WO2020010949A1 - Electronic apparatus and mobile phone - Google Patents

Abstract

An electronic apparatus (10), comprising a terminal device (200) and an image acquisition device (100). The terminal device (200) comprises a display surface (210) and a back surface (220) facing away from each other. The back surface (220) is provided with an accommodation recess (240) for accommodating the image acquisition device (100). The image acquisition device (100) is rotatably connected to the terminal device (200) such that the image acquisition device (100) can be rotated into or out of the accommodation recess (240). The terminal device (200) and the image acquisition device (100) are also detachably connected. The image acquisition device (100) comprises a camera assembly (110), a main board (130), and a battery (120). The battery (120) can supply power to the main board (130). The camera assembly (110) is connected to the main board (130). The image acquisition device (100) can communicate wirelessly with the terminal device (200).

Description

Electronic devices and mobile phones Technical field

The present invention relates to the technical field of electronic devices, and in particular, to an electronic device and a mobile phone.

Background technique

The image acquisition module of an electronic device such as a traditional mobile phone is fixed on the electronic device. It is difficult to reuse the rear camera as the front camera, which limits the shooting scene of the electronic device.

Summary of the invention

Based on this, it is necessary to provide an electronic device and a mobile phone.

An electronic device includes a terminal device and an image acquisition device. The terminal device includes a display surface and a back surface disposed opposite to each other. The back surface is provided with a receiving slot for receiving the image acquisition device. The device can be rotationally connected with the terminal device, so that the image acquisition device can be turned in or out of the accommodation slot, and the terminal device and the image acquisition device are detachably connected;

The image acquisition device includes a camera assembly, a main board, and a battery. The battery is capable of supplying power to the main board, and the camera assembly is connected to the main board. The image acquisition apparatus is capable of wirelessly communicating with the terminal device.

A mobile phone including:

The terminal device includes a display surface and a back surface disposed opposite to each other, and the back surface is provided with an accommodation slot; and

An image acquisition device includes a camera assembly, a main board, and a battery, and the camera assembly is connected to the main board, and the battery can supply power to the camera assembly and the main board; the image acquisition device is disposed in the accommodation slot and The receiving slot can be rotated relative to the terminal device to enter and leave the receiving slot. The image acquisition device can also be detached from the terminal device, and the image acquisition device can be separated from the terminal device after being detached. Terminal equipment wireless communication connection.

BRIEF DESCRIPTION OF THE DRAWINGS

In order to more clearly explain the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below. Obviously, the drawings in the following description are merely These are some embodiments of the present invention. For those of ordinary skill in the art, without any creative work, drawings of other embodiments can also be obtained according to these drawings.

1 is a schematic front view of an electronic device according to an embodiment;

2 is a schematic rear view of the electronic device shown in FIG. 1 in an initial state;

3 is a schematic diagram of the image acquisition device shown in FIG. 1 being turned to a first position;

4 is a schematic diagram of taking the image acquisition device out of the accommodation slot when the image acquisition device in the electronic device shown in FIG. 1 rotates a certain angle relative to the terminal device;

5 is an exploded view of the electronic device shown in FIG. 4;

6 is an internal schematic diagram of the electronic device shown in FIG. 2 in an initial state;

7 is an enlarged schematic view of the electronic device A shown in FIG. 6;

FIG. 8 is an enlarged schematic view of part A of another embodiment of the electronic device shown in FIG. 6; FIG.

FIG. 9 is an enlarged schematic view of part A of another embodiment of the electronic device shown in FIG. 6; FIG.

FIG. 10 is an enlarged schematic view at A of another embodiment of the electronic device shown in FIG. 6; FIG.

FIG. 11 is an enlarged schematic view of part A of another embodiment of the electronic device shown in FIG. 6; FIG.

FIG. 12 is an enlarged schematic view of part A of another embodiment of the electronic device shown in FIG. 6; FIG.

FIG. 13 is an enlarged schematic view of part A of another embodiment of the electronic device shown in FIG. 6; FIG.

FIG. 14 is an image acquisition device of the electronic device shown in FIG. 1, wherein the casing is removed; FIG.

15 is an exploded schematic diagram of an image acquisition device of the electronic device shown in FIG. 1;

FIG. 16 is a schematic diagram of a split application scenario of the electronic device shown in FIG. 1.

detailed description

In order to facilitate understanding of the present invention, the present invention will be described more fully hereinafter with reference to the accompanying drawings. The drawings show a preferred embodiment of the invention. However, the invention can be implemented in many different forms and is not limited to the embodiments described herein. Rather, these embodiments are provided to provide a thorough and comprehensive understanding of the disclosure of the present invention.

As used herein, a "terminal device" refers to a device capable of receiving and / or transmitting communication signals including, but not limited to, connection via any one or more of the following connection methods:

(1) Connected via wired lines, such as via Public Switched Telephone Networks (PSTN), Digital Subscriber Line (DSL), digital cable, or direct cable connection;

(2) Via a wireless interface method, such as a cellular network, a wireless local area network (WLAN), a digital television network such as a DVB-H network, a satellite network, and an AM-FM broadcast transmitter.

A terminal device configured to communicate through a wireless interface may be referred to as a “mobile terminal”. Examples of mobile terminals include, but are not limited to, the following electronic devices:

(1) Satellite phone or cellular phone;

(2) Personal Communication System (PCS) terminals that can combine cellular radiotelephones with data processing, facsimile, and data communication capabilities;

(3) Radiotelephone, pager, Internet / Intranet access, Web browser, notepad, calendar, Personal Digital Assistant (PDA) equipped with a Global Positioning System (GPS) receiver;

(4) conventional laptop and / or palm receivers;

(5) Conventional laptop and / or palm-type radiotelephone transceivers and the like.

As shown in FIGS. 1, 2 and 4, the present invention discloses an electronic device 10. The electronic device 10 includes a terminal device 200 and an image acquisition device 100. The terminal device 200 includes a display surface 210 and a back surface 220 disposed opposite to each other. The back surface 220 is provided with a receiving slot 240 for receiving the image acquisition device 100, and the image acquisition device 100. The terminal device 200 can be rotatably connected with the terminal device 200 so that the image capturing device 100 can be turned into or out of the accommodating slot 240; and the terminal device 200 and the image capturing device 100 are detachably connected. The image acquisition device 100 includes a camera assembly, a motherboard, and a battery. The battery can supply power to the motherboard 130 and the camera assembly 110 is connected to the motherboard 130. The image acquisition device 100 can be wirelessly connected to the terminal device 200.

With reference to FIG. 3 and FIG. 5, in the initial state (see the state shown in FIG. 2), the image acquisition device 100 is completely located in the accommodation slot 240. At this time, the image acquisition device 100 can be used as the rear of the middle terminal device 200. Camera use. Referring to the orientation shown in FIG. 4, when the image capture device 100 rotates counterclockwise, the image capture device 100 turns out of the accommodation slot 240 outwards, and when the image capture device 100 rotates counterclockwise, the image capture device 100 turns clockwise容 槽 槽 240。 Receiving slot 240. Compared with the conventional rear camera of the existing terminal device 200, the image acquisition device 100 may have more orientations for shooting at different angles. For example, the image acquisition device 100 and the terminal device 200 may be 30 ° or 45 °. The wireless communication connection between the terminal device 200 and the image acquisition device 100 may be a WIFI connection, a Bluetooth connection, or a mobile network connection, which is not specifically limited herein.

At the same time, the image acquisition device 100 can also be removed from the terminal device 200 and separated from the terminal device 200. At this time, the image acquisition device 100 can be used alone, and it is also wirelessly connected to the terminal device 200 and connected to the terminal device 200. Together, they can realize multi-scenario shooting of users. For example, when multiple people take a group photo, the image acquisition device 100 can be placed in front of the group to be photographed, and the image being captured by the image acquisition device 100 can be viewed through a mobile phone. The photographic group needs to be adjusted adaptively, such as adjusting the standing posture and expression. After obtaining a satisfactory image effect, then control the photo with the mobile phone. For another example, as shown in FIG. 16, in a crowded state, when a user needs to shoot a distant scene, if an electronic device 10 such as a mobile phone that cannot be separated is used, the electronic device 10 needs to be lifted up so as not to be blocked by the flow of people. . However, when raising the height, the user cannot observe whether the captured scene is the scene that he needs to shoot. When the electronic device 10 is placed in front of the user, the user can observe the scene shot by the electronic device 10, but because the flow of people is blocked, the user cannot shoot the scene in the distance. As shown in the figure, using the separable electronic device 10 of the present application, the image capture device 100 is detached from the terminal device 200. The user can hold the image capture device 100 in one hand and raise it to capture the scene to be shot. Hold the terminal device 200 only, observe whether the captured scene is correct, and adjust the angle of the image acquisition device 100 according to the screen displayed by the terminal device 200 to complete the shooting of the distant scene.

By rotating the image acquisition device 100 and the terminal device 200 and detachably connecting the image acquisition device 100 and the terminal device 200, the image acquisition device 100 can perform multi-angle and multi-directional shooting, so that the photographing function of the electronic device 10 has more More application scenarios, more convenient to use.

According to the coordinate orientation shown in FIG. 2, the image acquisition device 100 includes a display surface 210 and a back surface 220, and an upper edge 231 on the upper side, a lower edge 232 on the lower side, and side edges on the left and right sides. The accommodating groove 240 includes a groove bottom wall 241, a lower groove side wall 242 located below, a first groove side wall 243 located on the right side, and a second groove side wall 244 located on the left side. The image acquisition device 100 includes a front surface 151 and a back surface 152 disposed opposite to each other, and an upper side wall 153 on the upper side, a lower side wall 154 on the lower side, a first side wall 155 on the right side, and a first side wall 155 on the left side. Two side walls 156, in which the light incident surface 112 of the image acquisition device 100 is located on the side where the front surface 151 is located. Wherein, in the initial state, the front surface of the image acquisition device 100 faces the outside of the accommodation groove 240.

The receiving slot 240 extends to the upper edge 231 of the terminal device 200, so that the upper edge 231 of the terminal device 200 has a notch 245. The image capture device 100 has a first position (refer to the position shown in FIG. 3). When the image capture device 100 is rotated to the first position, the light incident surface 112 is located above the notch 245, and the light incident surface 112 faces the display surface 210. The side. Wherein, when the image acquisition device 100 is rotated from the position in the initial state to the first position, the image acquisition device 100 is rotated about 180 °. When the image capture device 100 is in the first position, it can be used as a front camera of the terminal device 200. This can avoid setting a camera on the display surface 210 of the image capture device 100 and increase the screen ratio on the display surface 210.

The image acquisition device 100 is provided with a plurality of PIN points, and the accommodation slot 240 is provided with several PIN points. When the image acquisition device 100 is rotationally connected to the terminal device 200, the PIN point on the image acquisition device 100 is in the receiving slot 240. The PIN points are in one-to-one contact, and are used to transmit data or current. In this way, as long as the image acquisition device 100 and the terminal device 200 are in a rotational connection state and are not separated from the terminal device 200, the PIN point in the image acquisition device 100 and the PIN point in the accommodation slot 240 abut, so that the image acquisition device 100 and the The terminal devices 200 are connected in a wired manner so that both the image acquisition device 100 and the terminal device 200 can transmit data or current to each other. Wherein, when the image acquisition device 100 is in the initial state and the first position, both the image acquisition device 100 and the terminal device 200 can transmit data or current to each other. Meanwhile, when the position of the image acquisition device 100 is between the position in the initial state and the first position, both the image acquisition device 100 and the terminal device 200 can also transmit data or current to each other. When the image capture device 100 is detached from the terminal device 200, the image capture device 100 and the terminal device 200 can be wirelessly connected.

With reference to FIG. 5, FIG. 6 and FIG. 7, in an embodiment, the first groove side wall 243 is convexly provided with a first rotating shaft 251, the first side wall is provided with a first shaft hole, and the first groove side wall 243 is provided on the first groove side wall 243. A connection hole is provided to connect the side wall of the hole of the first shaft hole and the surface of the image acquisition apparatus 100, and the first rotation shaft 251 can pass through the connection hole and enter the first shaft hole. In this embodiment, the connection hole connects the first shaft hole and the back surface 152 of the image acquisition device 100, that is, the side of the first shaft hole facing the back surface of the image acquisition device 100 has a gap. When the image capture device 100 is installed, the back side of the image capture device 100 faces the first rotation shaft 251, and the first rotation shaft 251 is aligned with the connection hole, and then the image capture device 100 is pressed so that the first rotation shaft 251 passes through the connection hole and enters the first A shaft hole. In this way, the image acquisition device 100 can rotate around the first rotation axis 251. It can be understood that the connection hole may also connect the first shaft hole and the front surface 151 or the upper side wall of the image acquisition device 100.

With reference to FIG. 8, in another embodiment, the terminal device 200 is provided with a second rotating shaft 252 and a first elastic member, a first yielding hole 254 is provided on the first groove side wall 243, and the second rotating shaft 252 and the first An elastic member is connected to cause the second rotating shaft 252 to protrude from the first yielding hole 254 when the second rotating shaft 252 is not subjected to external force; the portion of the second rotating shaft 252 protruding from the first yielding hole 254 is squeezed by the external force. It can overcome the elastic force of the first elastic member to retract the first yielding hole 254; the first side wall is provided with a second shaft hole. When the image acquisition device 100 is located in the accommodation groove 240, the second rotating shaft 252 extends into the first Two shaft holes for rotating the image acquisition device 100 around the second rotation shaft 252.

Specifically, the first elastic member includes a first spring 253, one end of the first spring 253 is connected to the second rotating shaft 252, and the other end of the first spring 253 is fixedly disposed, for example, it can be fixed to the rear case of the terminal device 200. When the second rotating shaft 252 is not subjected to an external force, the second rotating shaft 252 is in a state of protruding from the first yielding hole 254. When the image capture device 100 is installed in the accommodation slot 240, the image capture device 100 squeezes the second rotating shaft 252, and the second rotating shaft 252 retracts toward the first yielding hole 254. At this time, the second rotating shaft 252 compresses the first rotating shaft 252. One spring 253. Until the second rotating shaft 252 is aligned with the second shaft hole, the second rotating shaft 252 projects into the second shaft hole under the action of the first spring 253, so that the image acquisition device 100 can rotate around the second rotating shaft 252. When the image capture device 100 needs to be detached from the terminal device 200, the image capture device 100 can be pulled outward, so that the image capture device 100 squeezes the second rotating shaft 252, thereby retracting the second rotating shaft 252, and further causing the first The two rotating shafts 252 are separated from the second shaft hole, so that the image acquisition device 100 and the terminal device 200 can be separated. A surface of a portion of the second rotating shaft 252 protruding from the first yielding hole 254 is arc-shaped.

With reference to FIG. 9, in an embodiment, the terminal device 200 is provided with a third rotating shaft 255 and a second elastic member, a second groove shaft 243 is provided on the first groove side wall 243, and the second rotating shaft 252 and the second The elastic member is connected to extend and retract the first end 2551 of the third rotation shaft 255 to the second yielding hole 257; the second end 2552 of the third rotation shaft 255 is provided with a first guide slope 2554; the terminal device 200 is also provided There is a pressing lever 258. The first end 2581 of the pressing lever 258 abuts on the first guide inclined surface 2554. The second end 2582 of the pressing lever 258 projects out of the terminal device 200. The pressing lever 258 can be perpendicular to the third rotation axis 255. When the pressing lever 258 is pressed from the outside of the terminal device 200, the pressing lever 258 can move the third rotating shaft 255, so that the third rotating shaft 255 overcomes the elastic force of the second elastic member, and the third rotating shaft 255 The first end 2551 is retracted to the second yielding hole 257; the first side wall 156 is provided with a third shaft hole 164. When the image acquisition device 100 is installed in the accommodation slot 240, the first end 2551 of the third rotation shaft 255 The third shaft hole 164 can be extended to rotate the image capture device 100 around the third rotation axis 255.

Specifically, the second elastic member includes a second spring 256. The second end 2552 of the third rotating shaft 255 is convexly provided with an abutment block 2553 along a radial direction thereof. A side of the abutment block 2553 facing the upper edge 231 of the terminal device 200 is provided with a first guide slope 2554. The second spring 256 is sleeved on the third rotating shaft 255, one end of the second spring 256 is fixed to the first groove side wall 243, and the other end of the second spring 256 is fixed to the abutment block 2553. The second end 2582 of the pressing rod 258 protrudes from the upper edge 231 of the terminal device 200, and the first end 2581 of the pressing rod 258 abuts the first guiding inclined surface 2554. When the second end 2582 of the pressure lever 258 is not pressed, the first end 2551 of the third rotating shaft 255 protrudes from the second yielding hole 257. When the second end 2582 of the pressing rod 258 is pressed down, the first end 2581 of the pressing rod 258 moves downward and slides relative to the first guide slope 2554, and then the third rotating shaft 255 moves to the right, and the third rotating shaft 255 The first end 2551 retracts the second yielding hole 257. At this time, the second spring 256 is in a stretched state. When the pressure lever 258 is released, the third rotation shaft 255 moves to the left under the action of the second spring 256, and the first end 2551 of the third rotation shaft 255 protrudes from the second allowance. Bit hole 257. In this way, the image acquisition device 100 can be easily installed and removed.

In an embodiment, a first magnetic attraction portion is provided at the first groove side wall 243, and a second magnetic attraction portion is provided at the first side wall, and the first magnetic attraction portion and the second magnetic attraction portion can be magnetically adsorbed; When the image acquisition device 100 is rotated relative to the terminal device 200, the first magnetic attraction portion and the second magnetic attraction portion are magnetically attracted to each other. In this way, after the image acquisition device 100 is installed in the accommodation slot 240, the image acquisition device 100 and the terminal device 200 are connected together through the cooperation of the first magnetic attraction portion and the second magnetic attraction portion. The second magnetic attraction portion is still in a state of being attracted to each other during the rotation of the image acquisition device 100.

As shown in FIG. 10, in the first case of the above embodiment, the first magnetic attraction portion includes a first magnetic attraction body 261, the second magnetic attraction portion includes a second magnetic attraction body, and a first groove sidewall 243 is provided. The first rotation hole 263 is capable of rotating the first magnet. In this way, when the image capturing device 100 is rotated relative to the terminal device 200, the second magnetic body drives the first magnet to rotate in the first rotation hole 263. In this way, the image acquisition device 100 can be rotated more stably relative to the terminal device 200. Both the first magnetic body 261 and the second magnetic body may include a magnet or a metal (such as iron or nickel) capable of being adsorbed by the magnet.

With reference to FIG. 11, in the second case of the above embodiment, the first magnetic attraction portion includes a first electromagnetic generator 262 and the second magnetic attraction portion includes a third magnetic body; the first electromagnetic generator 262 can be A magnetic field is generated to attract the third magnetic body. In this way, a first switch 264 may be provided on the terminal device 200 for turning on and off the first electromagnetic generator 262. When the image acquisition device 100 is connected to the terminal device 200, the first switch 264 is in an on state, and the first electromagnetic generator 262 is energized, so that the first electromagnetic generator 262 can attract a third magnet. When the image acquisition device 100 needs to be disassembled, the first switch 264 is turned off, and the first electromagnetic generator 262 is powered off, so that the first electromagnetic generator 262 and the third magnetic body cannot be magnetically attracted, which is very convenient. The image acquisition apparatus 100 is removed.

With reference to FIG. 12, in another embodiment, the image acquisition device 100 includes a second electromagnetic generator 271 and a fourth rotating shaft 272. A third yielding hole 273 and a fourth rotating shaft 272 are provided on the first groove side wall 243. The second electromagnetic generator 271 includes a first state and a second state. When the second electromagnetic generator 271 is in the first state, the second electromagnetic generator 271 can be extended or retracted. The generated magnetic field attracts the fourth rotating shaft 272 to retract the fourth rotating shaft 272 to the third yielding hole 273. When the second electromagnetic generator 271 is in the second state, the magnetic field generated by the second electromagnetic generator 271 repels the fourth The rotating shaft 272 allows the fourth rotating shaft 272 to protrude from the third yielding hole 273. A fourth shaft hole is provided on the first side wall. When the image capturing device 100 is installed in the accommodation slot 240, the first end of the fourth rotating shaft 272 can be extended into the fourth shaft hole, so that the image capturing device 100 is wound around the fourth axis. The rotation shaft 272 rotates.

The fourth rotating shaft 272 may be composed of a magnet or a metal capable of being attracted to the magnet. A second switch 274 is provided on the terminal device 200. The second switch 274 is used to control the current direction of the second electromagnetic generator 271, so that the second electromagnetic generator 271 has two different states and generates two different magnetic fields. When the image acquisition device 100 needs to be installed, the second electromagnetic generator 271 is placed in the first state by the second switch 274. At this time, the second electromagnetic generator 271 attracts the fourth rotating shaft 272, and retracts the fourth rotating shaft 272 to the third position. A bit hole 273, so that the image acquisition device 100 can be placed in the receiving slot 240. Then, the second electromagnetic generator 271 is placed in the second state by the second switch 274. At this time, the second electromagnetic generator 271 repels the fourth rotating shaft 272, and the fourth rotating shaft 272 extends out of the third yielding hole 273 and into the first A four-axis hole, so that the image acquisition device 100 can rotate around the fourth rotation axis 272. When the image capture device 100 needs to be disassembled, the second electromagnetic generator 271 is placed in the first state through the second switch 274, and the fourth rotation shaft 272 is detached from the fourth shaft hole, and the image capture device 100 can be disassembled.

With reference to FIG. 13, in another embodiment, the third electromagnetic generator 281, the fifth rotating shaft 282, and the third elastic member are provided. The first groove side wall 243 is provided with a fourth yielding hole 283. The elastic member is connected to the fifth rotating shaft 282, and is used to make the fifth rotating shaft 282 extend out of the fourth yielding hole 283 when the fifth rotating shaft 282 is not subjected to external force; the third electromagnetic generator 281 is used to generate a magnetic field to attract the fifth The rotating shaft 282 causes the fifth rotating shaft 282 to retract to the fourth yielding hole 283 against the elastic force of the third elastic member. The first side wall is provided with a fifth shaft hole. When the image acquisition device 100 is installed in the accommodation slot 240, The fifth rotation shaft 282 can extend into the fifth shaft hole, so that the image acquisition device 100 can rotate around the fifth rotation shaft 282.

The fifth rotating shaft 282 may be composed of a magnet or a metal capable of being attracted to the magnet. The third elastic member includes a third spring 285. One end of the third spring 285 is connected to the fifth rotation shaft 282. The other end of the third spring 285 is fixedly disposed and can be connected to the rear case of the terminal device 200. A third switch 284 is provided on the terminal device 200. The third switch 284 is used to control the on / off of the third electromagnetic generator 281. Generally, the third switch 284 is in an off state, and at this time, the third electromagnetic generator 281 does not introduce current, and at this time, the fifth rotating shaft 282 protrudes from the fourth yielding hole 283 under the action of the third spring 285. By controlling the third switch 284 to be in an open state, at this time, the third electromagnetic generator 281 introduces a current to generate a magnetic field to attract the fifth rotation shaft 282, so that the fifth rotation shaft 282 will compress the third spring 285, and then retract the fourth yield hole. 283. In this way, the fifth rotation shaft 282 can be controlled to expand and contract with respect to the fourth yield hole 283, so that the image acquisition device 100 can be installed and rotated relative to the rotation.

As shown in FIG. 14 and FIG. 15, the image acquisition device 100 includes a casing 140, and the camera assembly 110 extends out of the casing 140. The housing 140 is provided with a third through hole 142, and the camera assembly 110 extends out of the third through hole 142. At the same time, the part of the camera assembly 110 protruding from the third through hole 142 may protrude into the light hole 213, that is, protrude from the front surface 211 of the cover plate 210; Front 211. In this way, the thickness of the image acquisition device 100 can be relatively reduced, and the depth of the accommodating groove 240 can also be reduced, and the thickness of the terminal device 200 can be reduced accordingly, making the terminal device 200 slimmer. It can be understood that the first sidewall 155, the second sidewall 156, the upper sidewall 153, and the lower sidewall 154 are all located on the casing 140.

With reference to FIG. 14 and FIG. 15, in an embodiment, the camera device 100 includes a camera assembly 110, a battery 120, a motherboard 130, and a housing 140. The battery 120 is a power source of the image acquisition device 100 and can support the image acquisition device 100 to continue to work in a certain period of time. The motherboard 130 is located between the battery 120 and the camera assembly 110. One side of the motherboard 130 is attached to the battery 120 and the other side is attached to the camera assembly 110. The casing 140 houses a battery 120, a motherboard 130, and a camera assembly 110. The battery 120 is a power source of the image capture device 100, so that the image capture device 100 can continue to work when it is not connected to the terminal device 200.

In an embodiment, the battery 120 includes a first surface 121 and a second surface disposed opposite to each other, and a sidewall connecting the first surface 121 and the second surface. The first surface 121, the second surface, and the sidewall form the battery 120. Outer surface. The battery 120 is provided with a first through hole 123 penetrating the first surface 121 and the second surface. One or more of the first through holes 123 may be opened to make the battery 120 into a ring shape, a round shape, or other structures. The first through hole 123 can allow the camera assembly 110 to be installed therein, avoid overlapping the camera assembly 110 and the battery 120, and reduce the thickness of the image acquisition device 100.

In an embodiment, the main board 130 is provided with a second through hole 131 at a corresponding position of the first through hole 123, so that the main board 130 has a ring-like or round-like structure similar to the battery 120. The camera module 110 passes through the second through hole 131 and the first through hole 123 in order, so that the entire structure of the camera module 110 is located in the first through hole 123, or a part of the structure of the camera module 110 is located in the first through hole 123, and the other part The structure is located in the second through hole 131. The light incident surface 112 of the camera assembly 110 is flush with the first surface 121 of the battery 120 or does not protrude from the plane, or protrudes slightly from the plane. The light incident surface 112 of the camera assembly 110 is exposed from the first through hole 123 and is not blocked. The arrangement of the first through hole 123 and the second through hole 131 allows the entire structure or a part of the structure of the camera assembly 110 to be accommodated therein, thereby reducing the thickness of the image acquisition device 100.

In one embodiment, the camera assembly 110 includes a light incident surface 112, a decorative ring 113, a frame 114, and a flexible circuit board 111. The decorative ring 113 is connected between the light incident surface 112 and the frame 114 for fixing the light incident surface 112. The light incident surface 112, the decorative ring 113, and the frame 114 form a housing of the camera assembly 110. Inside the camera assembly 110 are components such as a camera and a flash. The camera may be one, two or more. The flexible circuit board 111 is connected to a camera, a flash, and other components inside the camera assembly 110 and extends out of the frame 114. A portion of the flexible circuit board 111 outside the frame 114 is bent into a U-shaped structure, and is clamped on two opposite sides of the main board 130.

In one embodiment, a first board-to-board connector is provided between the flexible circuit board 111 and the main board 130. The first board-to-board connector includes a first male connector 115 and a first female connector 134. The first male connector 115 is located at an end of the flexible circuit board 111, and the first female connector 134 is located on the motherboard 130. The motherboard 130 is provided with a sink 133 at the position of the first female connector 134, and the first female connector 134 is located on the sink 133 so that the first female connector 134 does not protrude from the surface of the motherboard 130. When the first male connector 115 is engaged with the first female connector 134, the flexible circuit board 111 protrudes slightly or does not protrude from the surface of the motherboard 130, so that when the second surface of the battery 120 is attached to the motherboard 130, the battery 120 The interval from the main board 130 is small or no interval. In another embodiment, the positions of the first male connector 115 and the first female connector 134 can also be reversed, that is, the first male connector 115 is located on the sink 133, and the first female connector 134 It is located on the flexible circuit board 111, and can also achieve the purpose of electrical connection and communication connection between the camera assembly 110 and the main board 130 through the first board-to-board connector.

In one embodiment, a second board-to-board connector is provided between the battery 120 and the main board 130. The second board-to-board connector includes a second male connector 135 and a second female connector 122. The second male connector 135 is located on the edge of the motherboard 130, and the second female connector 122 is located on the side wall of the battery 120. In the assembled state, the main board 130 and the second surface of the battery 120 are bonded, and the second male connector 135 and the second female connector 122 are fastened to each other, such as the function of transmitting current between the battery 120 and the main board 130. In another embodiment, the second male connector 135 may be disposed on the side wall of the battery 120, and the second female connector 122 may be disposed on the edge of the motherboard 130, and the same can be achieved between the battery 120 and the motherboard 130. Purpose of electrical and communication connections.

In one embodiment, the main board 130 is provided with a metal shield on a surface in contact with the battery 120. Because the metal shield plays a role of absorbing energy, reflecting energy, and canceling energy to external interference electromagnetic waves and internal electromagnetic waves from wires, cables, components, circuits, or systems, the metal shield has a function of reducing interference. The metal shield is an alloy metal cover that isolates the metal between the two space regions of the battery 120 and the motherboard 130 to control the electric field and the induction and radiation of electromagnetic waves from one region to another. The metal shield can reduce the interference of the electromagnetic waves of the battery 120 on the normal operation of the motherboard 130, thereby improving the quality, stability, and working life. The metal shield can reduce the electromagnetic radiation generated during the operation of the motherboard 130, thereby reducing its harm to the human body and the environment.

In one embodiment, the main board 130 is provided with an antenna dome 132 and a wireless communication module, and the wireless communication module shown is a WIFI module. The antenna spring sheet 132 is used for a signal transmission and a tactile feedback medium, and belongs to a type of connector. The wireless communication module can implement a wireless connection between the image acquisition device 100 and the terminal device 200. When the image acquisition device 100 is not connected to the terminal device 200 through the PIN point, the terminal device 200 can control the image acquisition device 100 through a wireless communication module, so that when the image acquisition device 100 is separated from the terminal device 200, the terminal device 200 is the same The image acquisition apparatus 100 can be controlled to work.

In an embodiment, the housing 140 is further included. The casing 140 may be made of plastic or a combination of metal and plastic. The casing 140 is provided with a shaft hole 141 and a third through hole 142. The housing 140 can be opened and closed for receiving the camera assembly 110, the battery 120, and the motherboard 130. The housing 140 is provided with a third through hole 142 at a corresponding position of the first through hole 123, and the light incident surface 112 of the camera assembly 110 is exposed from the third through hole 142 and is not blocked.

The technical features of the embodiments described above can be arbitrarily combined. In order to simplify the description, all possible combinations of the technical features in the above embodiments have not been described. However, as long as there is no contradiction in the combination of these technical features, It should be considered as the scope described in this specification.

The above-mentioned embodiment only expresses several implementation manners of the present invention, and the description thereof is more specific and detailed, but it cannot be understood as a limitation on the scope of the invention patent. It should be noted that, for those of ordinary skill in the art, without departing from the concept of the present invention, several modifications and improvements can be made, which all belong to the protection scope of the present invention. Therefore, the protection scope of the invention patent shall be subject to the appended claims.

Claims (20)

1. An electronic device includes a terminal device and an image acquisition device. The terminal device includes a display surface and a back surface disposed opposite to each other. The back surface is provided with a receiving slot for receiving the image acquisition device. The device can be rotationally connected with the terminal device, so that the image acquisition device can be turned in or out of the accommodation slot, and the terminal device and the image acquisition device are detachably connected;

   The image acquisition device includes a camera assembly, a main board, and a battery. The battery is capable of supplying power to the main board, and the camera assembly is connected to the main board. The image acquisition apparatus is capable of wirelessly communicating with the terminal device.
2. The electronic device according to claim 1, wherein the receiving groove extends to an upper edge of the terminal device, so that the upper edge of the terminal device has a notch; the image acquisition device has a first position, When the image acquisition device is rotated to the first position, the light incident surface of the image acquisition device is located above the notch, and the light incident surface faces the side where the display surface is located.
3. The electronic device according to claim 1, wherein the image acquisition device is provided with a plurality of PIN points, and the receiving slot is provided with a plurality of PIN points, and the image acquisition device is rotatably connected to the terminal device. When it is on, the PIN point on the image acquisition device is in contact with the PIN point in the accommodating slot, and is used for transmitting data or current.
4. The electronic device according to claim 1, wherein the accommodation groove comprises a first groove side wall, and the image acquisition device comprises a first side wall, when the image acquisition device is located in the accommodation groove The first side wall and the first groove side wall are opposite to each other.
5. The electronic device according to claim 4, wherein the first groove side wall is provided with a first rotating shaft, the first side wall is provided with a first shaft hole, and the first groove side wall is provided with There is a connection hole connecting the side wall of the hole of the first shaft hole and the surface of the image acquisition device, and the first rotating shaft can pass through the connection hole and enter the first shaft hole.
6. The electronic device according to claim 4, wherein the terminal device is provided with a second rotating shaft and a first elastic member, a first yielding hole is provided on a side wall of the first groove, and the second rotating shaft It is connected to the first elastic member and is used to make the second rotating shaft protrude from the first yielding hole when the second rotating shaft is not subjected to external force; the second rotating shaft protrudes from the first yielding hole. A portion of the can be retracted to the first yielding hole against the elastic force of the first elastic member when pressed by an external force; a second shaft hole is provided on the first side wall, and the image acquisition device is located at When in the accommodation slot, the second rotating shaft extends into the second shaft hole, so that the image acquisition device rotates around the second rotating shaft.
7. The electronic device according to claim 6, wherein the terminal device is provided with a third rotating shaft and a second elastic member, a second yielding hole is provided on a side wall of the first groove, and the second rotating shaft Connected to the second elastic member for extending and retracting the first end of the third rotating shaft to the second yielding hole; the second end of the third rotating shaft is provided with a first guide slope; The terminal device is further provided with a pressing lever, a first end of the pressing lever abuts against the first guide slope, a second end of the pressing lever protruding out of the terminal device, and the pressing lever Capable of moving in a direction perpendicular to the third rotation axis; when the pressing lever is pressed from the outside of the terminal device, the pressing lever can drive the third rotation axis to move the third rotation axis to overcome The elastic force of the second elastic member, the first end of the third rotating shaft retracted to the second yielding hole; a third shaft hole is provided on the first side wall, and when the image acquisition device is installed in the In the accommodating groove, a first end of the third rotating shaft can extend into the third shaft hole, so that the image The collection device rotates around the third rotation axis.
8. The electronic device according to claim 4, wherein a first magnetic attraction portion is provided at a side wall of the first groove, a second magnetic attraction portion is provided at the first side wall, and the first magnetic The suction portion and the second magnetic suction portion can be magnetically attracted; when the image acquisition device is rotated relative to the terminal device, the first magnetic suction portion and the second magnetic suction portion are magnetically attracted to each other.
9. The electronic device according to claim 8, wherein the first magnetic attraction portion includes a first magnetic attraction body, the second magnetic attraction portion includes a second magnetic attraction body, and the first groove side wall is A first rotation hole is provided, and the first magnetic body can rotate in the first rotation hole.
10. The electronic device according to claim 8, wherein the first magnetic attraction portion includes a first electromagnetic generator, the second magnetic attraction portion includes a third magnetic body, and the first electromagnetic generator is energized. After that, a magnetic field can be generated to adsorb the third magnetic body.
11. The electronic device according to claim 4, wherein the image acquisition device comprises a second electromagnetic generator and a fourth rotating shaft, a third yielding hole is provided on a side wall of the first slot, and the fourth The rotating shaft is movably set to extend or retract the third yielding hole; the second electromagnetic generator includes a first state and a second state, and when the second electromagnetic generator is in the first state, The magnetic field generated by the second electromagnetic generator attracts a fourth rotating shaft to retract the fourth rotating shaft to the third yielding hole; when the second electromagnetic generator is in the second state, all the The magnetic field generated by the second electromagnetic generator repels the fourth rotating shaft so that the fourth rotating shaft protrudes from the third yielding hole; a fourth shaft hole is provided on the first side wall, and when the An image acquisition device is installed in the accommodating slot, and the fourth rotation shaft can extend into the fourth shaft hole, so that the image acquisition device can rotate around the fourth rotation shaft.
12. The electronic device according to claim 4, wherein the terminal device comprises a third electromagnetic generator, a fifth rotating shaft, and a third elastic member, and a fourth yielding hole is provided on a side wall of the first groove, The third elastic member is connected to the fifth rotating shaft, and is configured to make the fifth rotating shaft protrude from the fourth yielding hole when the fifth rotating shaft is not subjected to external force; the third electromagnetic generator is used after being energized. A magnetic field is generated to attract the fifth rotating shaft, so that the fifth rotating shaft is retracted to the fourth yielding hole against the elastic force of the third elastic member; a fifth shaft hole is provided on the first side wall, and when the image acquisition device Installed in the accommodating slot, the fifth rotation shaft can extend into the fifth shaft hole, so that the image acquisition device can rotate around the fifth rotation shaft.
13. The electronic device according to any one of claims 1-12, wherein the battery comprises a first surface and a second surface disposed opposite to each other, and the battery is provided with a penetrating opening through the first surface and the second surface. The first through hole on the second surface, at least a part of the structure of the camera component is placed in the first through hole, the light incident surface of the camera component is exposed from the first through hole, and the main board is located on the camera component and Between the batteries, the main board is provided with a second through hole at a position corresponding to the first through hole, and a part of the structure of the camera assembly is passed through the second through hole.
14. The electronic device according to claim 13, wherein the motherboard is provided with a sink, the camera assembly includes a flexible circuit board, the flexible circuit board is provided with a first male connector, and the flexible circuit The board is bent into a U-shaped structure and is clamped on the sink and the opposite side of the sink, and the sink is provided with a first female connector; or, the flexible circuit board is provided with a first female A connector is provided with a first male connector in the sink, and the first male connector and the first female connector cooperate to form a first board-to-board connector.
15. A mobile phone including:

    The terminal device includes a display surface and a back surface disposed opposite to each other, and the back surface is provided with an accommodation slot; and

    An image acquisition device includes a camera assembly, a main board, and a battery, and the camera assembly is connected to the main board, and the battery can supply power to the camera assembly and the main board; the image acquisition device is disposed in the accommodation slot and The receiving slot can be rotated relative to the terminal device to enter and leave the receiving slot. The image acquisition device can also be detached from the terminal device, and the image acquisition device can be separated from the terminal device after being detached. Terminal equipment wireless communication connection.
16. The mobile phone according to claim 15, wherein the receiving groove extends to an edge of the terminal device and forms a gap, and the image acquisition device can be rotated to a first position and a second position in the receiving groove. In the first position, the light incident surface of the camera assembly and the display surface have the same orientation; in the second position, the image acquisition device is housed in the accommodation slot and the light incident surface of the camera assembly The same orientation as the back surface.
17. The mobile phone according to claim 15, wherein one of a groove side wall of the accommodation groove and the image acquisition device is provided with a rotating shaft, and a groove side wall of the accommodation groove and the image acquisition device The other one is provided with a shaft hole capable of rotating and matching with the rotating shaft.
18. The mobile phone according to claim 15, wherein one of the groove side wall of the accommodation groove and the image acquisition device is provided with a rotating shaft capable of elastic expansion and contraction, and the groove side wall of the accommodation groove and the Another shaft hole is provided in the image acquisition device, the shaft can be extended into the shaft hole to enable the image acquisition device to rotate relative to the terminal device, and the shaft can also be withdrawn from the shaft hole to enable The image acquisition device can be detached from the terminal device.
19. The mobile phone according to claim 15, wherein the battery comprises a first surface and a second surface disposed opposite to each other, and the battery is provided with a first communication channel penetrating the first surface and the second surface. Hole, the main board is located between the camera assembly and the battery, and the main board is provided with a second through hole, and the camera assembly passes through the first through hole and the second through hole.
20. The mobile phone according to claim 19, wherein the main board is provided with a sink, the camera assembly includes a flexible circuit board, and one of the flexible circuit board and the sink is provided with a first male connector. The other of the flexible circuit board and the sink is provided with a first female connector capable of engaging with the first male connector.

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