CN213094299U

CN213094299U - Camera device and electronic equipment

Info

Publication number: CN213094299U
Application number: CN202021897784.XU
Authority: CN
Inventors: 刘德旭
Original assignee: Guangdong Genius Technology Co Ltd
Current assignee: Guangdong Genius Technology Co Ltd
Priority date: 2020-09-02
Filing date: 2020-09-02
Publication date: 2021-04-30
Anticipated expiration: 2030-09-02

Abstract

The utility model discloses a camera device and electronic equipment, this camera device includes: camera module, rotary mechanism and electric connector. The camera module is provided with a camera; the rotating mechanism is provided with a first rotating shaft and is used for driving the camera module to rotate between a first position and a second position around the first rotating shaft; when the camera module rotates to a first position around the first rotating shaft, the lens of the camera faces a first object to be shot; when the camera module rotates to a second position around the first rotating shaft, the lens of the camera faces a second object to be shot opposite to the first object to be shot; the electric connector is electrically connected with the camera. The application provides a camera device, camera of camera device both can act as the leading camera of electronic equipment, also can act as rearmounted camera. This avoids the situation that the electronic device needs to include both the front camera and the rear camera, and thus can save the manufacturing cost of the electronic device.

Description

Camera device and electronic equipment

Technical Field

The utility model relates to an electronic product technical field especially relates to a camera device and electronic equipment.

Background

With the sudden and violent rise of the electronic industry, electronic devices such as mobile phones and tablet computers become indispensable daily necessities of people.

At present, electronic devices generally include a front camera, which is generally used for self-photographing, and a rear camera, which is generally used for photographing a landscape or the like. However, when the electronic device includes both the front camera and the rear camera, the cost of the electronic device is high due to the large number of cameras.

SUMMERY OF THE UTILITY MODEL

The embodiment of the application discloses a camera device and electronic equipment, which can solve the problem that the cost of the electronic equipment is high.

In order to achieve the above object, on the one hand, the utility model discloses a camera device, include:

the camera module is provided with a camera;

the camera module comprises a rotating mechanism, a first connecting rod and a second connecting rod, wherein the rotating mechanism is provided with a first rotating shaft, the first end of the first rotating shaft is connected with the camera module, and the rotating mechanism is used for driving the camera module to rotate around the first rotating shaft between a first position and a second position;

when the camera module rotates to the first position around the first rotating shaft, the lens of the camera faces a first object to be shot;

when the camera module rotates to the second position around the first rotating shaft, the lens of the camera faces a second object to be shot opposite to the first object to be shot;

the electric connecting piece is electrically connected with the camera.

Further, the rotation mechanism includes:

a motor having a rotational shaft;

the rotating shaft is connected with the second end of the first rotating shaft and used for driving the first rotating shaft to rotate.

Further, the rotation mechanism further includes:

the first bevel gear is connected with the rotating shaft, and the rotating shaft is used for driving the first bevel gear to rotate; and the number of the first and second groups,

the second bevel gear is meshed with the first bevel gear, and the first bevel gear is used for driving the second bevel gear to rotate;

the second bevel gear is connected to a second end of the first rotating shaft.

Further, the number of teeth of the first bevel gear is smaller than that of the second bevel gear.

Further, the rotation mechanism further includes:

a first end of the second rotating shaft is connected with one side, far away from the first rotating shaft, of the camera module, and the second rotating shaft is used for rotating along with the rotation of the camera module;

and the fixed shaft is rotatably connected with the second end of the second rotating shaft.

Furthermore, the camera module comprises a camera mounting part, the camera is mounted on the camera mounting part, one end of the camera mounting part is fixedly connected with the first end of the first rotating shaft, and the other end of the camera mounting part is fixedly connected with the first end of the second rotating shaft;

and electric connecting lines in the electric connecting piece are sequentially arranged according to the paths of the camera mounting part, the second rotating shaft and the fixing shaft.

Further, the camera mounting part includes: a first camera mounting block;

the first camera mounting block is connected to the first end of the second rotating shaft, the camera is arranged on the first camera mounting block, and the plane of the camera penetrates through the center line of the second rotating shaft;

the first end of the first rotating shaft is connected with the first camera mounting block;

and electric connecting wires in the electric connecting piece are sequentially arranged according to the paths of the first camera mounting block, the second rotating shaft and the fixed shaft.

Further, the camera mounting part includes: a second camera mounting block;

the second camera mounting block is fixed on the outer wall of the second rotating shaft, the camera is arranged on the second camera mounting block, and the first end of the first rotating shaft is connected with the second camera mounting block;

and electric connecting wires in the electric connecting piece are sequentially arranged according to the paths of the second camera mounting block, the second rotating shaft and the fixed shaft.

Further, the camera mounting part further includes: a third camera mounting block;

the third camera mounting block is connected with the second camera mounting block, the camera is arranged on the third camera mounting block, and the plane of the camera passes through the center line of the second rotating shaft; the first end of the first rotating shaft is connected with the third camera mounting block;

and electric connecting wires in the electric connecting piece are sequentially arranged according to the paths of the third camera mounting block, the second rotating shaft and the fixing shaft.

Further, the bisection plane of the camera divides the third camera mounting block and the second camera mounting block into a first region and a second region, and a sum of a mass of the third camera mounting block and a mass of the second camera mounting block in the first region is equal to a sum of a mass of the third camera mounting block and a mass of the second camera mounting block in the second region.

Furthermore, a line groove is formed in the fixing shaft, at least part of the electric connecting lines in the electric connecting piece are located in the line groove, and the line groove is used for fixing the electric connecting lines.

Furthermore, the fixed shaft comprises a first half shaft and a second half shaft, the first half shaft and the second half shaft are detachably connected, and the first half shaft and the second half shaft enclose the line groove.

Further, the camera device further includes an adjusting mechanism, and the adjusting mechanism includes:

the moving assembly is fixed on the camera module;

the vaulting pole, the vaulting pole is fixed remove the subassembly on, at least part electricity among the electric connector connects the line winding on the vaulting pole, remove the subassembly and be used for when the vaulting pole receives the winding traction force of electricity connection line, drive the vaulting pole orientation the direction of second rotation axis removes, it still is used for when removing the subassembly the vaulting pole does not receive during the winding traction force, drive the vaulting pole orientation is kept away from the direction of second rotation axis removes, so that electricity connection line quilt the vaulting pole struts.

Further, the moving assembly includes:

the guide groove is arranged on the camera module and used for guiding the stay bar to move back and forth along the guide groove;

one end of the elastic element is fixed at the first end of the guide groove, and the other end of the elastic element is connected with the support rod;

the elastic element is compressed when the support rod is subjected to the winding traction force so as to enable the support rod to move along the guide groove towards the direction of the second rotating shaft, and rebounded when the support rod is not subjected to the winding traction force so as to enable the support rod to move along the guide groove towards the direction away from the second rotating shaft.

Furthermore, the second end of guide way is provided with the anticollision piece, the anticollision piece is used for preventing the vaulting pole with the second end of guide way bumps.

Further, the camera device further includes: a transfer seat;

one end of the adapter is electrically connected with the camera, and the other end of the adapter is electrically connected with the electric connecting piece.

Further, the camera device further includes: a rotating housing;

the camera module, at least part of the first rotating shaft and at least part of the electric connecting piece are positioned in a cavity of the rotating shell, and a first end of the first rotating shaft is exposed out of the cavity;

at least one camera shooting hole is formed in the position, corresponding to the lens of the camera, of the rotating shell.

In this application embodiment, the camera device both includes the camera module of installing the camera, and including the rotary mechanism who has first rotation axis again, because the first end and the camera module of first rotation axis are connected, rotary mechanism is used for driving the camera module and rotates around first rotation axis between primary importance and second place, consequently, can further drive the camera and rotate between primary importance and second place through rotary mechanism. In addition, when the camera module rotates to the first position around the first rotating shaft, the lens of the camera faces towards the first object to be shot, and when the camera module rotates to the second position around the first rotating shaft, the lens of the camera faces towards the second object to be shot, wherein the first object to be shot is opposite to the second object to be shot, and the electric connecting piece is electrically connected with the camera and can supply power to the camera.

So, when this camera device was used on electronic equipment, at first can be connected together camera and electronic equipment electricity through electric connection piece, under the vertical condition of standing on the desktop of electronic equipment, when the first object of shooing that is located electronic equipment's first side needs to be shot when needs are shot, can drive the camera around first rotatory axial left rotation through rotary mechanism, make the camera rotate to primary importance, and then make the camera lens of camera towards first object of shooing, like this, just can shoot the first object of shooing that is located electronic equipment's first side through the camera. When an object to be shot of a second side, opposite to the first side, of the electronic equipment needs to be shot, the rotating mechanism can be used for driving the camera to rotate to the right around the first rotating shaft, so that the camera rotates to the second position from the first position, the lens of the camera faces the second object to be shot, and therefore the object to be shot of the second side of the electronic equipment can be shot through the camera. Therefore, the camera device provided by the embodiment of the application can shoot a first object to be shot positioned on the first side of the electronic equipment through the same camera, and can also shoot a second object to be shot positioned on the second side of the electronic equipment. In general, one camera may serve as both a front camera and a rear camera of the electronic device. Therefore, the situation that the electronic equipment needs to be provided with at least two different cameras simultaneously to meet the functional requirements of the front camera and the rear camera is avoided, and the manufacturing cost of the electronic equipment can be saved.

In addition, compared with the situation that different cameras are used as the front camera and the rear camera on the electronic equipment at the same time, the camera device provided by the application can be used as the front camera and the rear camera, and the space occupied by one camera installed in the electronic equipment is less than the space occupied by a plurality of cameras.

In another aspect, the utility model discloses an electronic equipment, include:

the equipment comprises an equipment shell, a control device and a control device, wherein an opening is formed in the equipment shell;

the camera device of any one of the above aspects, wherein the camera device is disposed in the opening;

the mainboard is electrically connected with the electric connecting piece.

In the embodiment of the application, when the camera device provided in the above aspect is applied to the electronic device and the electronic device is vertically erected on a desktop, when a first object to be photographed located on a first side of the electronic device needs to be photographed, the camera can be driven to rotate left around a first rotating shaft through the rotating mechanism, so that the camera rotates to a first position, and then a lens of the camera faces the first object to be photographed, so that the first object to be photographed located on the first side of the electronic device can be photographed through the camera. When an object to be shot of a second side, opposite to the first side, of the electronic equipment needs to be shot, the rotating mechanism can be used for driving the camera to rotate to the right around the first rotating shaft, so that the camera rotates to the second position from the first position, the lens of the camera faces the second object to be shot, and therefore the object to be shot of the second side of the electronic equipment can be shot through the camera. Therefore, the camera device provided by the embodiment of the application can shoot a first object to be shot positioned on the first side of the electronic equipment through the same camera, and can also shoot a second object to be shot positioned on the second side of the electronic equipment. In general, one camera may serve as both a front camera and a rear camera of the electronic device. Therefore, the situation that the electronic equipment needs to be provided with at least two different cameras simultaneously to meet the functional requirements of the front camera and the rear camera is avoided, and the manufacturing cost of the electronic equipment can be saved.

Drawings

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

Fig. 1 is a schematic structural diagram of a first camera device provided in an embodiment of the present application;

fig. 2 is a schematic structural diagram of a rotating mechanism in a camera device according to an embodiment of the present disclosure;

fig. 3 is a schematic structural diagram of a second camera device provided in the embodiment of the present application;

FIG. 4 is a diagram of the positional relationship between the second camera device of FIG. 3 and the bisecting plane;

fig. 5 is a schematic structural diagram of a third camera device provided in the embodiment of the present application;

fig. 6 is a schematic structural diagram of a fourth camera device provided in the embodiment of the present application;

FIG. 7 is a diagram of the positional relationship between the fourth camera device of FIG. 6 and the bisecting plane;

fig. 8 is a schematic structural diagram of a fifth camera device provided in the embodiment of the present application;

fig. 9 is a positional relationship diagram between the fifth camera device in fig. 8 and the bisecting plane, the first region, and the second region;

fig. 10 is a schematic structural diagram of a fixed shaft in the camera device provided in the embodiment of the present application;

fig. 11 is a schematic structural diagram of a sixth camera device provided in the embodiment of the present application (a camera faces a user);

fig. 12 is a schematic structural diagram of a sixth camera device in fig. 11 (the camera faces away from the user);

fig. 13 is a schematic structural diagram of an adjusting mechanism in a camera device provided in an embodiment of the present application;

FIG. 14 is an exploded view of the adjustment mechanism of FIG. 13;

fig. 15 is a schematic structural diagram of another adjustment mechanism in the camera device provided in the embodiment of the present application;

fig. 16 is a schematic structural diagram of a seventh camera device according to an embodiment of the present application;

fig. 17 is a schematic structural diagram of an electronic device according to an embodiment of the present application.

Description of reference numerals:

1-a camera module; 2-a rotating mechanism; 3-an electrical connection; 4-an adjustment mechanism; 5-a transfer seat; 6-rotating the shell; 7-a positioning column;

11-a camera; 12-a camera mounting section; 21-a first axis of rotation; 22-a motor; 23-a first bevel gear; 24-a second bevel gear; 25-a second axis of rotation; 26-a fixed shaft; 41-a moving assembly; 42-a strut; 61-camera hole;

121-a first camera mounting block; 122-a second camera mounting block; 123-a third camera mounting block; 221-a rotating shaft; 261-line slot; 262-a first half shaft; 263-second half shaft; 411-a guide slot; 412-a resilient element;

4111-bumper tab;

a-a first region; b-a second region; m1: bisecting the plane;

100-an apparatus housing; 101-an opening; 200-a camera device; 300-main board.

Detailed Description

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

In the present invention, the terms "upper", "lower", "left", "right", "front", "rear", "top", "bottom", "inner", "outer", "middle", "vertical", "horizontal", "lateral", "longitudinal", and the like indicate the orientation or positional relationship based on the orientation or positional relationship shown in the drawings. These terms are used primarily to better describe the invention and its embodiments, and are not intended to limit the indicated devices, elements or components to a particular orientation or to be constructed and operated in a particular orientation.

Moreover, some of the above terms may be used to indicate other meanings besides the orientation or positional relationship, for example, the term "on" may also be used to indicate some kind of attachment or connection relationship in some cases. The specific meaning of these terms in the present invention can be understood by those of ordinary skill in the art as appropriate.

Furthermore, the terms "mounted," "disposed," "provided," "connected," and "connected" are to be construed broadly. For example, it may be a fixed connection, a removable connection, or a unitary construction; can be a mechanical connection, or an electrical connection; may be directly connected, or indirectly connected through intervening media, or may be in internal communication between two devices, elements or components. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

Furthermore, the terms "first," "second," and the like, are used primarily to distinguish one device, element, or component from another (the specific nature and configuration may be the same or different), and are not used to indicate or imply the relative importance or number of the indicated devices, elements, or components. "plurality" means two or more unless otherwise specified.

Before explaining the technical scheme of the application, the application scenario related to the application is explained.

At present, electronic devices generally include a front camera, which is generally used for self-photographing, and a rear camera, which is generally used for photographing a landscape or the like. However, when the electronic device includes both the front camera and the rear camera, the cost of the electronic device is high due to the large number of cameras. Based on this, the present application provides a camera device and an electronic apparatus to solve the above problems.

The technical solution of the present application will be further described with reference to the following embodiments and accompanying drawings.

Fig. 1 is a schematic structural diagram of a camera device according to an embodiment of the present application. Referring to fig. 1, the camera apparatus includes: camera module 1, rotary mechanism 2 and electric connector 3. Wherein, the camera module 1 is provided with a camera 11; the rotating mechanism 2 is provided with a first rotating shaft 21, a first end of the first rotating shaft 21 is connected with the camera module 1, and the rotating mechanism 2 is used for driving the camera module 1 to rotate between a first position and a second position around the first rotating shaft 21; when the camera module 1 rotates to the first position around the first rotating shaft 21, the lens of the camera 11 faces the first object to be shot; when the camera module 1 rotates to the second position around the first rotating shaft 21, the lens of the camera 11 faces a second object to be shot opposite to the first object to be shot; the electric connector 3 is electrically connected with the camera 11.

In the embodiment of the present application, the camera device includes both the camera module 1 with the camera 11 and the rotating mechanism 2 with the first rotating shaft 21, because the first end of the first rotating shaft 21 is connected to the camera module 1, the rotating mechanism 2 is used for driving the camera module 1 to rotate around the first rotating shaft 21 between the first position and the second position, and therefore, the camera 11 can be driven to rotate between the first position and the second position through the rotating mechanism 2. In addition, when the camera module 1 rotates to the first position around the first rotating shaft 21, the lens of the camera 11 faces the first object to be photographed, and when the camera module 1 rotates to the second position around the first rotating shaft 21, the lens of the camera 11 faces the second object to be photographed, wherein the first object to be photographed is opposite to the second object to be photographed, and the electric connector 3 is electrically connected with the camera 11, so that power can be supplied to the camera 11, and therefore, under the action of the rotating mechanism 2 and the electric connector 3, the camera 11 can respectively photograph the first object to be photographed and the second object to be photographed which are located in opposite directions.

So, when this camera device is used on electronic equipment, at first can be connected together camera 11 and electronic equipment electricity through electric connection piece 3, under the vertical condition of standing on the desktop of electronic equipment, when the first object of waiting to shoot that is located electronic equipment's first side needs to be shot, can drive camera 11 through rotary mechanism 2 and rotate left around first rotation axis 21 for camera 11 rotates to first position, and then make camera 11's camera lens towards first object of waiting to shoot, and like this, just can shoot the first object of waiting to shoot that is located electronic equipment's first side through camera 11. When an object to be shot of a second side of the electronic device opposite to the first side needs to be shot, the rotating mechanism 2 can be used for driving the camera 11 to rotate rightwards around the first rotating shaft 21, so that the camera 11 rotates to a second position, the lens of the camera 11 faces the second object to be shot, and therefore the object to be shot of the second side of the electronic device can be shot through the camera 11. It can be seen that, the camera device provided in the embodiment of the present application, through the same camera 11, can shoot both the first object to be shot located at the first side of the electronic device, and can shoot the second object to be shot located at the second side of the electronic device. In general, one camera 11 may serve as both a front camera and a rear camera of the electronic device. Therefore, the situation that the electronic equipment needs to be provided with at least two different cameras simultaneously to meet the functional requirements of the front camera and the rear camera is avoided, and the manufacturing cost of the electronic equipment can be saved.

In addition, compared with the situation that different cameras are simultaneously used as the front camera and the rear camera on the electronic device, since only one camera 11 is used as both the front camera and the rear camera in the embodiment of the present application, and the space occupied by one camera installed in the electronic device is less than the space occupied by a plurality of cameras, the camera device provided by the present application can also reduce the occupation of the installation space of the electronic device, so that the structure of the electronic device is more compact.

Exemplarily, assuming that the camera device is applied to a mobile phone, in an actual use scene, when a user needs to perform self-shooting, the camera 11 may be rotated to a side where a mobile phone screen is located through the rotating mechanism 2, so that a lens of the camera 11 faces a face of the user, at this time, the side where the mobile phone screen is located is the first position, and the face of the user is the first object to be shot, so that the user can perform self-shooting through the camera 11. When a user needs to shoot a landscape, the camera 11 can be rotated to the side where the mobile phone back shell is located through the rotating mechanism 2, so that the lens of the camera 11 faces the landscape, at the moment, the side where the mobile phone back shell is located is the second position, and the landscape is the second object to be shot, so that the user can shoot the landscape through the camera 11. It can be seen that through this exemplary embodiment, the camera device that this application provided, both can realize shooing the scenery through camera 11, also can realize the auto heterodyne, also promptly, camera 11 both can act as the leading camera of cell-phone, can also act as the rear camera of cell-phone, consequently, can avoid the condition that needs to install leading camera and rear camera simultaneously on the cell-phone, reduce the camera quantity that the cell-phone need be installed for the manufacturing cost of cell-phone is lower. In addition, the problem that the installation space of the mobile phone is occupied due to the fact that the front camera and the rear camera are installed on the mobile phone at the same time can be avoided.

The first end of the first rotating shaft 21 may be connected to the camera module 1 by a threaded connection, or may be connected by other methods, for example, by a glue bonding method, which is not limited in the embodiment of the present application.

In addition, since the camera device of the present embodiment is used in an electronic device such as a smart phone, a tablet computer, etc., the electrical connector 3 is used to electrically connect the camera 11 with a relevant functional component (e.g., a motherboard, etc.) in the electronic device, so as to implement the function of the camera 11. The electrical connector may be, for example, a common wire, or an electrical connector such as an FPC (Flexible Printed Circuit). Since the camera 11 needs to rotate around the first rotation axis 21, the electrical connection member 3 is preferably a Flexible Printed Circuit (FPC), which can allow the electrical connection member 3 to deform arbitrarily, thereby preventing the electrical connection member 3 from being broken during the rotation of the camera 11 around the first rotation axis 21.

In some embodiments, referring to fig. 2, the rotation mechanism 2 comprises: a motor 22, the motor 22 having a rotation shaft 221; the rotating shaft 221 is connected to a second end of the first rotating shaft 21, and the rotating shaft 221 is used for driving the first rotating shaft 21 to rotate. That is, when the first rotating shaft 21 needs to be rotated to drive the camera module 1 to rotate between the first position and the second position around the first rotating shaft 21, the rotating shaft 221 can be rotated by the motor 22, and since the rotating shaft 221 is connected to the second end of the first rotating shaft 21, the first rotating shaft 21 can be driven to rotate after the rotating shaft 221 rotates, and then the camera module 1 can be driven to rotate between the first position and the second position around the first rotating shaft 21. It can be seen that the purpose of driving the first rotating shaft 21 to rotate can be achieved by the motor 22, and the implementation manner is very simple.

The rotating shaft 221 and the second end of the first rotating shaft 21 may be connected by a coupling, or may be connected by other methods, which is not limited in this embodiment of the application.

Further, in some embodiments, referring to fig. 2, the rotation mechanism 2 further comprises: a first bevel gear 23 and a second bevel gear 24. The first bevel gear 23 is connected with the rotating shaft 221, and the rotating shaft 221 is used for driving the first bevel gear 23 to rotate; the second bevel gear 24 is meshed with the first bevel gear 23, and the first bevel gear 23 is used for driving the second bevel gear 24 to rotate; the second bevel gear 24 is connected to a second end of the first rotating shaft 21.

In this embodiment, when it is necessary to rotate the first rotating shaft 21 to drive the camera module 1 to rotate between the first position and the second position around the first rotating shaft 21, firstly, the rotating shaft 221 can be rotated by the motor 22 to drive the first bevel gear 23 to rotate, after the first bevel gear 23 rotates, because the second bevel gear 24 is engaged with the first bevel gear 23, the second bevel gear 24 can be driven to rotate, and further the first rotating shaft 21 can be driven to rotate, and after the first rotating shaft 21 rotates, the camera module 1 can be driven to rotate between the first position and the second position around the first rotating shaft 21.

It can be seen that in this embodiment, the purpose of rotating the first rotating shaft 21 by the motor 22 can be achieved by engaging the second bevel gear 24 with the first bevel gear 23. When the rotating mechanism 2 further includes the first bevel gear 23 and the second bevel gear 24, on one hand, the relationship between the rotating speed of the rotating shaft 221 and the rotating speed of the first rotating shaft 21 can be adjusted by adjusting the tooth ratio of the first bevel gear 23 and the second bevel gear 24, so that the rotating speed of the first rotating shaft 21 can better meet the use scenario. On the other hand, the rotating shaft 221 and the first rotating shaft 21 may not be aligned, and the spatial arrangement of the motor 22 may be more flexible.

The first bevel gear 23 and the rotating shaft 221 may be connected by a jackscrew, specifically, referring to fig. 2, the center of the first bevel gear 23 may be provided with an insertion hole, the hole wall of the insertion hole may be provided with a jackscrew, one end of the rotating shaft 221 may be inserted into the insertion hole, and then may be jacked on the outer wall of the rotating shaft 221 by the jackscrew, so that the purpose of connecting the first bevel gear 23 and the rotating shaft 22 may be achieved. Of course, the connection between the first bevel gear 23 and the rotating shaft 221 may be realized by other manners, which is not limited in the embodiment of the present application. The second bevel gear 24 and the second end of the first rotating shaft 21 may also be connected by a jackscrew, and the specific implementation manner may be similar to the implementation manner when the first bevel gear 23 and the rotating shaft 221 are connected by a jackscrew, which is not described herein again in this embodiment of the application.

As can be seen from the above description, the lens of the camera 11 can be driven to face the first object to be photographed or the second object to be photographed by the rotation of the first rotating shaft 21, so as to prevent the rotating speed of the first rotating shaft 21 from being too fast, and prevent the camera 11 from injuring a user in the rotating process, therefore, the rotating speed of the rotating shaft 221 of the motor 22 should not be too fast. It will be appreciated that when the rotational speed of the rotating shaft 221 of the motor 22 is slow, the rotation is generally not smooth. Based on this, the number of teeth of the first bevel gear 23 is less than that of the second bevel gear 24, and when the number of teeth of the first bevel gear 23 is less than that of the second bevel gear 24, the structure formed by the meshing of the first bevel gear 23 and the second bevel gear 24 is similar to a speed reducer, so that the rotating speed of the first rotating shaft 21 is relatively slow under the condition that the rotating speed of the rotating shaft 221 of the motor 22 is relatively fast, and thus, the condition that the camera 11 causes injury to a user in the rotating process can be avoided.

The number of teeth of the first bevel gear 23 may be 10, and the number of teeth of the second bevel gear 24 may be 20. Of course, based on different usage scenarios, the number of teeth of the first bevel gear 23 and the number of teeth of the second bevel gear 24 may also be other numbers, and the number of teeth of the first bevel gear 23 and the number of teeth of the second bevel gear 24 are not limited in this embodiment of the application.

Further, in order to make the rotation of the camera module 1 around the first rotation axis 21 more smooth, in some embodiments, as shown in fig. 3, the rotation mechanism 2 further includes: a second rotation shaft 25 and a fixed shaft 26. Wherein, the first end of the second rotating shaft 25 is connected with one side of the camera module 1 far away from the first rotating shaft 21, and the second rotating shaft 25 is used for rotating along with the rotation of the camera module 1; the fixed shaft 26 is rotatably coupled to a second end of the second rotating shaft 25. Like this, when first rotation axis 21 drives camera module 1 and rotates at camera module 1's first side (being the top one side of camera module 1 in fig. 3), second rotation axis 25 can play the effect of bearing camera module 1 at camera module 1's second side (being the below one side of camera module 1 in fig. 3), therefore can make camera module 1 around the more steady of rotation of first rotation axis 21.

The first end of the second rotating shaft 25 may be connected to the second side of the camera module 1 in a threaded connection manner, and may also be connected to the second side of the camera module 1 in other manners, which is not limited in this embodiment of the application. The fixed shaft 26 and the second end of the second rotating shaft 25 may be rotatably connected through a bearing, or may be rotatably connected through other manners, which is not limited in this embodiment of the application.

In addition, in some embodiments, referring to fig. 3, in order to make the rotation of the camera module 1 around the first rotation axis 21 smoother, the center line of the second rotation axis 25 may coincide with the center line of the first rotation axis 21, so that the rotation of the camera module 1 around the first rotation axis 21 may be made smoother.

In some embodiments, referring to fig. 3, the camera module 1 includes a camera mounting portion 12, the camera 11 is mounted on the camera mounting portion 12, one end of the camera mounting portion 12 is fixedly connected to the first end of the first rotating shaft 21, and the other end is fixedly connected to the first end of the second rotating shaft 25; the electrical connection lines in the electrical connection member 3 are arranged in the path of the camera mounting part 12, the second rotation shaft 25, and the fixed shaft 26 in this order.

In this embodiment, since one end of the camera mounting portion 12 is fixedly connected to the first end of the first rotating shaft 21 and the other end is fixedly connected to the first end of the second rotating shaft 25, when the first rotating shaft 21 rotates, the camera mounting portion 12 can be driven to rotate. Because the camera 11 is installed on the camera installation part 12, therefore, can drive the camera 11 to rotate when the camera installation part 12 rotates, that is, has realized driving the purpose that the camera 11 rotated through first rotation axis 21.

As can be seen from the above description, when the camera module 1 includes the camera mounting portion 12, on the one hand, a mounting position can be provided for the camera 11, and thus, the camera 11 can be mounted more stably. On the other hand, a fixing position can be provided for the first end of the first rotating shaft 21 and the first end of the second rotating shaft 25, which avoids the situation that the first end of the first rotating shaft 21 and the first end of the second rotating shaft 25 are directly fixed on the camera 11, and therefore, the first end of the first rotating shaft 21 and the first end of the second rotating shaft 25 can be fixed more stably.

In addition, the electrical connection lines in the electrical connection member 3 are arranged in the path of the camera mounting part 12, the second rotating shaft 25 and the fixing shaft 26 in sequence, so that the electrical connection lines can be sequentially attached to the camera mounting part 12, the second rotating shaft 25 and the fixing shaft 26, and the arrangement path of the electrical connection lines is neat and not messy.

As an alternative embodiment, referring to fig. 3 and 4, the camera mounting portion 12 includes: a first camera mounting block 121; the first camera mounting block 121 is connected to a first end of the second rotating shaft 25, the camera 11 is arranged on the first camera mounting block 121, and a bisecting plane M1 of the camera 11 passes through a center line of the second rotating shaft 25; a first end of the first rotating shaft 21 is connected to the first camera mounting block 121; the electrical connection lines in the electrical connection member 3 are arranged in the path of the first camera mounting block 121, the second rotation shaft 25, and the fixed shaft 26 in sequence.

In this embodiment, since the first camera mounting block 121 is connected to the first end of the second rotating shaft 25, and the first end of the first rotating shaft 21 is connected to the first camera mounting block 121, when the first rotating shaft 21 rotates, the first camera mounting block 121 can be rotated. Because the camera 11 is arranged on the first camera mounting block 121, when the first camera mounting block 121 rotates, the camera 11 can be driven to rotate, and then the lens of the camera 11 can face the first object to be shot or the second object to be shot.

Because the bisector of the camera 11 passes through the center line of the second rotating shaft 25, and the camera 11 rotates along with the first rotating shaft 21 and the second rotating shaft 25, when the camera 11 rotates along with the second rotating shaft 25, no matter the lens of the camera 11 faces the first object to be photographed or the second object to be photographed, the bisector of the camera 11 passes through the center line of the second rotating shaft 25, so that the relative position relationship between the camera 11 and the second rotating shaft 25 does not change, and the use experience is good.

Meanwhile, when the bisecting plane of the camera 11 passes through the center line of the second rotating shaft 25, the eccentric force applied to the camera 11 in the process of rotating around the second rotating shaft 25 can be reduced, and therefore the situation that various components inside the camera 11 are damaged under the action of the eccentric force after being used for a long time can be avoided.

The bisecting plane M1 of the camera 11 refers to: a plane passing through the center line of the lens of the camera 11 and passing through the center line of the second rotation shaft 25.

In addition, the electrical connection lines in the electrical connector 3 are sequentially arranged according to the paths of the first camera mounting block 121, the second rotating shaft 25 and the fixing shaft 26, so that the electrical connection lines can be sequentially attached to the first camera mounting block 121, the second rotating shaft 25 and the fixing shaft 26, and the arrangement paths of the electrical connection lines are tidy and are not messy.

The first camera mounting block 121 may be connected to the first end of the second rotating shaft 25 by a screw, or may be connected to the first end of the second rotating shaft 25 by another method, which is not limited in the embodiment of the present application. The first end of the first rotating shaft 21 may be connected to the first camera mounting block 121 by a screw, or may be connected by other methods, which is not limited in this embodiment of the present application.

As another alternative embodiment, referring to fig. 5, the camera mounting portion 12 includes: a second camera mounting block 122; the second camera mounting block 122 is fixed on the outer wall of the second rotating shaft 25, the camera 11 is arranged on the second camera mounting block 122, and the first end of the first rotating shaft 21 is connected with the second camera mounting block 122; the electrical connection lines in the electrical connection member 3 are arranged in the path of the second camera mounting block 122, the second rotation shaft 25, and the fixed shaft 26 in order.

In this embodiment, since the second camera mounting block 122 is fixed to the outer wall of the second rotating shaft 25, the position where the second camera mounting block 122 meets the outer wall of the second rotating shaft 25 in the axial direction of the second rotating shaft 25 will be in line contact, and in colloquial, the position where the second camera mounting block 122 meets the outer wall of the second rotating shaft 25 is relatively smooth. Since the camera 11 is disposed on the second camera mounting block 122 and the electrical connection lines in the electrical connection member 3 are sequentially arranged according to the path of the second camera mounting block 122, the second rotating shaft 25 and the fixed shaft 26, it can be understood that the electrical connection lines in the electrical connection member 3 will pass through the joint position of the second camera mounting block 122 and the outer wall of the second rotating shaft 25, and the joint position of the second camera mounting block 122 and the outer wall of the second rotating shaft 25 is relatively smooth, so that the electrical connection lines near the joint position can be prevented from being cut or worn.

Illustratively, referring to fig. 5, assuming that the second camera mounting block 122 is a rectangular parallelepiped mounting block, when the second camera mounting block 122 is fixed to the outer wall of the second rotation shaft 25, one side of the rectangular parallelepiped may be disposed in parallel with the center line of the second rotation shaft 25, and in a direction parallel to the center line of the second rotating shaft 25, so that two intersecting lines are generated at the intersection position between the second camera mounting block 122 and the outer wall of the second rotating shaft 25, and thus, it is possible to make a smooth transition between at least a part of the outer surface of the second camera mounting block 122 and the outer wall of the second rotation shaft 25, and thus, when the electrical connection line in the electrical connection member 3 is to pass through the intersection position of the second camera mounting block 122 and the outer wall of the second rotation shaft 25, the occurrence of a situation in which the electrical connection line near the junction is cut or worn away can be avoided.

The shape of the second camera mounting block 122 may be other shapes, and it is only necessary that the camera 11 be disposed on the second camera mounting block 122 and the transition position between the second camera mounting block 122 and the second rotation axis 25 be able to be smoothly transitioned, and the shape of the second camera mounting block 122 is not limited in the embodiment of the present application.

In the case that the camera mounting portion 12 includes the second camera mounting block 122, in order to prevent the positional relationship between the camera 11 and the second rotating shaft 25 from being "shifted" when the lens of the camera 11 faces the first object to be photographed or faces the second object to be photographed, and also to prevent the camera 11 from receiving an eccentric force during the rotation process around the second rotating shaft 25, so that various components inside the camera 11 are damaged by the eccentric force, as a further alternative embodiment, referring to fig. 6 and 7, the camera mounting portion 12 includes: a second camera mounting block 122 and a third camera mounting block 123; the third camera mounting block 123 is connected with the second camera mounting block 122, the camera 11 is arranged on the third camera mounting block 123, and the bisecting plane M1 of the camera 11 passes through the center line of the second rotating shaft 25; a first end of the first rotating shaft 21 is connected to the third camera mounting block 123; the electrical connection lines in the electrical connection member 3 are arranged in the path of the third camera mounting block 123, the second camera mounting block 122, the second rotation shaft 25, and the fixed shaft 26 in this order.

In this way, when the camera mounting portion 12 further includes the third camera mounting block 123, since the camera 11 is disposed on the third camera mounting block 123 and the bisector plane of the camera 11 passes through the center line of the second rotating shaft 25, when the camera 11 rotates along with the second rotating shaft 25, the bisector plane of the camera 11 will pass through the center line of the second rotating shaft 25 no matter whether the lens of the camera 11 faces the first object to be photographed or the second object to be photographed, and the relative positional relationship between the camera 11 and the second rotating shaft 25 will not be "changed". Meanwhile, when the bisecting plane of the camera 11 passes through the center line of the second rotating shaft 25, the eccentric force applied to the camera 11 in the process of rotating around the second rotating shaft 25 can be reduced, and therefore the situation that various components inside the camera 11 are damaged under the action of the eccentric force after being used for a long time can be avoided.

In addition, the electric connecting lines in the electric connecting piece 3 are arranged in turn according to the paths of the third camera mounting block 123, the second camera mounting block 122, the second rotating shaft 25 and the fixed shaft 26, so that the electric connecting lines can be sequentially attached to the third camera mounting block 123, the second camera mounting block 122, the second rotating shaft 25 and the fixed shaft 26, and the arrangement paths of the electric connecting lines are tidy and not messy.

In order to make the operation of the camera 11 during the rotation around the first rotation axis 21 and the second rotation axis 25 smoother, in some embodiments, referring to fig. 8 and 9, a bisecting plane M1 of the camera 11 divides the third camera mounting block 123 and the second camera mounting block 122 into a first area a and a second area B, and a sum of a mass of the second camera mounting block 122 and a mass of the third camera mounting block 123 located in the first area a is equal to a sum of a mass of the third camera mounting block 123 and a mass of the second camera mounting block 122 located in the second area B. In other words, the sum of the weight of the second camera mounting block 122 and the weight of the third camera mounting block 123 in the first area a is equal to the sum of the weight of the third camera mounting block 123 and the weight of the second camera mounting block 122 in the second area B, so that the same counterweight is provided on both sides of the first rotating shaft 21 and the second rotating shaft 25, which makes it possible to make the operation of the camera 11 more smooth during the rotation around the first rotating shaft 21 and the second rotating shaft 25, and to prevent the first rotating shaft 21 and the second rotating shaft 25 from being damaged after a long period of use.

In order to better fix the electrical connection line of the electrical connector 3 close to the fixed shaft 26 on the fixed shaft 26 and avoid the electrical connection line close to the fixed shaft 26 from being tilted and irregular, in some embodiments, referring to fig. 10, a wire groove 261 is provided in the fixed shaft 26, and at least part of the electrical connection line of the electrical connector 3 is located in the wire groove 261, and the wire groove 261 is used for fixing the electrical connection line. Thus, the electrical connection line close to the fixing shaft 26 can be fixed in the fixing shaft 26 through the line groove 261, and further the situation that the electrical connection line close to the fixing shaft 26 in the electrical connector 3 is tilted and irregular can be avoided.

In some embodiments, referring to FIG. 10, the stationary shaft 26 includes a first half shaft 262 and a second half shaft 263, the first half shaft 262 and the second half shaft 263 being removably coupled, the first half shaft 262 and the second half shaft 263 enclosing a cable channel 261. Thus, since the wire channel 261 is enclosed by the first half shaft 262 and the second half shaft 263, and the first half shaft 262 and the second half shaft 263 are detachably connected, when the electrical connection wire needs to be fixed in the wire channel 261, the electrical connection wire can be fixed in the fixed shaft 26 only by detaching the first half shaft 262 from the second half shaft 263, then clamping the electrical connection wire in the wire channel 261 through the first half shaft 262 and the second half shaft 263, and finally re-fixing the first half shaft 262 on the second half shaft 263, which is very simple in implementation and convenient to operate.

In other embodiments, the electrical connection line in the electrical connector 3 may also be fixed on the fixed shaft 26 through the positioning column 7, which is not limited in the embodiments of the present application.

It should be noted that, in order to ensure that the electrical connection lines in the electrical connection member 3 can be arranged in the path of the camera mounting portion 12 and the second rotation axis 25 in sequence, referring to fig. 11, the electrical connection lines in the electrical connection member 3 can be fixed on the camera mounting portion 12 and the second rotation axis 25 in sequence by the positioning column 7, so that the electrical connection lines in the electrical connection member 3 can be arranged in the path of the camera mounting portion 12 and the second rotation axis 25 in sequence. Of course, the electrical connection lines in the electrical connection member 3 may be arranged in the path of the camera mounting portion 12 and the second rotation axis 25 in sequence by other methods, which are not limited in the embodiment of the present application.

As can be seen from the above description, the electrical connection member 3 is electrically connected to the camera 11, and the camera 11 rotates around the first rotation axis 21 and the second rotation axis 25, and at least some of the electrical connection lines in the electrical connection member 3 are sequentially arranged in the order of the second rotation axis 25 and the fixing axis 26, so that when the camera 11 rotates around the second rotation axis 25 in a predetermined direction, at least some of the electrical connection lines will be wound around the second rotation axis 25, so that the electrical connection lines will be "tightened", and when the camera 11 rotates around the second rotation axis 25 in a direction opposite to the predetermined direction, at least some of the electrical connection lines will be loosened from the second rotation axis 25, and a situation occurs in which the electrical connection lines are stacked near the second rotation axis 25, so that the electrical connection lines are "loosened", and thus, on the one hand, the electrical connection lines are stacked near the second rotation axis 25, so that the electrical connection lines are not regular, and on the other hand, the electrical connection wires are easily broken during frequent "tight" and "loose" state changes, which leads to failure of the camera 11.

Based on this, in some embodiments, referring to fig. 11 and 12, the camera device further includes an adjusting mechanism 4, and the adjusting mechanism 4 includes: a moving assembly 41 and a brace 42. Wherein, the moving component 41 is fixed on the camera module 1; the stay 42 is fixed on the moving component 41, at least part of the electrical connection wire in the electrical connection member 3 is wound on the stay 42, the moving component 41 is configured to drive the stay 42 to move towards the second rotation axis 25 when the stay 42 is subjected to a winding traction force of the electrical connection wire, and the moving component 41 is further configured to drive the stay 42 to move away from the second rotation axis 25 when the stay 42 is not subjected to the winding traction force, so that the electrical connection wire is spread by the stay 42.

In this way, when the camera 11 slowly rotates around the second rotation axis 25 along the predetermined direction, at least part of the electrical connection wire will slowly wind around the second rotation axis 25, and during the process that at least part of the electrical connection wire slowly winds around the second rotation axis 25, since at least part of the electrical connection wire in the electrical connector 3 also winds around the support rod 42, the support rod 42 will be subjected to the winding traction of the electrical connection wire, at this time, the support rod 42 will be guided by the moving component 41 to move towards the second rotation axis 25, so that at least part of the electrical connection wire winds around the second rotation axis 25, and at this time, the electrical connection wire is in a "tight" state. When the camera head 11 is rotated about the second rotation axis 25 in a direction opposite to the predetermined direction, at least a portion of the electrical connection wire is loosened from the second rotation axis 25, and the stay 42 is no longer subjected to the winding traction force of the electrical connection wire. Since the moving assembly 41 is further configured to move the supporting rod 42 away from the second rotation axis 25 when the supporting rod 42 is not subjected to the winding traction force, so that the electrical connection line is spread by the supporting rod 42, when the camera 11 rotates around the second rotation axis 25 in the direction opposite to the predetermined direction, the electrical connection line is still in a "tight" state.

That is, no matter the camera 11 rotates around the second rotation shaft 25 in the predetermined direction or rotates around the second rotation shaft 25 in the direction opposite to the predetermined direction, the electrical connection lines are in a "tightened" state, so that the situation that the electrical connection lines are stacked near the second rotation shaft 25 to be irregular due to the fact that the electrical connection lines are not regular enough is avoided. In addition, because the electric connecting wire is always in a 'tight' state, the situation that the electric connecting wire is frequently broken in the process of changing the 'tight' state and the 'loose' state, so that the camera 11 is disabled is avoided.

The moving component 41 may be fixed to the camera module 1 by screws, or may be fixed to the camera module 1 by other methods, which is not limited in the embodiment of the present application, and the stay 42 may also be fixed to the moving component 41 by screws or other methods, which is not limited in the embodiment of the present application.

In some embodiments, referring to fig. 13 and 14, the moving assembly 41 includes: a guide slot 411 and a resilient member 412. Wherein, the guide slot 411 is arranged on the camera module 1, and the guide slot 411 is used for guiding the stay bar 42 to move back and forth along the guide slot 411; one end of the elastic member 412 is fixed to the first end of the guide slot 411, and the other end of the elastic member 412 is connected to the stay 42; the elastic member 412 is compressed when the stay 42 is subjected to the winding traction force, so that the stay 42 moves along the guide groove 411 toward the second rotation axis 25, and rebounds when the stay 42 is not subjected to the winding traction force, so that the stay 42 moves along the guide groove 411 away from the second rotation axis 25.

That is, by providing the guide slot 411 and the elastic element 412, the moving assembly 41 can drive the stay rod 42 to move toward the second rotation axis 25 when the stay rod 42 receives the winding traction force of the electrical connection wire, and drive the stay rod 42 to move away from the second rotation axis 25 when the stay rod 42 does not receive the winding traction force, so that the electrical connection wire is spread by the stay rod 42.

The elastic element 412 may be a spring or other possible components, and the elastic element 412 is not limited in this embodiment.

In some embodiments, referring to fig. 15, the second end of the guide slot 411 is provided with a bump tab 4111, and the bump tab 4111 is used to prevent the stay 42 from colliding with the second end of the guide slot 411. Through setting up crashproof piece 4111, can avoid vaulting pole 42 and the second end of guide way 411 to bump, and then can avoid the second end of guide way 411 to be bumped or the condition that vaulting pole 42 is bumped and is broken to take place.

Wherein, crashproof piece 4111 can bond at the second end of guide way 411 through glue, also can set up at the second end of guide way 411 through other modes, and this application embodiment does not limit to this. The bumper 4111 may be a rubber bumper, or a bumper made of other materials, which is not limited in this embodiment of the present application.

In some embodiments, referring to fig. 1, the camera device further comprises:

adapter

5, 5 one end of adapter is connected with camera 11 electricity, and the other end of adapter 5 is connected with electric connector 3 electricity. Through setting up adapter 5, can play the effect of switching, like this, be convenient for be connected electric connector 3 and camera 11 electricity, perhaps, be connected electric connector 3 disconnection electricity from camera 11, unusual convenient and fast.

In order to make the camera device look neat from the appearance, in some embodiments, referring to fig. 16, the camera device further comprises: the housing 6 is rotated. The camera module 1, at least part of the first rotating shaft 21 and at least part of the electric connecting piece 3 are positioned in a cavity of the rotating shell 6, and a first end of the first rotating shaft 21 is exposed out of the cavity; the rotary case 6 is provided with an imaging hole 61 at a position corresponding to the lens of the camera 11. Thus, the camera module 1, at least part of the first rotating shaft 21 and at least part of the electric connector 3 can be hidden in the cavity of the rotating shell 6, and the camera device can be tidy and better in integrity in appearance. When the first object to be photographed and the second object to be photographed need to be photographed by the camera 11, the camera 11 can also perform a function of photographing the first object to be photographed and the second object to be photographed, because the camera hole 61 is provided at a position corresponding to the lens of the camera 11 on the rotary housing 6.

To sum up, in this embodiment of the application, the camera device both includes the camera module 1 that installs camera 11, and is including the rotary mechanism 2 that has first rotation axis 21 again, because the first end and the camera module 1 of first rotation axis 21 are connected, rotary mechanism 2 is used for driving camera module 1 and rotates between primary importance and second place around first rotation axis 21, consequently, can drive camera 11 and rotate between primary importance and second place through rotary mechanism 2. In addition, when the camera module 1 rotates to the first position around the first rotating shaft 21, the lens of the camera 11 faces the first object to be photographed, and when the camera module 1 rotates to the second position around the first rotating shaft 21, the lens of the camera 11 faces the second object to be photographed, wherein the first object to be photographed is opposite to the second object to be photographed, and the electric connector 3 is electrically connected with the camera 11, so that power can be supplied to the camera 11, and therefore, under the action of the rotating mechanism 2 and the electric connector 3, the camera 11 can respectively photograph the first object to be photographed and the second object to be photographed which are located in opposite directions.

In addition, because the camera device further comprises the adjusting mechanism 4, when the camera device further comprises the adjusting mechanism 4, no matter the camera 11 rotates around the second rotating shaft 25 along the preset direction or rotates around the second rotating shaft 25 along the direction opposite to the preset direction, the electric connecting lines are in a 'tight' state, and therefore the situation that the electric connecting lines are stacked near the second rotating shaft 25, so that the electric connecting lines are not regular enough and are messy is avoided. Moreover, because the electrical connection wire is always in a "tight" state, the situation that the electrical connection wire is frequently broken in the process of changing between the "tight" state and the "loose" state, so that the camera 11 fails is avoided.

The embodiment of the application also provides an electronic device provided with the camera device based on the camera device shown in fig. 1 to 16. Fig. 17 is a schematic structural diagram of an electronic device provided in an embodiment of the present application, and referring to fig. 17, the electronic device includes: the device case 100, the camera device 200 according to any one of the first to third embodiments, and the main board 300. Wherein, an opening 101 is arranged on the equipment shell; the camera device 200 is disposed in the opening 101, and the main board 300 is electrically connected to the electrical connection member 3.

The camera device 200 in this embodiment has the same structure as the camera device 200 provided in the first embodiment, and can bring about the same or similar technical effects, and details are not repeated here, and specific reference may be made to the description of the first embodiment.

The electronic device may be a learning machine, a tablet computer, a notebook computer, a desktop computer, or the like, and the electronic device is not limited in the embodiment of the present application.

In the embodiment of the application, when the camera device provided in the first embodiment is applied to the electronic device and the electronic device is vertically erected on a desktop, when a first object to be photographed located on a first side of the electronic device needs to be photographed, the rotating mechanism 2 can drive the camera 11 to rotate left around the first rotating shaft 21, so that the camera 11 rotates to a first position, and further a lens of the camera 11 faces the first object to be photographed, and thus, the first object to be photographed located on the first side of the electronic device can be photographed by the camera 11. When an object to be shot of a second side of the electronic device opposite to the first side needs to be shot, the rotating mechanism 2 can be used for driving the camera 11 to rotate rightwards around the first rotating shaft 21, so that the camera 11 rotates to a second position, the lens of the camera 11 faces the second object to be shot, and therefore the object to be shot of the second side of the electronic device can be shot through the camera 11. It can be seen that, the camera device provided in the embodiment of the present application, through the same camera 11, can shoot both the first object to be shot located at the first side of the electronic device, and can shoot the second object to be shot located at the second side of the electronic device. In general, one camera 11 may serve as both a front camera and a rear camera of the electronic device. Therefore, the situation that the electronic equipment needs to be provided with at least two different cameras simultaneously to meet the functional requirements of the front camera and the rear camera is avoided, and the manufacturing cost of the electronic equipment can be saved.

The camera device and the electronic device disclosed in the embodiments of the present invention are described in detail above, and the principles and embodiments of the present invention are explained herein by using specific examples, and the descriptions of the above embodiments are only used to help understanding the camera device and the electronic device and their core ideas of the present invention; meanwhile, for the general technical personnel in the field, according to the idea of the present invention, there are changes in the specific implementation and application scope, and in summary, the content of the present specification should not be understood as the limitation of the present invention.

Claims

1. A camera device, comprising:

the camera module is provided with a camera;

the electric connecting piece is electrically connected with the camera.

2. The camera device according to claim 1, wherein the rotation mechanism includes:

a motor having a rotational shaft;

3. The camera device according to claim 2, wherein the rotation mechanism further comprises:

the second bevel gear is connected to a second end of the first rotating shaft.

4. The camera device according to claim 3, wherein the number of teeth of the first bevel gear is smaller than the number of teeth of the second bevel gear.

5. The camera device according to any one of claims 1 to 4, wherein the rotation mechanism further includes:

6. The camera device according to claim 5, wherein the camera module includes a camera mounting part on which the camera is mounted, one end of the camera mounting part being fixedly connected to the first end of the first rotation shaft and the other end being fixedly connected to the first end of the second rotation shaft;

7. The camera device according to claim 6, wherein the camera mounting portion includes: a first camera mounting block;

8. The camera device according to claim 6, wherein the camera mounting portion includes: a second camera mounting block;

9. The camera device of claim 8, wherein the camera mounting portion further comprises: a third camera mounting block;

10. The camera device according to claim 9, wherein the bisecting plane of the camera divides the third camera mounting block and the second camera mounting block into a first region and a second region, and a sum of a mass of the third camera mounting block and a mass of the second camera mounting block in the first region is equal to a sum of a mass of the third camera mounting block and a mass of the second camera mounting block in the second region.

11. A camera device according to any one of claims 6 to 10, wherein a wiring channel is provided in the shaft, at least some of the electrical connections being located in the wiring channel, the wiring channel being adapted to retain the electrical connections.

12. The camera device of claim 11, wherein said fixed shaft comprises a first half shaft and a second half shaft, said first half shaft and said second half shaft being removably connected, said first half shaft and said second half shaft enclosing said line channel.

13. The camera device of claim 5, further comprising an adjustment mechanism, the adjustment mechanism comprising:

the moving assembly is fixed on the camera module;

14. The camera device of claim 13, wherein the moving assembly comprises:

15. The camera device of claim 14, wherein the second end of the guide slot is provided with an anti-collision tab for preventing the stay from colliding with the second end of the guide slot.

16. The camera device according to any one of claims 1 to 4, further comprising: a transfer seat;

17. The camera device according to claim 1, further comprising: a rotating housing;

18. An electronic device, comprising:

the camera device of any one of claims 1-17, disposed in the opening;

the mainboard is electrically connected with the electric connecting piece.