slider;

the slide rail is fixed the inside of casing, the slider with camera fixed connection, the slider is followed the length direction of slide rail slides, wherein, the length direction of slide rail with the light path direction of camera is unanimous.

8. The electronic device of claim 1, wherein an angle α between the reflective surface of the reflector and the surface on which the rotating component is disposed is an acute angle.

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