CN118450229B - Camera device and electronic equipment - Google Patents

Abstract

The application discloses an imaging device and electronic equipment, and belongs to the technical field of auxiliary imaging. The image pickup device is used for electronic equipment and comprises a frame body with a magnetic attraction structure, the image pickup device comprises a main body part, a turnover part, an image pickup part, a data transmission part and an image pickup part, wherein the magnetic attraction part is arranged on the main body part and is used for attracting the magnetic attraction structure to adsorb the main body part on the frame body, the turnover part is rotatably arranged on the main body part, the image pickup part is arranged on the turnover part, the data transmission part is arranged on the main body part or the turnover part and is electrically connected with the image pickup part, and data transmission can be carried out between the image pickup part and the electronic equipment through the data transmission part. The modularization of the camera device is realized, the appearance of the electronic equipment cannot be greatly influenced, the camera device can be rapidly installed on the frame body of the electronic equipment through the magnetic attraction part and the magnetic attraction structure, and the use convenience and stability of the camera device are improved. Through the rotatable setting of upset portion, can realize the multi-angle shooting of portion of making a video recording.

Description

Image pickup device and electronic apparatus

Technical Field

The present application relates to the field of auxiliary imaging technologies, and in particular, to an imaging apparatus and an electronic device.

Background

In some fields, such as education fields, entertainment scenes and business scenes, flat-panel products equipped with a reversible camera are often needed, for example, in education fields, in order to meet demands of net lessons and the like, flat-panel products capable of realizing proactive oblique photographing are needed so as to photograph characters or images on a desktop, thereby improving teaching and learning effects. However, existing flat products have several problems in achieving this function:

some tablet products adopt a pop-up camera structure, namely, a camera is popped up from the inside of a tablet through a spring or motor drive, so that the function of proactive oblique photographing is realized. The structure has the defects of complex structure, easy damage and high maintenance cost, and influences the attractive appearance and the waterproof performance of the flat plate to reduce the experience of users.

Still other tablet products employ a flip-type camera structure, i.e., a camera is flipped from one side of the tablet to the other by mechanical or electronic control to effect a switch between proactive or post-shooting. The structure has the defects of complex structure, easy damage and high maintenance cost, and influences the attractive appearance and the waterproof performance of the flat plate to reduce the experience of users.

Other tablet products employ a multi-camera scheme, i.e., multiple cameras are mounted at different positions of the tablet to achieve different angles of shooting. The scheme has the defects of increasing the cost and the weight of the flat plate, affecting the portability and the cruising ability of the flat plate, and increasing the operation difficulty and the complexity of a user and reducing the experience of the user.

Disclosure of Invention

The application provides an imaging device and electronic equipment, wherein the imaging device is used for avoiding the technical problems of complex structure and inconvenient installation of the imaging device for the electronic equipment.

In order to achieve the above purpose, the embodiment of the present application adopts the following technical scheme:

In a first aspect, an image pickup apparatus is provided, the image pickup apparatus being used in an electronic device, the electronic device including a frame having a magnetic attraction structure, the image pickup apparatus including a main body portion on which a magnetic attraction portion is provided for attracting the main body portion to the frame, a flipping portion rotatably provided on the main body portion, an image pickup portion provided on the flipping portion, and a data transmission portion provided on the main body portion or the flipping portion and electrically connected to the image pickup portion, the image pickup portion and the electronic device being capable of data transmission therebetween via the data transmission portion.

The imaging device provided by the embodiment of the application realizes modularization of the imaging device, does not greatly influence the appearance of the electronic equipment, and can be quickly and conveniently installed on the frame body of the electronic equipment by sucking the magnetic part and the magnetic structure, so that the use convenience and stability of the imaging device are improved. The arrangement of the magnetic attraction part and the magnetic attraction structure can realize seamless connection between the image pickup device and the electronic equipment, complicated installation steps and tools are not needed, and the image pickup device does not need to be loose or fall off, so that the time and energy of a user are saved. Through rotatable setting of upset portion, can realize the multi-angle shooting of portion of making a video recording to satisfy different demands of making a video recording, like leading make a video recording, rearmounted make a video recording, desktop shoot etc. thereby improve camera device's flexibility of use and multifunctionality. The setting of upset portion can make the portion of making a video recording rotate on an axle center to realize the shooting of the positive and negative both sides of portion of making a video recording, and the slope of different angles is shot, adapts to different scenes of making a video recording, like video conversation, self-timer, shoot, scan etc. has enriched user's experience of making a video recording. Through the setting of data transmission portion, can realize the data transmission between camera portion and the electronic equipment to make camera device can use with control panel and the image processor etc. cooperation of electronic equipment, thereby improve camera device's use functionality and compatibility.

In one embodiment, a damping portion is provided between the flip portion and the main body portion to generate damping between the rotation axis of the flip portion and the main body. According to the imaging device provided by the embodiment of the application, through the arrangement of the damping part, the rotation angle of the turnover part can be finely adjusted in the rotation process of the turnover part, so that the turnover part can accurately stay at the shooting angle required by a user, and the use accuracy and stability of the imaging device are improved. The setting of damping portion can make the upset portion receive certain friction when rotating to increase the rotational accuracy of upset portion, make upset portion can adjust suitable shooting angle according to user's wish, thereby satisfy user's different requirements of making a video recording, also guaranteed definition and the stability of making a video recording the portion simultaneously. And after the turning part is turned, the turning position of the turning part is fixed, so that the turning part cannot be loosened or shifted due to the action of external force or gravity.

In one embodiment, the turnover part comprises a turnover body and rotating shafts respectively arranged at two sides of the turnover body, wherein the two rotating shafts positioned at two sides of the turnover body are concentric with the rotating shaft center, two opposite mounting holes are formed in the main body, and the two rotating shafts are respectively rotatably mounted in the two mounting holes. Through the concentric arrangement of the rotating shaft and the rotating shaft center, the rotating shaft center of the turnover seat body is overlapped with the rotating shaft center of the main body part, so that the rotation of the turnover seat body can not influence the position and the state of the main body part, and the use stability and the reliability of the camera device are improved.

In one embodiment, the damping portion includes a rotary damper mounted within the body portion, one of the two shafts being drivingly connected to the rotary damper. The rotary damping can be generated between the rotation axis of the turnover part and the main body part, so that the rotation of the turnover part is more stable and smooth, and the over-fast or over-slow rotation of the turnover part is avoided.

In one embodiment, the main body portion is provided with a receiving recess, and the two mounting holes are respectively provided on opposite sides of the receiving recess, and the flip portion has a hidden position received in the receiving recess. The turnover part does not occupy the space of the main body part and does not influence the appearance of the main body part when not in use, so that the camera device is lighter, thinner and simpler, simultaneously, the turnover part and the parts of the camera part are protected, and the invasion of dust and stains is prevented. Meanwhile, a safe protection position can be provided for the turnover part, so that the turnover part can avoid loosening or shifting due to the action of external force or gravity, and the use reliability and durability of the image pickup device are improved.

In one embodiment, a yielding opening is formed in the main body portion, two mounting holes are formed in two opposite sides of the yielding opening respectively, and the yielding opening is used for yielding the mounting holes, so that the turnover portion can turn over by 360 degrees. Through the setting of the opening of stepping down, can provide an unobstructed rotation space for the turnover part to make the turnover part can 360 upset, thereby realize the shooting of arbitrary angle of turnover part.

In one embodiment, the frame is provided with a contact portion electrically connected to the electronic device control board, and the data transmission portion includes a contact connector that contacts and is electrically connected to the contact portion with the main body portion being adsorbed to the frame. Through the setting of contact portion, can provide a reliable electric connection position for data transmission portion to make data transmission portion can be connected with electronic equipment's control panel electricity, thereby realize the data transmission between camera device and the electronic equipment, thereby improve camera device's service functionality and compatibility.

In one embodiment, the contact connector is disposed on the main body portion, and the image pickup device includes a main board portion electrically connected to the image pickup portion, the main board portion being mounted in the main body portion and electrically connected to the contact connector.

In one embodiment, the main board part and the camera part are electrically connected through wires, at least one of the rotating shafts is internally provided with a through cavity, the through cavity is communicated with the inside of the main body part, and the through cavity is used for the power supply wire to pass through. Through the setting of logical chamber, can provide a rotatable passageway for the electric wire to make the electric wire pass in the pivot, thereby realize the relative rotation between electric wire and the pivot, thereby improve camera device's flexibility of use and steadiness. The arrangement of the through cavity prevents the electric wire from being wound or pulled between the electric wire and the rotating shaft, thereby protecting the integrity and the safety of the electric wire.

In one embodiment, the turning part is provided with a first connecting part, and the side wall of the accommodating recess is provided with a second connecting part, and the first connecting part is connected with the second connecting part to fix the turning part in the accommodating recess when the turning part is in the hidden position. A reliable fixing mode is provided for the turnover part, so that the turnover part can be closely matched with the accommodating concave part when being accommodated, the turnover part is prevented from being shaken out from the accommodating concave part by mistake, and the abrasion and damage of parts of the turnover part are prevented.

In one embodiment, the first connection portion includes a first magnet assembly, and the second connection portion includes a second magnet assembly, and the first magnet assembly and the second magnet assembly are attracted to each other when the flip portion is in the hidden position, so as to fix the flip portion in the accommodating recess.

In one embodiment, the camera part comprises a first circuit board and a first camera, the first circuit board is electrically connected with the main board part through an electric wire, the first circuit board is provided with an angle sensing part, the first camera is arranged on the first side of the turnover body and is electrically connected with the first circuit board, and the first side of the turnover body is positioned in the turnover direction of the turnover part. Through the setting of first camera, can provide a part that can shoot for the upset portion, make the upset portion can shoot in the first side of upset pedestal to realize the positive shooting of upset portion, combine the effect of angle sensing portion, the angle of perception first camera can improve camera's flexibility of use and multifunctionality.

In one embodiment, the camera part further comprises a second camera, the second camera is arranged on the second side of the turnover body and is electrically connected with the first circuit board, and the first side of the turnover body is opposite to the second side of the turnover body.

In one embodiment, the main board part comprises a main board and an image processor arranged on the main board, and the main board part is electrically connected with the electric wires. The image processor can process the image signals on the main board, so that the image pickup device can process and display the images of the image pickup part, and the use effect and performance of the image pickup device are improved.

In one embodiment, the camera part further comprises an illumination part, and the illumination part is arranged on the first side of the turnover body and is electrically connected with the first circuit board. Through the setting of illumination portion, can provide a part that can throw light on for the portion of making a video recording, can make the illumination portion have functions such as flash light, light filling lamp, infrared lamp to make camera device can throw light on and light filling to the image of portion of making a video recording, thereby improve camera device's result of use and performance.

The second aspect of the application provides an electronic device, which comprises a frame, a magnetic attraction structure arranged on the frame, a control board arranged in the frame and an imaging device, wherein the imaging device is the imaging device, a contact part is arranged on the frame and is electrically connected with the control board, and the contact part and the magnetic attraction structure are arranged on the back of the upper part of the frame or the upper end of the frame.

By means of the technical scheme, the electronic equipment comprises the image pickup device, so that the electronic equipment at least has all beneficial effects of the image pickup device, and the description is omitted.

Drawings

Fig. 1 is a schematic structural diagram of an image capturing apparatus according to an embodiment of the present application;

fig. 2 is a front view of an image pickup apparatus according to an embodiment of the present application;

Fig. 3 is a rear view of an image capturing apparatus according to an embodiment of the present application;

Fig. 4 is a top view of an image capturing apparatus according to an embodiment of the present application;

fig. 5 is a schematic structural diagram of an image capturing apparatus with parts removed according to an embodiment of the present application;

FIG. 6 is a front view of an image capturing apparatus with parts removed according to an embodiment of the present application;

Fig. 7 is a schematic structural diagram of an image capturing device with a main body and a cover removed according to an embodiment of the present application;

fig. 8 is a front view of an image pickup apparatus with a main body and a cover removed according to an embodiment of the present application;

fig. 9 is a rear view of the camera device with the main body and the cover plate removed according to the embodiment of the application;

fig. 10 is a schematic structural view of a main body portion of the embodiment of the present application with parts such as a cover removed;

FIG. 11 is a front view of a main body with parts such as a cover removed according to an embodiment of the present application;

fig. 12 is a rear view of a main body with parts such as a cover removed according to an embodiment of the present application;

fig. 13 is a schematic structural view of a main body portion with parts such as a housing removed according to an embodiment of the present application;

FIG. 14 is a front view of a main body with parts such as a housing removed according to an embodiment of the present application;

FIG. 15 is a rear view of the body portion with parts such as the housing removed in accordance with the present application;

FIG. 16 is a top view of a main body with parts such as a housing removed according to an embodiment of the present application;

fig. 17 is a schematic cross-sectional view of an image capturing apparatus according to an embodiment of the present application;

FIG. 18 is a schematic cross-sectional view of an imaging device at another position according to an embodiment of the present application;

FIG. 19 is a schematic cross-sectional view of an image capturing device in yet another position according to an embodiment of the present application;

fig. 20 is a front view of an electronic device according to an embodiment of the present application;

fig. 21 is a rear view of an electronic device according to an embodiment of the present application;

FIG. 22 is a rear view of an electronic device according to another embodiment of the present application;

fig. 23 is a schematic structural diagram of an electronic device with an image capturing device removed according to an embodiment of the present application;

FIG. 24 is an enlarged view of a portion of area A of FIG. 23;

fig. 25 is a data transmission flow chart of an electronic device according to an embodiment of the present application.

Wherein, the meanings represented by the reference numerals are respectively as follows:

10. A main body portion; 11, a magnetic attraction part, 12, a mounting hole, 13, a containing concave part, 131, a second magnet assembly, 14, a shell, 15 and a cover body;

20. The turnover part, 21, a turnover seat body, 211, a base, 212, a cover plate, 22, a rotating shaft, 221, a through cavity, 23 and a first magnet assembly;

30. 31, a first circuit board, 311, an angle sensing part, 312, an interface, 32, a first camera;

41. A contact connector;

51. A rotary damper;

60. A main board part 61, a main board 62, an image processor;

70. An electric wire;

80. Sealing foam;

90. Frame 91, magnetic attraction structure 92, contact point.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the present application more apparent, embodiments of the present application will be described in further detail below with reference to the accompanying drawings.

It should be understood that in the description of the present application, it should be understood that the terms "length," "width," "thickness," "top," "bottom," "inner," "outer," "upper," "lower," "left," "right," and the like indicate or are based on the orientation or positional relationship shown in the drawings, merely to facilitate description of the present application and to simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present application.

The terms "first," "second," "third," "fourth," and the like are used merely to distinguish between descriptions and should not be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. For example, the first pushing portion and the second pushing portion are merely for distinguishing between the different pushing portions, and are not limited in their order, and the first pushing portion may also be named as the second pushing portion, and the second pushing portion may also be named as the first pushing portion, without departing from the scope of the various described embodiments. And the terms "first," "second," "third," "fourth," and the like are not intended to limit the scope of the indicated features to be necessarily different.

In the embodiments of the present application, unless explicitly specified and limited otherwise, the terms "connected," "connected," and the like are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally formed, mechanically connected, electrically connected, directly connected, indirectly connected via an intermediate medium, or in communication between two elements or in interaction with each other. The specific meaning of the above terms in the embodiments of the present application will be understood by those of ordinary skill in the art according to specific circumstances. In the description of the embodiments of the present application, the meaning of "plurality" is two or more, unless explicitly defined otherwise.

In the embodiment of the application, the 'and/or' is only one association relation describing the association object, and represents that three relations can exist, for example, A and/or B can represent that A exists independently, and A and B exist simultaneously and B exists independently. In addition, the character "/" herein generally indicates that the front and rear associated objects are an "or" relationship.

In this embodiment of the present application, words such as "in one embodiment," "illustratively," "for example," and the like are used to indicate examples, illustrations, or descriptions. Any embodiment or design described herein as "in one embodiment," "illustratively," "for example," should not be construed as preferred or advantageous over other embodiments or designs. Rather, the use of words such as "in one embodiment," "illustratively," "for example," and the like are intended to present related concepts in a concrete fashion.

The present application will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present application more apparent.

In some fields, such as education fields, entertainment scenes and business scenes, flat-panel products equipped with a reversible camera are often needed, for example, in education fields, in order to meet demands of net lessons and the like, flat-panel products capable of realizing proactive oblique photographing are needed so as to photograph characters or images on a desktop, thereby improving teaching and learning effects. However, existing flat products have several problems in achieving this function:

some tablet products adopt a pop-up camera structure, namely, a camera is popped up from the inside of a tablet through a spring or motor drive, so that the function of proactive oblique photographing is realized. The structure has the defects of complex structure, easy damage and high maintenance cost, and influences the attractive appearance and the waterproof performance of the flat plate to reduce the experience of users.

Still other tablet products employ a flip-type camera structure, i.e., a camera is flipped from one side of the tablet to the other by mechanical or electronic control to effect a switch between proactive or post-shooting. The structure has the defects of complex structure, easy damage and high maintenance cost, and influences the attractive appearance and the waterproof performance of the flat plate to reduce the experience of users.

Other tablet products employ a multi-camera scheme, i.e., multiple cameras are mounted at different positions of the tablet to achieve different angles of shooting. The scheme has the defects of increasing the cost and the weight of the flat plate, affecting the portability and the cruising ability of the flat plate, and increasing the operation difficulty and the complexity of a user and reducing the experience of the user.

Specifically, referring to fig. 1 to 16 and 23 and 24, the image pickup apparatus according to the embodiment of the present application is used for an electronic device, the image pickup apparatus is used for the electronic device, the electronic device includes a frame 90 having a magnetic attraction structure 91, the image pickup apparatus includes a main body 10, a flipping portion 20, an image pickup portion 30, and a data transmission portion, the main body 10 is provided with the magnetic attraction structure 91 for attracting the main body 10 to the frame 90, the flipping portion 20 is rotatably provided on the main body 10, the image pickup portion 30 is provided on the flipping portion 20, the data transmission portion is provided on the main body 10 or the flipping portion 20 and is electrically connected with the image pickup portion 30, and data transmission can be performed between the image pickup portion 30 and the electronic device through the data transmission portion. The above-mentioned setting mode has realized camera device's modularization, and can not cause very big influence to electronic equipment's outward appearance, specifically, inhale the structure 91 mutually through magnetism portion 11 and magnetism, can install camera device fast, conveniently on electronic equipment's framework 90 to improve camera device's use convenience and steadiness. The arrangement of the magnetic attraction part 11 and the magnetic attraction structure 91 can realize seamless connection between the image pickup device and the electronic equipment, does not need complicated installation steps and tools, and does not need to worry about loosening or falling of the image pickup device, thereby saving time and energy of users and ensuring the safety and reliability of the image pickup device. The electronic device is an electronic product with a display screen, a control panel, an image processor 62 and other components, such as a tablet computer, a notebook computer, a smart phone and the like, and can be used in various occasions such as education, entertainment, office and the like. The housing 90 is a casing of the electronic device, and is used for protecting the internal components of the electronic device and also playing an aesthetic role. The magnetic attraction structure 91 refers to a structure that attracts objects by magnetic force, and can be used to achieve connection or separation between objects. The magnetic attraction part 11 is a part of the image pickup device, and is used for attracting the magnetic attraction structure 91 to connect or disconnect the image pickup device and the electronic device.

The image pickup device of the embodiment of the application can realize multi-angle shooting of the image pickup part 30 through the rotatable arrangement of the turnover part 20, thereby meeting different image pickup requirements, such as front image pickup, rear image pickup, desktop image pickup and the like, and further improving the use flexibility and versatility of the image pickup device. The setting of the turnover part 20 can enable the camera part 30 to rotate on an axle center, thereby realizing the shooting of the front and back sides of the camera part 30 and the oblique shooting of different angles, adapting to different shooting scenes, such as video call, self-shooting, scanning and the like, enriching the shooting experience of users and simultaneously saving the cost of purchasing a plurality of cameras for users. The turning part 20 is a part of the image capturing device, and is used for supporting and rotating the image capturing part 30 to achieve multi-angle capturing of the image capturing part 30. The image pickup unit 30 is a part of the image pickup device, and is used for capturing images, and includes a camera, a circuit board, an illumination unit, and the like.

The image pickup device of the embodiment of the application can realize the data transmission between the image pickup part 30 and the electronic equipment through the arrangement of the data transmission part, so that the image pickup device can be matched with a control board of the electronic equipment, an image processor 62 and the like for use, thereby improving the use functionality and compatibility of the image pickup device. The data transmission part is arranged, so that the transmission of electric signals can be realized between the image pickup part 30 and the electronic equipment, the image pickup part 30 can receive control instructions of the electronic equipment, and image data shot by the image pickup part 30 is sent to the electronic equipment, so that the image pickup device can be coordinated with software and hardware of the electronic equipment, better image quality and effect can be realized, and meanwhile, the application range and compatibility of the image pickup device are also increased. The data transmission unit is a part of the imaging device, and is used for data transmission with the electronic device, and may be the contact connector 41 or a component such as a wireless module. The control board refers to a part inside the electronic device for controlling various functions of the electronic device, including transmitting control instructions, receiving image data, and the like. The image processor 62 refers to a portion of the interior of the electronic device for processing image data, including compression, decoding, filtering, enhancement, and the like.

The use scene of the camera device can be an educational scene that the camera device can be used for an educational learning flat board so as to shoot characters or images on a desktop, thereby improving teaching and learning effects. For example, when a teacher needs an imaging device, the imaging device can be mounted on a tablet, the teacher can use the imaging device to shoot the contents of a textbook or a blackboard and adjust the angle of the imaging part 30 to enable the student to watch on the tablet, the student can use the imaging device to shoot the homework or the examination paper and adjust the angle to enable the teacher to correct on the tablet, and the teacher and the student can use the imaging device to conduct video call to realize remote teaching. Entertainment scene-the camera device can be used for entertainment tablet to shoot own or surrounding scenery, thereby increasing entertainment fun. For example, the user can shoot self-timer or video by the camera device and share the self-timer or video to the social platform, and the user can shoot surrounding scenery or figures by the camera device to make photos or videos and store the photos or videos on the tablet. When in carrying, the utility model does not occupy the space of the flat plate, the storage mode of the flat plate is not changed, and carrying in a modularization way. The camera device can be used for a business class tablet so as to shoot commodities or documents, thereby improving the efficiency of business. For example, a merchant can take pictures or videos of commodities by using a camera according to the required shooting angle of the products, upload the pictures or videos to the internet for display or sale, and when the documents and the contracts need to be shot, a business person can suck the camera on a flat plate, take the documents or the contracts by using the camera, send the documents or the contracts to clients or partners for communication or signing.

A damping portion is provided between the turning portion 20 and the main body portion 10 in the embodiment of the present application to generate damping between the rotation axis of the turning portion 20 and the main body. Through the setting of damping portion, can produce the damping between the rotation axle center of upset portion 20 and main part 10 to make the rotation of upset portion 20 more steady and smooth and easy, avoid the too fast or the too slow rotation of upset portion 20, thereby improve camera device's travelling comfort and security. The damping part can enable the turnover part 20 to receive certain resistance when rotating, so that inertia and vibration of the turnover part 20 are reduced, and the rotating speed and the force of the turnover part 20 are more moderate, so that discomfort or danger to a user caused by rotation of the turnover part 20 is avoided, meanwhile, components of the camera part 30 are protected, and the service life of the camera device is prolonged.

In addition, by the arrangement of the damping portion, the imaging device of the embodiment of the application can finely adjust the rotation angle of the turnover portion 20 in the rotation process of the turnover portion 20, so that the turnover portion 20 can accurately stay at the shooting angle required by the user, and the use accuracy and stability of the imaging device are improved. The setting of damping portion can make the upset portion 20 receive certain friction when rotating to increase the rotational accuracy of upset portion 20, make upset portion 20 can adjust suitable shooting angle according to user's wish, thereby satisfy user's different shooting demands, also guaranteed definition and the stability of portion 30 of making a video recording simultaneously.

And after the rotation of the turning part 20 is finished, the rotation position of the turning part 20 is fixed, so that the turning part 20 cannot be loosened or shifted due to the action of external force or gravity, and the use reliability and durability of the image pickup device are improved. The damping part can enable the turnover part 20 to receive a certain locking force after rotating to the target position, so that the rotating position of the turnover part 20 is fixed, and the situation that the rotating position of the turnover part 20 is changed due to the operation of a user or the change of the environment is avoided, and the shooting effect of the user is affected.

Referring to fig. 7 to 9, the turning part 20 of the embodiment of the present application includes a turning body 21 and rotating shafts 22 respectively disposed at two sides of the turning body 21, two rotating shafts 22 disposed at two sides of the turning body 21 are disposed concentrically with the rotation axis, two opposite mounting holes 12 are disposed on the main body 10, and the two rotating shafts 22 are rotatably mounted in the two mounting holes 12, respectively. Through the concentric arrangement of the rotating shaft 22 and the rotating shaft center, the rotating shaft center of the turnover seat body 21 and the rotating shaft center of the main body 10 are overlapped, so that the rotation of the turnover seat body 21 does not affect the position and the state of the main body 10, the use stability and the reliability of the image pickup device are improved, and through the arrangement of the turnover seat body 21, a rotatable supporting platform can be provided for the image pickup part 30, so that the image pickup part 30 can pick up images on two sides of the turnover seat body 21, the photographing of the front side and the back side of the image pickup part 30 and the oblique photographing of different angles are realized, and the use flexibility and the versatility of the image pickup device are improved.

The flip base 21 includes a base 211 and a cover 212, and an installation space is provided between the cover 212 and the base 211 for installing related components of the image capturing portion 30, such as a circuit board, a flat cable, and the like. The base 211 and the cover plate 212 can be connected by a threaded fastener, clamped and the like. The cover 212 is provided with a through hole for exposing the camera of the camera part 30, and sealing treatment is performed between the through hole and the camera, such as sealing foam 80.

Specifically, the damping portion of the embodiment of the present application includes a rotary damper 51, the rotary damper 51 is installed in the main body portion 10, and one of the two rotating shafts 22 is in driving connection with the rotary damper 51. Rotation damping can be generated between the rotation axis of the turnover part 20 and the main body part 10, so that the rotation of the turnover part 20 is smoother and more stable, and the excessive or excessive slow rotation of the turnover part 20 is avoided, thereby improving the use comfort and safety of the image pickup device. The driving connection refers to connection between two transmission parts, wherein the connection can realize power transmission. The rotary damper 51 can enable the turnover part 20 to receive a certain rotation resistance during rotation, so that inertia and vibration of the turnover part 20 are reduced, and the rotation speed and force of the turnover part 20 are more moderate, so that discomfort or danger to a user caused by rotation of the turnover part 20 is avoided, meanwhile, components of the image pickup part 30 are protected, and the service life of the image pickup device is prolonged. Meanwhile, the rotation angle of the turnover part 20 can be finely adjusted in the rotation process of the turnover part 20, so that the turnover part 20 can accurately stay at the shooting angle required by a user. The turning part 20 can be subjected to certain rotation friction during rotation, so that the rotation precision of the turning part 20 is increased, and the turning part 20 can be adjusted to a proper shooting angle according to the intention of a user. After the turning of the turning part 20 is completed, the turning position of the turning part 20 is fixed, so that the turning part 20 is not loosened or shifted due to the external force or gravity, and the use reliability and durability of the image pickup apparatus are improved. The rotation damper 51 is provided to allow the turning portion 20 to receive a certain rotation locking force after being turned to the target position, thereby fixing the turning position of the turning portion 20.

Among them, the rotary damper 51 is a device for providing resistance to the rotating member, controlling the speed and angle of the rotating member, and reducing vibration and noise of the rotating member, improving stability and life of the rotating member. The rotary damper 51 may employ a gear rotary damper 51, a cylindrical rotary damper 51, a rubber rotary damper 51, etc., wherein the gear damper generates damping by friction of a gear and damping oil. And a cylinder damper for generating damping by rotation of the cylinder and damping oil. The rubber rotation damper 51 generates damping by using elasticity and friction of rubber.

Referring to fig. 10 and 11, in order to facilitate portability and avoid damage to the connection between the flip portion 20 and the main body portion 10, the main body portion 10 of the embodiment of the present application is provided with a receiving recess 13, and two mounting holes 12 are respectively provided at opposite sides of the receiving recess 13, and the flip portion 20 has a hidden position received in the receiving recess 13. By providing the accommodating recess 13, a hidden storage position can be provided for the flip portion 20, so that the flip portion 20 can be completely accommodated in the main body portion 10, thereby improving the convenience and the aesthetic property of the image pickup apparatus. The accommodating recess 13 can prevent the turnover part 20 from occupying the space of the main body 10 and affecting the appearance of the main body 10 when not in use, so that the imaging device is lighter, thinner and simpler, and meanwhile, the components of the turnover part 20 and the imaging part 30 are protected, and invasion of dust and dirt is prevented. Meanwhile, a safe protection position can be provided for the turnover part 20, so that the turnover part 20 can avoid loosening or shifting due to the action of external force or gravity, and the use reliability and the durability of the image pickup device are improved. The accommodating recess 13 is provided to enable the turnover part 20 to form a close match with the main body part 10 when being accommodated, so that the rotation position of the turnover part 20 is fixed, the rotation position of the turnover part 20 is prevented from being changed due to the operation of a user or the change of the environment, the image pickup effect of the user is affected, and the abrasion and damage of the parts of the turnover part 20 are prevented. When the turnover part 20 needs to be stored, the user can rotate the turnover part 20 to a position corresponding to the main body part 10 along the rotation axis, and then push the turnover part 20 into the accommodating recess 13 until the turnover part 20 is completely hidden in the main body part 10, so that the turnover part 20 does not occupy the space of the main body part 10. When the flip portion 20 is required to be used, the user can pull the flip portion 20 out of the accommodating recess 13 and then rotate the flip portion 20 to a desired photographing angle along the rotation axis.

In order to realize 360 ° turning of the turning part 20, in another embodiment of the present application, a yielding opening is provided on the main body part 10 of the embodiment of the present application, and two mounting holes 12 are respectively provided on two opposite sides of the yielding opening, where the yielding opening is used for yielding the mounting holes 12, so that the turning part 20 can turn 360 °. Through the setting of the opening of stepping down, can provide an unobstructed rotation space for the turnover part 20 to make the turnover part 20 can 360 upset, thereby realize the shooting of arbitrary angle of turnover part 20, thereby improve camera device's flexibility of use and multifunctionality. The setting of the opening of stepping down can make the turnover part 20 when rotating, can not collide or interfere with other parts of the main body part 10 to make the rotation of the turnover part 20 smoother and free, satisfy different shooting demands of users and provide a hidden storage position for the turnover part 20 through the setting of the opening of stepping down, thereby make the turnover part 20 completely contained in the main body part 10, and further improve the use convenience and the aesthetic property of the shooting device. The setting of the opening of stepping down can make the turnover part 20 not occupy the space of the main body part 10 when not in use, and does not influence the appearance of the main body part 10, thereby making the camera device lighter and thinner and succinct, simultaneously protecting the parts of the turnover part 20 and the camera part 30, and preventing the invasion of dust and dirt.

Referring to fig. 24, a contact portion 92 electrically connected to a control board of an electronic device is provided on a housing 90 according to an embodiment of the present application, and a data transmission portion includes a contact connector 41, and the contact connector 41 is brought into contact with and electrically connected to the contact portion 92 in a state where the main body portion 10 is adsorbed to the housing 90. By the arrangement of the contact portion 92, a reliable electrical connection position can be provided for the data transmission portion, so that the data transmission portion can be electrically connected with a control board of the electronic device, data transmission between the image pickup device and the electronic device is realized, and the use functionality and compatibility of the image pickup device are improved. When the data transmission part is adsorbed on the frame body 90, the data transmission part is automatically contacted with and electrically connected with the contact part 92 on the frame body 90, so that the data transmission part can transmit electric signals with a control board of the electronic equipment, the camera device can be matched with the control board of the electronic equipment, the image processor 62 and the like for use, and the use effect and performance of the camera device are improved. The number of the magnetic attraction structure 91 is plural, and the contact portion 92 is provided between the two magnetic attraction structures 91. Wherein the magnetic attraction structure 91 is a magnet.

In addition, by the arrangement of the contact connector 41, a simple connection mode can be provided for the data transmission part, so that the data transmission part can be quickly and conveniently contacted with and electrically connected with the contact part 92, and the use convenience and stability of the image pickup device are improved. The contact connector 41 can make the data transmission part contact with the contact part 92 without complex plugging or pairing operation when being adsorbed on the frame 90, so that the data transmission part can be detachably connected with the contact part 92, and the use flexibility of the camera device is improved.

When the image pickup device needs to be connected with the electronic equipment, a user can approach the main body part 10 of the image pickup device to the frame body 90 of the electronic equipment, and the main body part 10 of the image pickup device is adsorbed on the frame body 90 by utilizing the magnetic force of the magnetic attraction part 11 and the magnetic attraction structure 91, so that the data transmission part of the image pickup device is automatically contacted with and electrically connected with the contact part 92 on the frame body 90, thereby realizing data transmission between the image pickup device and the electronic equipment, enabling the image pickup device to be matched with the control board of the electronic equipment, the image processor 62 and the like, and improving the use effect and the performance of the image pickup device.

When the image pickup device needs to be disconnected from the electronic equipment, the user can pull the main body part 10 of the image pickup device away from the frame body 90 of the electronic equipment, and separate the main body part 10 of the image pickup device from the frame body 90 by utilizing the magnetic force of the magnetic attraction part 11 and the magnetic attraction structure 91, so that the data transmission part of the image pickup device is automatically disconnected from the contact part 92 on the frame body 90 and electrically disconnected, thereby realizing data disconnection between the image pickup device and the electronic equipment, and further separating the image pickup device from the control panel, the image processor 62 and the like of the electronic equipment, thereby improving the use flexibility of the image pickup device. The contact connector 41 may be a PogoPin connector.

Referring to fig. 2, 4, 12 to 14 and 16 to 19, the contact connector 41 according to the embodiment of the present application is disposed on the main body 10, and the image pickup apparatus includes a main board 60 electrically connected to the image pickup section 30, and the main board 60 is mounted in the main body 10 and electrically connected to the contact connector 41. By providing the main board 60, a reliable electrical connection position can be provided for the image pickup unit 30, so that the image pickup unit 30 can be electrically connected with the main board 60, thereby realizing data exchange between the image pickup unit 30 and the main board 60, and improving the use functionality and compatibility of the image pickup device. The main board 60 is arranged, and the image pickup unit 30 and the main board 60 are electrically connected through the electric wire 70, so that the image pickup unit 30 can transmit image signals with the main board 60, and the image pickup device can process and display images of the image pickup unit 30, thereby improving the use effect and performance of the image pickup device.

The main body 10 includes a housing 14 and a cover 15, a cavity is formed between the cover 15 and the housing 14 for mounting the main board 60, and the cover 15 and the housing 14 may be connected by a threaded fastener or may be clamped. The main plate portion 60 is fixed to the housing 14 by screws, and the damper portion is installed in the cavity.

When the image pickup device needs to be connected with the electronic equipment, the user can approach the main body 10 of the image pickup device to the frame 90 of the electronic equipment, and the main body 10 of the image pickup device is adsorbed on the frame 90 by utilizing the magnetic force of the magnetic attraction part 11 and the magnetic attraction structure 91, so that the contact connector 41 on the main board 60 of the image pickup device is automatically contacted with and electrically connected with the contact part 92 on the frame 90, thereby realizing the electric connection between the main board 60 and the control board of the electronic equipment, and the image pickup device can be matched with the control board of the electronic equipment, the image processor 62 and the like, and the use effect and performance of the image pickup device are improved.

Referring to fig. 5 to 8, in the embodiment of the present application, the main board 60 and the image pickup portion 30 are electrically connected by an electric wire 70, at least one of the rotating shafts 22 is internally provided with a through cavity 221, the through cavity 221 is communicated with the inside of the main body 10, and the through cavity 221 is used for passing through the electric wire 70. Through the arrangement of the through cavity 221, a rotatable channel can be provided for the electric wire 70, so that the electric wire 70 can pass through the rotating shaft 22, and the relative rotation between the electric wire 70 and the rotating shaft 22 is realized, thereby improving the use flexibility and stability of the camera device. The arrangement of the through cavity 221 prevents the wire 70 from being wound or pulled with the rotating shaft 22, thereby protecting the integrity and safety of the wire 70.

By providing the electric wires 70, a reliable electrical connection manner can be provided for the main board 60 and the image pickup unit 30, so that the main board 60 and the image pickup unit 30 can be electrically connected through the electric wires 70, thereby realizing data exchange between the main board 60 and the image pickup unit 30, and improving the use functionality and compatibility of the image pickup device. When the turnover part 20 needs to rotate, a user can rotate the turnover part 20 to a required shooting angle along the rotation axis, so that the turnover part 20 can shoot at two sides of the turnover seat body 21, shooting of the front side and the back side of the shooting part 30 and oblique shooting of different angles are realized, and the use flexibility and the versatility of the shooting device are improved. In the rotation process of the turnover part 20, the electric wire 70 also rotates along with the rotation of the rotating shaft 22 and passes through the through cavity 221 of the rotating shaft 22, so that the relative rotation between the electric wire 70 and the rotating shaft 22 is realized, the electric wire 70 and the rotating shaft 22 are prevented from being wound or pulled, and the integrity and the safety of the electric wire 70 are protected.

The turning part 20 of the embodiment of the present application is provided with a first connection part, and the side wall of the accommodating recess 13 is provided with a second connection part, and when the turning part 20 is in the hidden position, the first connection part is connected with the second connection part to fix the turning part 20 in the accommodating recess 13. The side walls on each side of the accommodation recess 13 are preferably side walls capable of being turned over by the stopper turning portion 20. Through the arrangement of the first connecting part and the second connecting part, a reliable fixing mode can be provided for the turnover part 20, so that the turnover part 20 can form a tight match with the accommodating concave part 13 when being accommodated, the turnover part 20 is prevented from being shaken out from the accommodating concave part 13 by mistake, and the abrasion and damage of components of the turnover part 20 are prevented.

When the turnover part 20 needs to be stored, a user can rotate the turnover part 20 to a position parallel to the main body part 10 along the rotation axis, and then push the turnover part 20 into the accommodating concave part 13 until the turnover part 20 is completely hidden in the main body part 10, so that the turnover part 20 does not occupy the space of the main body part 10 and does not influence the appearance of the main body part 10, the imaging device is lighter, thinner and simpler, and meanwhile, the components of the turnover part 20 and the imaging part 30 are protected, and the invasion of dust and stains is prevented. During the storage of the flip portion 20, the first connection portion on the flip portion 20 is automatically connected with the second connection portion on the side wall of the accommodating recess 13.

The first connecting portion and the second connecting portion can adopt a buckle, a clamping ring, a clamping groove and the like to realize connection between the first connecting portion and the second connecting portion. This form can increase the tightness and removability of the connection portion, thereby improving the flexibility of use and maintainability of the connection portion.

In a preferred embodiment, the first connection part of the embodiment of the present application includes a first magnet assembly 23, and the second connection part includes a second magnet assembly 131, and the first magnet assembly 23 and the second magnet assembly 131 attract each other to fix the flip part 20 in the accommodating recess 13 when the flip part 20 is in the hidden position. Through the arrangement of the first magnet assembly 23 and the second magnet assembly 131, a more reliable fixing mode can be provided for the turnover part 20, so that the turnover part 20 can form a tighter match with the accommodating concave part 13 when being accommodated, the first magnet assembly 23 can enable the turnover part 20 to be attracted with the second magnet assembly 131 on the side wall of the accommodating concave part 13 when being accommodated, and therefore the turnover part 20 is subjected to a larger fixing force, and abrasion and damage of components of the turnover part 20 are prevented. In addition, compare in buckle, structure such as snap ring, fixed mode life-span of magnetic force mode is longer, and is not fragile. Wherein, the first magnet assembly 23 and the second magnet assembly 131 each include a plurality of magnets to ensure the adsorption strength. Preferably, the second magnet assembly 131 includes two magnets, which are respectively located at two sides of the accommodating recess 13, and the first magnet assembly 23 includes two magnets, which are respectively located corresponding to the two magnets of the second magnet assembly 131. Through the setting of first magnetite subassembly 23 and second magnetite subassembly 131, can provide a simpler dismantlement mode for turnover portion 20 to make turnover portion 20 can be when using, with hold the recess 13 between realize more quick, convenient dismantlement, thereby improve camera device's flexibility of use and maintainability.

The image capturing portion 30 of the embodiment of the present application includes a first circuit board 31 and a first camera 32, the first circuit board 31 is electrically connected with the main board 60 through an electric wire 70, an angle sensing portion 311 is disposed on the first circuit board 31, and the first camera 32 is disposed on a first side of the flip body 21 and is electrically connected with the first circuit board 31, wherein the first side of the flip body 21 is located in a flip direction of the flip portion 20. Through the arrangement of the first circuit board 31, a reliable electric connection position can be provided for the first camera 32, and data exchange between the first camera 32 and the first circuit board 31 is realized, so that the use functionality and compatibility of the camera device are improved. The first circuit board 31 is provided. Through the arrangement of the first camera 32, a part capable of shooting can be provided for the turnover part 20, so that the turnover part 20 can shoot at the first side of the turnover seat body 21, thereby realizing shooting of the front surface of the turnover part 20 and improving the use flexibility and the versatility of the camera device. The first circuit board 31 is provided with a socket 312, and the flat cable of the first camera 32 is plugged in the socket 312. The socket 312 is a BTB female socket. Through the arrangement of the angle sensing part 311, a perceptible component can be provided for the turnover part 20, so that the electronic equipment can sense the angle of the image pickup device, and the adjustment and control of the orientation of the image pickup device by a user are realized. Besides the arrangement of the angle sensing part 311, the first circuit board 31 can also have functions of a gyroscope, an accelerometer, a magnetometer and the like, so that the imaging device can sense parameters such as angle, speed, direction and the like of the imaging device, and the use effect and performance of the imaging device are improved. When the photographing device needs photographing, the user can pull the turnover part 20 out of the accommodating recess 13, then rotate the turnover part 20 to a required photographing angle along the rotation axis, obtain a practical scene through the angle sensing part 311, for example, when the first camera 32 faces downwards, obtain a signal of checking operation or photographing files, and the control part controls the tablet system to adjust to a corresponding mode, such as improving font resolution, black-white mode, and the like.

Referring to fig. 5, 6, 10 and 11, the main board 60 according to the embodiment of the present application includes a main board 61 and an image Processor 62 (ISPIMAGE SIGNAL Processor) provided on the main board 61, and the main board 60 is electrically connected to the electric wires 70. The image processor 62 is disposed on the main board 61 and electrically connected to the main board 61, so that the image processor 62 can process the image signal on the main board 61, thereby enabling the image pickup device to process and display the image of the image pickup section 30, and improving the use effect and performance of the image pickup device. The image processor 62 may be further configured to enable the image processor 62 to have functions of image enhancement, image compression, image encoding, image decoding, etc., so that the image capturing apparatus can optimize and convert the image of the image capturing section 30, thereby improving the use effect and performance of the image capturing apparatus. When the image pickup apparatus is required to be used, a user can connect the image pickup apparatus to the data transmission section of the electronic device, thereby enabling the image pickup apparatus to exchange data with the electronic device, and thus realizing the use of the image pickup apparatus. In the use process of the image pickup device, the main board 60 is electrically connected with the electric wire 70 through the electric wire 70, so that the image pickup device can perform data transmission with the data transmission part of the electric wire 70, and the image pickup device is matched with the control board of the electronic equipment. The main board portion 60 can also manage and control the power supply of the main board portion 60, thereby enabling the image pickup apparatus to adjust and control the power supply of the main board portion 60.

The angle sensor may be an acceleration sensor, and since the acceleration sensor receives the action of gravity when being placed at rest, there is a gravitational acceleration of 1 g. By taking advantage of this property, the inclination angle in the vertical plane can be calculated by measuring the component of the gravitational acceleration in the X/Y axis.

In order to meet more application scenarios, the camera part 30 of the embodiment of the present application further includes a second camera, where the second camera is disposed on the second side of the flip seat body 21 and is electrically connected to the first circuit board 31, and the first side of the flip seat body 21 is disposed opposite to the second side of the flip seat body 21. Through the setting of second camera, can make the second camera set up the second side at upset pedestal 21 to make the second camera shoot in the opposite direction of the upset direction of upset portion 20, thereby realize the shooting of the reverse side of upset portion 20, thereby satisfy user's different shooting demands, also guaranteed definition and the stability of second camera simultaneously. The second camera is arranged, so that the second camera has the functions of face recognition, face beautifying, face sticker and the like, and accordingly the camera device can process the images of the second camera in a face-related manner, and the using effect of the camera device is improved. The second camera may provide a switchable component for the camera section 30, so that the camera section 30 can be switched between the first camera 32 and the second camera, thereby switching the front and back sides of the camera section 30. Thereby satisfy user's different camera demands, guaranteed definition and stability of first camera 32 and second camera simultaneously as well, if first camera 32 is 13M wide-angle autofocus, the second camera can be 50M autofocus, and user can different demands, selects the camera that corresponds to use.

The image capturing section 30 according to the embodiment of the present application further includes an illumination section disposed on the first side of the flip body 21 and electrically connected to the first circuit board 31. By the arrangement of the illumination part, an illuminable component can be provided for the image pickup part 30, and the illumination part can have the functions of a flash lamp, a light supplementing lamp, an infrared lamp and the like, so that the image pickup device can illuminate and supplement light to the image of the image pickup part 30, and the use effect and the performance of the image pickup device are improved.

By providing the illumination unit, a coordinated component may be provided for the image capturing unit 30, so that the image capturing unit 30 may be coordinated with the illumination unit, thereby achieving adjustment and control of illumination of the image capturing unit 30. The illumination section is electrically connected to the first circuit board 31 so that the illumination section can transmit illumination signals to the first circuit board 31, thereby enabling the image pickup apparatus to adjust and control illumination of the illumination section. The illumination unit and the first circuit board 31 can be switched to switch illumination signals, so that the imaging device can switch between different illumination modes, and the illumination of the imaging unit 30 can be adjusted and controlled, so that different imaging requirements of users can be met.

Referring to fig. 20 to 24, according to a second aspect of the present application, there is provided an electronic device, which includes a housing 90, a magnetic attraction structure 91 disposed on the housing 90, and a control board and an image pickup device disposed inside the housing 90, wherein the image pickup device is the image pickup device, the housing 90 is provided with a contact portion 92, the contact portion 92 is electrically connected with the control board, and the contact portion 92 and the magnetic attraction structure 91 are disposed on a back of an upper portion of the housing 90 or an upper end of the housing 90.

The electronic device is an electronic product with a display screen, a control panel, an image processor 62 and other components, such as a tablet computer, a notebook computer, a smart phone and the like, and can be used in various occasions such as education, entertainment, office and the like. The housing 90 is a casing of the electronic device, and is used for protecting the internal components of the electronic device and also playing an aesthetic role. The magnetic attraction structure 91 refers to a structure that attracts objects by magnetic force, and can be used to achieve connection or separation between objects. The magnetic attraction part 11 is a part of the image pickup device, and is used for attracting the magnetic attraction structure 91 to connect or disconnect the image pickup device and the electronic device.

The frame 90 of the electronic device in the embodiment of the application does not need to integrate a complex camera overturning mechanism, so that the frame of the frame 90 can be arranged very narrowly, and the screen occupation ratio is improved. In addition, when the electronic equipment is carried, the camera device can be split-packed, so that damage is avoided. Is convenient to carry. The camera device provided by the embodiment of the application can rotate more than 270 degrees through manual rotation, is multipurpose, and is simple and convenient to operate and obvious in cost benefit.

In a specific embodiment, the data transmission process is that the data of the CAM Sensor (i.e. the first camera 32) is connected with the CAM small board (i.e. the first circuit board 31) through a connector, the CAM small board is connected with the main board 61 through the rotating shaft 22 by the electric wire 70, the MIPI signal is calculated and processed by the ISP (the image processor 62) on the main board 61 side, and is converted into a USB differential signal, and the USB differential signal is finally transmitted to the CPU on the tablet control board through the connection of the pogpin on the accessory main board 61 and the control board of the tablet, as shown in fig. 25.

TABLE 1 definition of data signals

The foregoing embodiments are merely for illustrating the technical solution of the present application, but not for limiting the same, and although the present application has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that the technical solution described in the foregoing embodiments may be modified or substituted for some of the technical features thereof, and that these modifications or substitutions should not depart from the spirit and scope of the technical solution of the embodiments of the present application and should be included in the protection scope of the present application.

Claims (14)

1. An image pickup apparatus for an electronic device including a frame body having a magnetic attraction structure, comprising:

The main body part is provided with a magnetic attraction part which is used for attracting the magnetic attraction structure so as to adsorb the main body part on the frame body;

A turnover part rotatably provided on the main body part;

An imaging unit provided on the turning unit;

A data transmission unit which is provided on the main body unit or the flip unit and is electrically connected to the imaging unit, and between which data can be transmitted by the imaging unit and the electronic device;

The turnover part comprises a turnover seat body and rotating shafts respectively arranged at two sides of the turnover seat body, wherein the two rotating shafts positioned at two sides of the turnover seat body are concentric with the rotating shaft center of the turnover part, two opposite mounting holes are formed in the main body part, and the two rotating shafts are respectively rotatably mounted in the two mounting holes;

the image pickup device further includes a main board portion electrically connected to the image pickup portion, the main board portion being mounted in the main body portion;

the camera part comprises a first circuit board and a first camera, wherein the first circuit board is electrically connected with the main board part through an electric wire, the first camera is arranged on a first side of the turnover body and is electrically connected with the first circuit board, the first side of the turnover body is positioned in the turnover direction of the turnover part, the camera part further comprises a second camera, and the second camera is arranged on a second side of the turnover body and is electrically connected with the first circuit board, wherein the first side of the turnover body and the second side of the turnover body are oppositely arranged.

2. The image pickup apparatus according to claim 1, wherein a damping portion is provided between the flip portion and the main body portion to generate damping between the rotation axis and the main body.

3. The image pickup apparatus according to claim 2, wherein the damping portion includes a rotary damper mounted in the main body portion, one of the two rotation shafts being drivingly connected to the rotary damper.

4. The image pickup apparatus according to claim 1, wherein the main body portion is provided with a housing recess, two of the mounting holes are provided on opposite sides of the housing recess, respectively, and the flip portion has a hidden position housed in the housing recess.

5. The image pickup apparatus according to claim 1, wherein a yielding opening is provided in the main body portion, the two mounting holes are provided on opposite sides of the yielding opening, respectively, and the yielding opening is used for yielding the mounting holes, so that the turnover portion can be turned 360 °.

6. The image pickup apparatus according to claim 1, wherein a contact portion electrically connected to the electronic device control board is provided on the frame, and the data transmission portion includes a contact connector that is brought into contact with and electrically connected to the contact portion with the main body portion being adsorbed on the frame.

7. The image pickup apparatus according to claim 6, wherein the contact connector is provided on the main body portion, and the main board portion is electrically connected to the contact connector.

8. The image pickup apparatus according to claim 7, wherein the main plate portion and the image pickup portion are electrically connected by the electric wire, at least one of the rotating shafts is internally provided with a through cavity, the through cavity is communicated with the inside of the main body portion, and the through cavity is used for the electric wire to pass through.

9. The image pickup apparatus according to claim 4, wherein the turning portion is provided with a first connecting portion, and a second connecting portion is provided on a side wall of the accommodating recess, the first connecting portion being connected with the second connecting portion to fix the turning portion in the accommodating recess with the turning portion in the hidden position.

10. The image pickup apparatus according to claim 9, wherein the first connecting portion includes a first magnet assembly, and the second connecting portion includes a second magnet assembly, the first magnet assembly and the second magnet assembly being attracted to each other with the flip portion in the hidden position to fix the flip portion in the accommodating recess.

11. The image pickup apparatus according to claim 8, wherein the first circuit board is provided with an angle sensor.

12. The image pickup apparatus according to claim 8, wherein the main board portion includes a main board, an image processor provided on the main board, and the main board portion is electrically connected to the electric wire.

13. The image capturing apparatus of claim 11, wherein the image capturing section further comprises an illumination section disposed on a first side of the flip body and electrically connected to the first circuit board.

14. An electronic device, characterized in that the electronic device comprises a frame, a magnetic attraction structure arranged on the frame, a control board arranged in the frame and an imaging device, wherein the imaging device is the imaging device according to any one of claims 1 to 13, a contact part is arranged on the frame and electrically connected with the control board, and the contact part and the magnetic attraction structure are arranged on the back of the upper part of the frame or the upper end of the frame.