CN111669454B - Electronic device - Google Patents

Abstract

The invention discloses electronic equipment, which comprises a shell (100), a first functional module (200), a second functional module (300) and a rotating mechanism (400), wherein the shell (100) is provided with an inner cavity and a through hole communicated with the inner cavity, the rotating mechanism (400) is arranged in the inner cavity, the rotating mechanism (400) is rotatably connected with the shell (100), and the first functional module (200) and the second functional module (300) are in sliding fit with the shell (100); under the condition that the rotating mechanism (400) is in the first state, the first functional module (200) and the second functional module (300) are both positioned in the inner cavity; under the condition that the rotating mechanism (400) is in the second state, the first functional module (200) is at least partially positioned outside the shell (100); when the rotating mechanism (400) is in the third state, the second functional module (300) is at least partially located outside the housing (100). The problem that the function module of present electronic equipment can't work comparatively in a flexible way is solved to above-mentioned scheme.

Description

Electronic device

Technical Field

The invention relates to the technical field of communication equipment, in particular to electronic equipment.

Background

As user demands increase, the performance of electronic devices continues to optimize. The performance of the electronic equipment is optimized not only by increasing functions, but also by further upgrading the functions. As is known, an electronic device is generally configured with a large number of functional modules, such as a camera, a receiver, etc., which can implement corresponding functions of the electronic device.

Along with the promotion of user's demand, the function module of present electronic equipment configuration is more and more, but these function modules adopt fixed mounting means, and this operating position that leads to the function module is comparatively fixed, can't carry out work comparatively in a flexible way, can influence electronic equipment's wholeness ability finally.

Disclosure of Invention

The invention discloses electronic equipment, which aims to solve the problem that a functional module configured by the conventional electronic equipment cannot work flexibly due to relatively fixed working position.

In order to solve the problems, the invention adopts the following technical scheme:

an electronic equipment, includes casing, first function module, second function module and slewing mechanism, wherein:

the shell is provided with an inner cavity and a through hole communicated with the inner cavity, the rotating mechanism is arranged in the inner cavity and is rotationally connected with the shell, the first functional module and the second functional module are arranged on one side of the rotating mechanism, which faces the through hole, and the first functional module and the second functional module are in sliding fit with the shell; wherein:

under the condition that the rotating mechanism is in a first state, the first functional module and the second functional module are both positioned in the inner cavity;

under the condition that the rotating mechanism is in the second state, the first functional module is at least partially positioned outside the shell;

and under the condition that the rotating mechanism is in the third state, the second functional module is at least partially positioned outside the shell.

The technical scheme adopted by the invention can achieve the following beneficial effects:

the electronic equipment disclosed by the embodiment of the invention improves the structure of the existing electronic equipment, and the rotating mechanism is arranged in the shell, the first functional module and the second functional module are arranged on one side of the rotating mechanism facing the through hole, and in the process of rotating the rotating mechanism relative to the shell, at least part of the first functional module can be positioned outside the shell under the condition that the rotating mechanism is in the second state and at least part of the second functional module can be positioned outside the shell under the condition that the rotating mechanism is in the third state by switching between different states. Therefore, the electronic equipment disclosed by the embodiment of the invention can adjust the positions of the first functional module and the second functional module through the rotation of the rotating mechanism, so that the first functional module or the second functional module can extend out of the shell to work more flexibly, and the performance of the electronic equipment can be improved.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention and not to limit the invention. In the drawings:

fig. 1 to fig. 3 are schematic partial structural diagrams of an electronic device in different states according to an embodiment of the present invention.

Description of reference numerals:

100-case, 100 a-first guide space, 100 b-second guide space, 110-case body, 120-spacer,

200-a first functional module, 210-a first module bracket, 220-a first functional unit, 211-a first connecting groove,

300-second functional module, 310-second module holder, 320-second functional unit, 311-second connecting groove,

400-a rotating mechanism,

500-first electrical contact, 600-second electrical contact,

700-driving mechanism.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the technical solutions of the present invention will be clearly and completely described below with reference to the specific embodiments of the present invention and the accompanying drawings. It is to be understood that the described embodiments are merely exemplary of the invention, and not restrictive of the full scope of the invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The technical solutions disclosed in the embodiments of the present invention are described in detail below with reference to the accompanying drawings.

Referring to fig. 1 to fig. 3, an embodiment of the invention discloses an electronic device, which includes a housing 100, a first functional module 200, a second functional module 300, and a rotating mechanism 400.

The housing 100 is a base member of the electronic apparatus, and the housing 100 can provide a mounting base for other components of the electronic apparatus. In the embodiment of the present invention, the housing 100 is provided with an inner cavity and a through hole communicating with the inner cavity. The through hole is used for the first functional module 200 and the second functional module 300 to pass through, and then retract into the housing 100 or at least partially extend out of the housing 100.

In a typical case, the housing 100 has a center frame, and the through-hole may be opened in the center frame. Of course, the perforation may be opened at other positions of the casing 100, and the embodiment of the invention does not limit the specific position of the perforation on the casing 100.

The rotation mechanism 400 is disposed in the inner cavity. The rotating mechanism 400 is rotatably coupled to the housing 100 so as to be rotatable with respect to the housing 100, eventually enabling the rotating mechanism 400 to be rotationally switched among the first state, the second state, and the third state.

The first functional module 200 and the second functional module 300 are disposed on a side of the rotating mechanism 400 facing the through hole. The first functional module 200 and the second functional module 300 are slidably engaged with the housing 100, and can slide relative to the housing 100, so as to finally change the position. Specifically, the first functional module 200 and the second functional module 300 are both rotatably connected to the rotating mechanism 400.

In the embodiment of the present invention, when the rotating mechanism 400 is in the first state, the first functional module 200 and the second functional module 300 are both located in the inner cavity, and in this case, the first functional module 200 and the second functional module 300 are both accommodated in the inner cavity, so as to be hidden in the housing 100.

With the rotating mechanism 400 in the second state, the first functional module 200 is at least partially located outside the housing 100, and thus is located outside the housing 100 for operation.

With the rotating mechanism 400 in the third state, the second functional module 300 is at least partially located outside the housing 100, and thus is located outside the housing 100 for operation.

The electronic device disclosed in the embodiment of the present invention improves the structure of the existing electronic device by providing the rotating mechanism 400 in the housing 100 and enabling the first functional module 200 and the second functional module 300 to be disposed on the side of the rotating mechanism 400 facing the through hole, and during the rotation of the rotating mechanism 400 relative to the housing 100, by switching the rotation between different states, at least a part of the first functional module 200 can be located outside the housing 100 when the rotating mechanism 400 is in the second state, and at least a part of the second functional module 300 can be located outside the housing 100 when the rotating mechanism 400 is in the third state. Therefore, the electronic device disclosed in the embodiment of the invention can adjust the positions of the first functional module 200 and the second functional module 300 by rotating the rotating mechanism 400, so that the first functional module 200 or the second functional module 300 can extend out of the housing 100 to perform more flexible work, and finally the performance of the electronic device can be improved.

In an alternative embodiment, the rotating mechanism 400 may be a rod-shaped structure, the first function module 200 may be connected to one end of the rod-shaped structure, and the second function module 300 may be connected to the other end of the rod-shaped structure. The middle point of the rod-shaped structure may be rotatably connected to the inside of the housing 100, and in particular, the middle point of the rod-shaped structure may be hinged to the housing 100. Specifically, the first functional module 200 and the second functional module 300 are rotatably connected to the rod-shaped structural member.

In another alternative embodiment, the rotating mechanism 400 may be a disk-shaped structure, and the first functional module 200 and the second functional module 300 may be disposed on the disk-shaped structure at intervals. Specifically, the first functional module 200 and the second functional module 300 may be respectively disposed at both sides of the rotation center of the disc-shaped structure, so that the stability of the movement can be improved.

In the embodiment of the present invention, the first functional module 200 may have a fourth state and a fifth state. The first function module 200 may include a first module bracket 210 and a first function unit 220, and the first function unit 220 may be detachably mounted to the first module bracket 210 in a state where the first function module 200 is in the fourth state. In a case where the first function module 200 is in the fifth state, the first function unit 220 is separated from the first module holder 210, and in this case, the first function unit 220 is also in a separated state from the housing 100. The first functional unit 220 can operate in a separated state, thereby enabling more flexible operation. Of course, in this case, the user may directly operate the first function unit 220 by manually manipulating it. The electronic device may further include a first wireless communication module, the first wireless communication module may be disposed in the housing 100, the first functional unit 220 may be disposed with a second wireless communication module, and the first wireless communication module and the second wireless communication module may implement data exchange through wireless communication transmission, so that the electronic device may control the first functional unit 220 to operate, thereby implementing wireless control.

Similarly, the second function module 300 may have a sixth state and a seventh state, the second function module 300 may include a second module holder 310 and a second function unit 320, and the second function unit 320 may be detachably mounted to the second module holder 310 in a case where the second function module 300 is in the sixth state. In the case where the second function module 300 is in the seventh state, the second function unit 320 is separated from the second module holder 310, and in this case, the second function unit 320 is also separated from the housing 100. The second function unit 320 can operate in a separated state, thereby enabling more flexible operation. Likewise, in this case, the user can directly operate the second function unit 320 by manually operating it. The electronic device may be provided with a third wireless communication module, the third wireless communication module may be provided in the housing 100, the second function unit 320 may be provided with a fourth wireless communication module, and the third wireless communication module and the fourth wireless communication module may implement data exchange through wireless communication transmission, so that the electronic device may control the second function unit 320 to operate, thereby implementing wireless control.

As described above, the first functional module 200 and the second functional module 300 may be rotatably connected with the rotating mechanism 400. In an alternative scheme, the rotating mechanism 400 may be a rod-shaped structure, the first module bracket 210 may have a first connecting groove 211, the second module bracket 310 may have a second connecting groove 311, a first end of the rod-shaped structure is slidably engaged with the first connecting groove 211, and a first end of the rod-shaped structure is rotatably connected to the first module bracket 210, a second end of the rod-shaped structure is slidably engaged with the second connecting groove 311, and a second end of the rod-shaped structure is rotatably connected to the second module bracket 310. In the above scheme, the first module bracket 210 can rotate relative to the rotating mechanism 400 and can slide along the first connecting groove 211, which undoubtedly enables the first functional module 200 to have better flexibility, and further can adapt to a smaller movement space, and is beneficial to improving the compactness of the structure of the electronic device. Similarly, the second module holder 310 can rotate relative to the rotating mechanism 400 and can slide along the second connecting slot 311, so that the second functional module 300 has better flexibility, and can adapt to a smaller movement space, and the compactness of the structure of the electronic device can be improved.

In a normal case, the first functional module 200 and the second functional module 300 do not need to work simultaneously, and based on this, in an alternative, the first functional module 200 may be at least partially located outside the housing 100 and the second functional module 300 may be located in the inner cavity with the rotating mechanism 400 in the second state, so as to be hidden inside the housing 100. In this case, the first functional module 200 can be located outside the housing 100 for operation, and the second functional module 300 is hidden inside the housing 100 and protected by the housing 100.

Likewise, in another alternative, with the rotating mechanism 400 in the third state, the second functional module 300 may be at least partially located outside the housing 100, and the first functional module 200 may be located in the inner cavity. In this case, the second functional module 300 can be located outside the housing 100 for operation, and the first functional module 200 can be hidden inside the housing 100 and protected by the housing 100.

In an embodiment of the present invention, a first electrical contact 500 and a second electrical contact 600 may be disposed within the interior cavity of the housing 100. The first electrical contact 500 is disposed opposite to the first functional module 200. The second electrical contact 600 is disposed opposite to the second functional module 300. When the rotating mechanism 400 is in the first state, the first functional module 200 and the first electrical contact 500 can be separated, and the second functional module 300 and the second electrical contact 600 can be separated, and the first functional module 200 and the second functional module 300 are simply accommodated in the inner cavity of the housing 100, so as to be protected by the housing 100.

Under the condition that the rotating mechanism 400 is in the second state, the first functional module 200 is at least partially located outside the housing 100, the first functional module 200 is separated from the first electrical contact 500, the second functional module 300 is located in the inner cavity of the housing 100, and the second functional module 300 is electrically connected to the second electrical contact 600, in this case, the second functional module 300 can be hidden in the inner cavity of the housing 100 and can be charged through the second electrical contact 600, thereby being beneficial to improving the cruising ability of the second functional module 300.

With the rotating mechanism 400 in the third state, the first functional module 200 is located in the inner cavity of the housing 100, and the first functional module 200 is electrically connected to the first electrical contact 500. The second functional module 300 is at least partially located outside the housing 100, and the second functional module 300 is separated from the second electrical contact 600. Under the circumstances, the first functional module 200 can be hidden in the inner cavity of the housing 100, and can be charged through the first electrical contact 500, thereby being beneficial to improving the cruising ability of the first functional module 200.

In the embodiment of the present invention, the through hole may be a hole with a larger opening area, so as to satisfy the passing requirements of the first functional module 200 and the second functional module 300. In this case, the perforation usually requires a large opening area, which is disadvantageous to ensure the overall strength of the housing 100, and the large opening area may affect the appearance performance of the electronic device.

Based on this, in an alternative, the perforations may comprise a first sub-perforation and a second sub-perforation. The first functional module 200 can rotate with the rotating mechanism 400 and retract into the inner cavity or at least partially extend out of the housing 100 through the first sub-through hole; the second functional module 300 can rotate with the rotating mechanism 400 and retract into the inner cavity or at least partially extend out of the housing 100 through the second sub-aperture. In this case, the through hole is divided into a first sub-through hole and a second sub-through hole, and then the first sub-through hole and the second sub-through hole are respectively matched with the first functional module 200 and the second functional module 300, which is beneficial to improving the strength of the housing 100 and simultaneously prevents the housing 100 from being provided with a large-area opening.

As described above, the first functional module 200 and the second functional module 300 can enter and exit the housing 100 along with the rotation of the rotating mechanism 400, specifically, the first sub-through hole and the second sub-through hole can be both opened on the same side of the housing 100, so that the first functional module 200 and the second functional module 300 can enter and exit the housing 100 through the same side of the housing 100, as shown in fig. 1 to fig. 3.

Alternatively, the first sub-through hole and the second sub-through hole may be respectively opened at two adjacent sides of the casing 100, for example, in a specific embodiment, in one corner of the casing 100, two adjacent sides of the middle frame of the casing 100 may be respectively opened with the first sub-through hole and the second sub-through hole.

Optionally, the first sub-through hole and the second sub-through hole may be respectively opened on two opposite sides of the casing 100, for example, the first sub-through hole may be opened on a front cover of the casing 100, and the second sub-through hole may be opened on a rear cover of the casing 100. The range of the rotation angle of the rotating mechanism 400 can be specifically designed in a specific design process, so that the rotating mechanism 400 can meet the above-mentioned driving requirements for the first functional module 200 and the second functional module 300 in the rotation process.

In a further aspect, when the rotating mechanism 400 is in the first state, the first functional module 200 and the second functional module 300 may be symmetrically disposed on two sides of the rotation center of the rotating mechanism 400, so as to ensure the balance of the forces applied to the rotating mechanism 400 and avoid the support stress from being too concentrated.

In the embodiment of the present invention, when the rotating mechanism 400 is in the first state, the first functional module 200 and the second functional module 300 are both located in the inner cavity, and the surfaces of the first functional module 200 and the second functional module 300 facing the outside of the electronic device and the first surface of the housing 100 with the through hole can be coplanar, so as to improve the appearance performance of the electronic device.

In order to make the movement of the first functional module 200 and the second functional module 300 more stable, in an optional scheme, the inner cavity of the housing 100 disclosed in the embodiment of the present invention may include a first guide space 100a and a second guide space 100b, both the first guide space 100a and the second guide space 100b may be communicated with the through hole, the first functional module 200 is in sliding fit with the first guide space 100a, and the second functional module 300 is in sliding fit with the second guide space 100b, so that the movement stability can be further improved.

In the embodiment of the present invention, the first guide space 100a and the second guide space 100b are formed in various ways, and alternatively, both the first guide space 100a and the second guide space 100b may be enclosed by the inner wall of the housing 100. In another alternative, the casing 100 disclosed in the embodiment of the present invention may include a casing main body 110 and a partition 120, wherein the casing main body 110 defines an inner cavity, and the partition 120 is disposed in the inner cavity and divides the inner cavity into a first guide space 100a and a second guide space 100 b. In this case, the spacer 120 may not only serve to divide the space of the inner cavity of the case 100, but also to reinforce the strength of the case 100. Specifically, the spacer 120 may be a unitary structure with the case body 110, thereby simplifying assembly and manufacture of the case 100.

The electronic device disclosed by the embodiment of the invention can further comprise a driving mechanism 700, wherein the driving mechanism 700 is connected with the rotating mechanism 400, and the driving mechanism 700 drives the rotating mechanism 400 to rotate. Specifically, the driving mechanism 700 may include a driving motor fixed in the inner cavity, and a power output shaft of the driving motor may be directly connected to the rotating mechanism 400 to drive the rotating mechanism 400 to rotate. Of course, the driving mechanism 700 may further include a transmission mechanism, and the driving motor may be connected to the rotating mechanism 400 through the transmission mechanism, so as to drive the rotating mechanism 400 to rotate through the transmission mechanism. The transmission mechanism can be a gear transmission mechanism, a chain transmission mechanism, a belt transmission mechanism and the like, and the embodiment of the invention does not limit the specific type of the transmission mechanism.

Of course, in the electronic device disclosed in the embodiment of the present invention, the rotation of the rotation mechanism 400 can be realized by manual operation of a user. The electronic device disclosed in the embodiment of the present invention may further include an elastic resetting member, where the elastic resetting member is elastically positioned between the rotating mechanism 400 and the housing 100, and the elastic resetting member may drive the rotating mechanism 400 to switch from the second state to the first state and from the third state to the first state, so that the rotating mechanism 400 can be better reset to the first state.

The structure of the elastic reset piece can be various. In an alternative, the elastic restoring member may be a telescopic spring, a first end of the telescopic spring is connected to the housing 100, a second end of the telescopic spring is connected to the rotating mechanism 400, and the second end of the telescopic spring is spaced from the rotation center of the rotating mechanism 400. Under the general condition, the extension spring is simple in structure, convenient to install and easy to achieve a good elastic driving effect. In another alternative, the elastic restoring member may be a torsion spring, and the rotating mechanism 400 is rotatably disposed on the housing 100 through a rotating shaft. The torsion spring can be sleeved on the rotating shaft. A first end of the torsion spring is connected to the housing 100. The second end of the torsion spring is connected to the rotation mechanism 400, and the torsion spring can apply an elastic force to the rotation mechanism 400 on the basis of the housing 100, and has an advantage of occupying a small space.

In an alternative embodiment, the first functional module 200 may include a first camera and the second functional module 300 may include a second camera. The housing 100 may include a rear cover. The rear cover may be provided with a first light-transmitting area, and at least one of the first camera and the second camera may be disposed opposite to the first light-transmitting area in a state where the rotating mechanism 400 is in the first state. In this case, when the first functional module 200 and the second functional module 300 are located in the inner cavity of the housing 100, the rear-view photographing can still be performed through the first light-transmitting area, and thus the working positions of the first functional module 200 and the second functional module 300 can be further increased, so that the first functional module 200 and the second functional module 300 can work more flexibly.

In another alternative embodiment, the first functional module 200 may include a first camera and the second functional module 300 may include a second camera. The electronic device disclosed in the embodiment of the present invention may further include a display module, the display module is provided with a second transparent region, the second transparent region and the display module are distributed in a coplanar manner, and under the condition that the rotating mechanism 400 is in the first state, at least one of the first camera and the second camera is disposed opposite to the second transparent region. In this case, at least one of the first camera and the second camera can shoot front through the second light-transmitting area, and then the working positions of the first functional module 200 and the second functional module 300 can be further increased, so that the first functional module 200 and the second functional module 300 can work more flexibly.

In an optional implementation manner, the first functional module 200 may include a first camera, and the second functional module 300 includes a second camera, and the electronic device disclosed in the embodiment of the present invention may include a first light-transmitting region and a second light-transmitting region that are distributed opposite to each other, where the first camera is disposed opposite to the first light-transmitting region and the second camera is disposed opposite to the second light-transmitting region when the rotating mechanism 400 is in the first state. Under the condition, the first camera and the second camera can enable the electronic equipment to have the front shooting capability and the rear shooting capability at the same time, and then the shooting performance of the electronic equipment can be further improved. Moreover, the first functional module 200 and the second functional module 300 can have working capability under the condition of being hidden in the housing 100, which undoubtedly enables more working positions of the first functional module 200 and the second functional module 300, and further realizes more flexible working.

As described above, the first function module 200 may include the first function unit 220 and the first module holder 210, the first module holder 210 is rotatably connected to the rotating mechanism 400, and the first function unit 220 may be rotated between the first position and the second position with respect to the first module holder 210 with the rotating mechanism 400 in the second state. In the case where the first function unit 220 is located at the first position, the first function unit 220 faces a first direction, and in the case where the first function unit 220 is located at the second position, the first function unit 220 faces a second direction, the first direction being different from the second direction. Specifically, the first direction and the second direction may be opposite. In this case, the first functional unit 220 can rotate to adjust the working direction, so that the first functional unit 220 can work at more positions, and the flexibility of the first functional module 200 can be further improved.

Similarly, as described above, the second function module 300 may include the second function unit 320 and the second module holder 310, the second module holder 310 is rotatably connected to the rotating mechanism 400, and the second function unit 320 is rotatable between the third position and the fourth position with respect to the second module holder 310 with the rotating mechanism 400 in the third state. In the case where the second function unit 320 is in the third position, the second function unit 320 faces a third direction, and in the case where the second function unit 320 is in the fourth position, the second function unit 320 faces a fourth direction, the third direction being different from the fourth direction. Specifically, the third direction and the fourth direction may be opposite. In this case, the second function unit 320 can rotate to adjust the working direction, so that the second function unit 320 can work at more positions, and the flexibility of the second function module 300 can be further improved.

The electronic device disclosed by the embodiment of the invention can be a mobile phone, a tablet computer, an electronic book reader, a game machine, a wearable device (such as a smart watch) and the like, and the embodiment of the invention does not limit the specific type of the electronic device.

In the above embodiments of the present invention, the difference between the embodiments is mainly described, and different optimization features between the embodiments can be combined to form a better embodiment as long as they are not contradictory, and further description is omitted here in view of brevity of the text.

While the present invention has been described with reference to the embodiments shown in the drawings, the present invention is not limited to the embodiments, which are illustrative and not restrictive, and it will be apparent to those skilled in the art that various changes and modifications can be made therein without departing from the spirit and scope of the invention as defined in the appended claims.

Claims (15)

1. An electronic apparatus, comprising a housing (100), a first functional module (200), a second functional module (300), and a rotating mechanism (400), wherein:

the shell (100) is provided with an inner cavity and a through hole communicated with the inner cavity, the rotating mechanism (400) is arranged in the inner cavity, the rotating mechanism (400) is rotatably connected with the shell (100), the first functional module (200) and the second functional module (300) are arranged on one side, facing the through hole, of the rotating mechanism (400), and the first functional module (200) and the second functional module (300) are in sliding fit with the shell (100); wherein:

the first functional module (200) and the second functional module (300) are both located within the internal cavity with the rotating mechanism (400) in a first state;

-in the second state of the rotating mechanism (400), the first functional module (200) is at least partially outside the housing (100);

-the second functional module (300) is at least partially outside the housing (100) with the turning mechanism (400) in the third state;

the rotating mechanism (400) is a rod-shaped structural member, the first functional module (200) is connected to one end of the rod-shaped structural member, the second functional module (300) is connected to the other end of the rod-shaped structural member, the middle point of the rod-shaped structural member is rotatably connected in the shell (100), and the first functional module (200) and the second functional module (300) are both rotatably connected with the rod-shaped structural member;

the electronic equipment further comprises a driving mechanism (700), the driving mechanism (700) is connected with the rotating mechanism (400), and the driving mechanism (700) drives the rotating mechanism (400) to rotate; or,

the electronic device further comprises an elastic resetting piece, the elastic resetting piece is elastically positioned between the rotating mechanism (400) and the shell (100), and the elastic resetting piece can drive the rotating mechanism (400) to be switched from the second state to the first state and from the third state to the first state.

2. The electronic device of claim 1, wherein:

the first functional module (200) has a fourth state and a fifth state, the first functional module (200) comprises a first module holder (210) and a first functional unit (220), the first functional unit (220) is detachably connected with the first module holder (210) when the first functional module (200) is in the fourth state, and the first functional unit (220) is separated from the first module holder (210) when the first functional module (200) is in the fifth state;

and/or the second functional module (300) has a sixth state and a seventh state, the second functional module (300) comprises a second module holder (310) and a second functional unit (320), the second functional unit (320) is detachably connected to the second module holder (310) when the second functional module (300) is in the sixth state, and the second functional unit (320) is separated from the second module holder (310) when the second functional module (300) is in the seventh state.

3. The electronic device of claim 2, wherein the first module holder (210) defines a first connecting slot (211), the second module holder (310) defines a second connecting slot (311), a first end of the rod-shaped structural member is slidably engaged with the first connecting slot (211), and a first end of the rod-shaped structural member is rotatably connected to the first module holder (210), a second end of the rod-shaped structural member is slidably engaged with the second connecting slot (311), and a second end of the rod-shaped structural member is rotatably connected to the second module holder (310).

4. The electronic device of claim 1, wherein:

with the rotating mechanism (400) in the second state, the second functional module (300) is located within the internal cavity;

the first functional module (200) is located within the cavity with the rotating mechanism (400) in the third state.

5. An electronic device according to claim 4, wherein a first electrical contact (500) and a second electrical contact (600) are arranged within the inner cavity, the first electrical contact (500) being arranged opposite the first functional module (200), the second electrical contact (600) being arranged opposite the second functional module (300), wherein:

-in the case of the rotating mechanism (400) being in the first state, the first functional module (200) is separated from the first electrical contact (500) and the second functional module (300) is separated from the second electrical contact (600);

-in the case of the rotating mechanism (400) being in the second state, the first functional module (200) is separated from the first electrical contact (500), and the second functional module (300) is in electrical contact with the second electrical contact (600);

in the third state of the rotating mechanism (400), the first functional module (200) is in electrical contact with the first electrical contact (500), and the second functional module (300) is separated from the second electrical contact (600).

6. The electronic device according to claim 1, wherein the through hole comprises a first sub-through hole and a second sub-through hole, and the first functional module (200) is rotatable with the rotating mechanism (400) and is retracted into the inner cavity or at least partially extended out of the housing (100) through the first sub-through hole; the second functional module (300) can rotate along with the rotating mechanism (400) and retract into the inner cavity or at least partially extend out of the shell (100) through the second sub-through hole.

7. The electronic device of claim 6, wherein the first sub-through hole and the second sub-through hole are both disposed on the same side of the housing (100), or the first sub-through hole and the second sub-through hole are disposed on two adjacent sides or two opposite sides of the housing (100), respectively.

8. The electronic device according to claim 1, wherein the first functional module (200) and the second functional module (300) are symmetrically disposed on both sides of a rotation center of the rotating mechanism (400) with the rotating mechanism (400) in the first state.

9. The electronic device according to claim 1, wherein the inner cavity of the housing (100) comprises a first guide space (100 a) and a second guide space (100 b), the first guide space (100 a) and the second guide space (100 b) are both communicated with the through hole, the first function module (200) is slidably fitted with the first guide space (100 a), and the second function module (300) is slidably fitted with the second guide space (100 b).

10. The electronic device according to claim 9, wherein the housing (100) includes a housing main body (110) and a partition (120), the housing main body (110) opens the inner cavity, and the partition (120) is disposed in the inner cavity and divides the inner cavity into the first guide space (100 a) and the second guide space (100 b).

11. The electronic device of claim 1, wherein:

the elastic reset piece is an extension spring, a first end of the extension spring is connected to the shell (100), a second end of the extension spring is connected to the rotating mechanism (400), and the second end of the extension spring and the rotating center of the rotating mechanism (400) are arranged at intervals;

or, elasticity resets and is the torsional spring, slewing mechanism (400) through the pivot set up with rotating in casing (100), the torsional spring cover is established in the pivot, the first end of torsional spring with casing (100) link to each other, the second end of torsional spring with slewing mechanism (400) link to each other.

12. The electronic device according to claim 1, wherein the first functional module (200) comprises a first camera, the second functional module (300) comprises a second camera, and the housing (100) comprises a rear cover provided with a first light-transmissive region, and wherein at least one of the first camera and the second camera is disposed opposite to the first light-transmissive region with the rotating mechanism (400) in the first state.

13. The electronic device according to claim 1, wherein the first functional module (200) comprises a first camera, the second functional module (300) comprises a second camera, the electronic device further comprising a display module, the display module being provided with a second light-transmissive region, the second light-transmissive region being arranged coplanar with the display module, at least one of the first camera and the second camera being arranged opposite to the second light-transmissive region with the rotating mechanism (400) in the first state.

14. The electronic device of claim 1, wherein the first functional module (200) comprises a first camera and the second functional module (300) comprises a second camera, wherein the electronic device is provided with a first light-transmitting area and a second light-transmitting area which are opposite to each other, and the first camera is disposed opposite to the first light-transmitting area and the second camera is disposed opposite to the second light-transmitting area when the rotating mechanism (400) is in the first state.

15. The electronic device of claim 1, wherein:

the first functional module (200) comprises a first functional unit (220) and a first module holder (210), the first module holder (210) being rotatably connected to the rotation mechanism (400), and the first functional unit (220) being rotatable relative to the first module holder (210) between a first position and a second position with the rotation mechanism (400) in the second state; and/or the presence of a gas in the gas,

the second functional module (300) comprises a second functional unit (320) and a second module holder (310), the second module holder (310) being rotatably connected to the rotation mechanism (400), and the second functional unit (320) being rotatable relative to the second module holder (310) between a third position and a fourth position with the rotation mechanism (400) in the third state; wherein,

-the first functional unit (220) is facing a first direction with the first functional unit (220) in the first position; -the first functional unit (220) is facing a second direction with the first functional unit (220) in the second position; the first direction is different from the second direction;

-the second functional unit (320) is facing a third direction in case the second functional unit (320) is located in the third position; with the second functional unit (320) in the fourth position, the second functional unit (320) is facing in a fourth direction; the third direction is different from the fourth direction.

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