CN111629089B - Electronic equipment - Google Patents

Abstract

The application provides electronic equipment, electronic equipment includes equipment body, rotating member, first stop gear and second stop gear, the rotating member can for the equipment body is rotatory, the rotating member is in first stop gear reaches the spacing effect of second stop gear is rotatory out down. According to the scheme, the rigid structural form of the traditional electronic equipment is changed, and brand new use experience is brought to the user.

Description

Electronic equipment

Technical Field

The application relates to the field of electronic technology, in particular to electronic equipment.

Background

The structural form of the existing electronic equipment is relatively solidified, such as the electronic equipment comprises a shell and an electric device fixedly arranged in the shell. Although the design is very mature, the user experience is uniform, and the pain points of the user are difficult to directly strike on the market with increasingly competitive market.

Disclosure of Invention

The application provides the electronic equipment with the novel structure, and user experience is improved.

The electronic equipment comprises an equipment body, a rotating piece, a first limiting mechanism and a second limiting mechanism, wherein the rotating piece can rotate relative to the equipment body, and the rotating piece rotates out under the limiting action of the first limiting mechanism and the second limiting mechanism.

An electronic device comprises a device body, a rotating member, a first limiting mechanism and a second limiting mechanism, wherein the rotating member can rotate relative to the device body, the first limiting mechanism is used for providing a first acting force for the rotating member, the second limiting mechanism is used for providing a second acting force for the rotating member, and the first acting force and the second acting force act on the rotating member together to enable the rotating member to move around a rotation center compared with the device body.

The electronic equipment comprises an equipment body and a rotating piece, wherein the equipment body comprises a shell and a screen, the screen is fixed on the shell, the rotating piece is movably connected with the shell, the rotating piece is provided with a first position and a second position, the first position is blocked behind the screen, the second position extends out of the screen, the rotating piece can move between the first position and the second position, the shell is provided with a first limiting part and a second limiting part, the first limiting part is in sliding butt with the rotating piece, the rotating piece is provided with a third limiting part, the third limiting part is used for being matched with the second limiting part, and when the rotating piece rotates from the first position to the second position, the matched part of the third limiting part and the second limiting part is gradually reduced.

The utility model provides an electronic equipment, electronic equipment includes equipment body, rotating member, controller, first stop gear and second stop gear, rotating member swing joint in the equipment body, the controller is used for producing control signal, works as the rotating member is according to control signal motion, the rotating member is in first stop gear with second stop gear's spacing comes out.

In the scheme of this application, but design electronic equipment into swivelling joint's equipment body and rotating member, and the rotating member is rotatory out under first stop gear and second stop gear's spacing effect. The electronic equipment with the mechanism design has quite novel structural form, changes the rigid structural form of the traditional electronic equipment in curing, and brings brand new use experience to users.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present application, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic structural diagram of an electronic device according to a first embodiment of the present application in a state.

Fig. 2 is a schematic structural diagram of the electronic device according to the first embodiment of the present application in another state.

Fig. 3 is a schematic structural diagram of an electronic device according to a second embodiment of the present application in a state.

Fig. 4 is a schematic structural diagram of an electronic device according to a second embodiment of the present application in another state.

Fig. 5 is a schematic view of the electronic device of fig. 3 with the rear cover and bezel removed.

Fig. 6 is a schematic view of the electronic device of fig. 4 with the rear cover and bezel removed.

Fig. 7 is a schematic structural diagram of a driving assembly driving a rotating member in an electronic device according to an embodiment of the present application.

Fig. 8 is a schematic structural view of the driving assembly in fig. 7.

Fig. 9 is a schematic structural diagram of an electronic device according to a second embodiment of the present application.

Fig. 10 is a schematic structural diagram of an electronic device according to a third embodiment of the present disclosure in a state.

Fig. 11 is a schematic structural diagram of an electronic device according to a third embodiment of the present application in another state.

Fig. 12 is a schematic diagram of a circuit architecture of an electronic device provided in the present application.

Detailed Description

The following description of the embodiments of the present application will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all, of the embodiments of the present application. All other embodiments, which can be made by one of ordinary skill in the art without undue burden from the inventor based on the embodiments herein, are within the scope of the protection of the present application.

Referring to fig. 1 and fig. 2 together, fig. 1 is a schematic structural diagram of an electronic device according to a first embodiment of the present application in a state; fig. 2 is a schematic structural diagram of the electronic device according to the first embodiment of the present application in another state. The electronic device 1 may be, but is not limited to, a mobile phone, a tablet computer, etc. The electronic device 1 includes a device body 10, and a rotating member 20, the rotating member 10 being rotatable with respect to the device body 10.

The device body 10 is a main part of the electronic device 1, and the device body 10 is used as a main mechanical structure and an electric function implementing part of the electronic device 1. The device body 10 includes, but is not limited to, a housing in the electronic device 1, a circuit board assembly (circuit board and devices disposed on the circuit board), a transmission line, an electronic module (e.g., a screen, etc.) disposed outside the circuit board but electrically connected to the circuit board, a support structure (e.g., a middle frame) supporting the electronic assembly, etc.

The rotary member 20 is typically provided with a functional module 30. The functional module 30 has a certain mechanical structure and a circuit structure, and can receive user or environment feedback, collect user data or environment data, and be used for realizing specific functions. The functional module 30 includes one or more functional devices. The functional device may be, but is not limited to, a camera, a flash, a light sensing device, a receiver, a microphone, a biometric device (e.g., a fingerprint acquisition chip), etc. The receiver, also called an earpiece, is a device that converts an electric signal into an acoustic signal. A microphone is a device that converts an acoustic signal into an electrical signal.

When the rotating member 20 rotates relative to the apparatus body 10, the functional module 30 is driven to rotate. In one embodiment, the apparatus body 10 has a receiving space 11 (see fig. 5), and the rotating member 20 can rotate relative to the apparatus body 10 to rotate out of or into the receiving space 11. When the rotary member 20 rotates, the functional module 30 provided on the rotary member 20 rotates out of the accommodating space 11 or into the accommodating space 11 in response to the rotation of the rotary member 20. When the functional module 30 is rotated out of the accommodating space 11 along with the rotation of the rotating member 20, the functional module 30 is exposed, and the functional module 30 can be used; when the functional module 30 is rotated into the accommodating space 11 along with the rotation of the rotating member 20, the functional module 30 is blocked, and some or all of the functional devices in the functional module 30 may not be used.

The functional module 30 is disposed on the rotating member 20, and the functional devices in the functional module 30 can be turned into the accommodating space 11 along with the rotation of the rotating member 20, so that the screen 130 in the electronic device 1 does not need to be disposed at a position corresponding to the functional devices, and therefore, the display area of the screen 130 of the electronic device 1 can be made larger, which is beneficial to improving the screen duty ratio of the electronic device 1. For example, when the functional device includes the front camera, the through hole corresponding to the front camera is not required to be disposed on the screen 130 of the electronic device 1, so that compared with the case that the through hole corresponding to the front camera is disposed on the screen 130 of the electronic device 1, the display area of the screen of the electronic device 1 can be made larger, thereby being beneficial to improving the screen occupation ratio of the electronic device 1.

For example, the functional module 30 includes a front camera, a receiver, a rear flash, and a front light. When the functional module 30 is rotated out of the accommodating space 11 along with the rotation of the rotating member 20, the front camera, the receiver, the rear flash, and the front light are exposed, and the front camera, the receiver, the rear flash, and the front light can be used. When the functional module 30 is rotated into the accommodating space along with the rotation of the rotating member 20, the front camera, the receiver, the rear flash, and the front light supplementing lamp are all shielded, wherein the front camera, the rear flash, and the front light supplementing lamp are not usable, and the receiver is usable.

Specifically, in the present embodiment, the device body 10 includes a rear cover 110, a frame 120 surrounding the periphery of the rear cover 110, and a screen 130. The screen 130 and the rear cover 110 are disposed on two opposite sides of the frame 120. The frame 120 and the rear cover 110 may be integrally formed; the frame 120 and the rear cover 110 may be two independent components, and the frame 120 and the rear cover 110 may be assembled and fixed together. The frame 120, the rear cover 110, and the screen 130 enclose the accommodating space 11, and the accommodating space 11 may be used to accommodate the functional module 30, and may also be used to accommodate components such as a circuit board and a battery of the electronic device 1. The screen 130 may be a screen having only a display function, or may be a screen having integrated display and touch functions. An opening 121 is formed in one of the frames 120, and the opening 121 is communicated with the accommodating space 11. The opening 121 shown in fig. 1 and 2 is located on one of the rims of the electronic device 1, and it is understood that in other embodiments, the opening 121 is located on another rim, or the opening 121 is located on two adjacent rims. The frame 120 shown in fig. 1 and 2 includes a first frame 122, a second frame 123, a third frame 124, and a fourth frame 125, which are sequentially connected. The first frame 122 is disposed opposite to the third frame 124, the second frame 123 is disposed opposite to the fourth frame 125, the second frame 123 is connected to the first frame 122 and the third frame 124, and the fourth frame 125 is connected to the first frame 122 and the third frame 124. In this embodiment, the opening 121 is formed on the first frame 122. When the rotating member 20 protrudes from the apparatus body 10, one end of the rotating member 20 protrudes more than the first frame 122 than the other end of the rotating member 20 protrudes, for the first frame 122 where the opening 121 is formed. In this embodiment, when the rotating member 20 extends out of the apparatus body 10, an end of the rotating member 20 adjacent to the fourth frame 125 extends by a greater height than the first frame 122, and an end of the rotating member 20 adjacent to the second frame 123 extends by a greater height than the first frame 122.

Referring to fig. 3 and fig. 4 together, fig. 3 is a schematic structural diagram of an electronic device according to a second embodiment of the present application in a state; fig. 4 is a schematic structural diagram of an electronic device according to a second embodiment of the present application in another state. The electronic device in this embodiment is substantially the same as the electronic device provided in the first embodiment, except that in this embodiment, when the rotating member 20 extends out of the device body 10, an end of the rotating member 20 adjacent to the fourth frame 125 extends out of the first frame 122 by a smaller height than an end of the rotating member 20 adjacent to the second frame 123 extends out of the first frame 122.

Referring to fig. 5, fig. 5 is a schematic diagram of the electronic device with the rear cover and the frame removed in fig. 3; fig. 6 is a schematic view of the electronic device of fig. 4 with the rear cover and bezel removed. The electronic device 1 includes a device body 10 and a rotating member 20, and the electronic device 1 further includes a first limit mechanism 40 and a second limit mechanism 50. The rotating member 20 rotates out under the limiting action of the first limiting mechanism 40 and the second limiting mechanism 50. The first limiting mechanism 40 and the second limiting mechanism 50 are used for limiting the rotation track of the rotating member 20. In the present embodiment, the first limiting mechanism 40 and the second limiting mechanism 50 are respectively located at two opposite sides of the rotating member 20. Specifically, the apparatus body 10 is provided with a first limiting portion 41 and a second limiting portion 51, the rotating member 20 is provided with a third limiting portion 52, the first limiting portion 41 forms the first limiting mechanism 40, and the second limiting portion 51 and the third limiting portion 52 form the second limiting mechanism 50. The third limiting portion 52 forms a moving fit with the second limiting portion 51, so that the rotating member 20 moves along a preset track, and the rotating member 20 slidably abuts against the first limiting portion 41.

Although the above-described electronic device 1 is illustrated by taking the device body 10 and the rotating member 20 as an example, it is to be understood that other structures may be provided between the device body 10 and the rotating member 20, for example, the rotating member 20 may be stacked with the device body 10, and it is only required that the first limiting mechanism 40 and the second limiting mechanism 50 limit the movement track of the rotating member 20 when the rotating member 20 rotates out compared with the device body 10.

In the scheme of the application, the electronic device 1 is designed into a device body 10 and a rotating member 20 which are rotatably connected, and the rotating member 20 rotates out under the limiting action of a first limiting mechanism 40 and a second limiting mechanism 50. The electronic equipment 1 with the mechanism design has quite novel structural form, changes the rigid structural form of the traditional electronic equipment in curing, and brings brand new use experience to users.

Further, one of the second limiting portion 51 and the third limiting portion 52 is a limiting block, the other is a sliding cavity, the limiting block is inserted into the sliding cavity, and the limiting block can slide relative to the sliding cavity on a plane where the rotating member rotates relative to the apparatus body 10. In this embodiment, it is schematically shown that the second limiting portion 51 is a sliding cavity, and the third limiting portion 52 is a limiting block. It will be appreciated that in other embodiments, the sliding cavity and the limiting block may be radial, that is, the second limiting portion 51 is a limiting block, and the third limiting portion 52 is a sliding cavity.

Further, the apparatus body 10 has a receiving space, and an opening 121 communicating with the receiving space 11 is formed on an outer surface of the apparatus body 10. The rotary part 20 can be rotated out of the receiving space 11 through the opening 121 and can be rotated into the receiving space 11 through the opening 121. When the rotating member 20 is rotated into the accommodating space 11 through the opening 121, the end surface of the rotating member 20 forms a part of the external surface of the electronic device 1, and when the rotating member 20 rotates relative to the device body 10, the rotation center of the rotating member 20 is located at the junction between the external surface of the rotating member 20 and the external surface of the device body 10. When the rotation center of the rotating member 20 is located at the junction between the appearance surface of the rotating member 20 and the appearance surface of the apparatus body 10, when the rotating member 20 rotates relative to the apparatus body 10, no recess is generated between the appearance surface of the rotating member 20 adjacent to one end of the rotation center and the appearance surface of the apparatus body 10, that is, the appearance surface of the rotating member 20 is not sunk into the apparatus body 10, thereby ensuring the consistency of the appearance of the electronic apparatus 1 when the rotating member 20 rotates relative to the apparatus body 10.

Further, when the rotating member 20 rotates relative to the apparatus body 10, the movement locus of the third limiting portion 52 and the movement locus of the rotating member 20 are respectively located on two concentric circles centering on the rotation center of the rotating member 20. The movement locus of the third limiting portion 52 refers to the movement locus of the center of the third limiting portion 52 when the rotating member 20 rotates relative to the apparatus body 10. The movement locus of the rotating member 20 refers to the movement locus of the center of the rotating member 20 when the rotating member 20 rotates compared to the apparatus body 10.

Further, the limiting block is an arc limiting block, and the sphere center of the limiting block is the rotation center of the rotating member 20 when rotating relative to the device body 10. In this embodiment, the limiting block is an arc limiting block, and the center of sphere of the limiting block is the center of rotation of the rotating member 20, so that when the rotating member 20 rotates relative to the device body 10, the limiting block rotates around the center of sphere of the limiting block, thereby ensuring the rotation track of the rotating member 20 when the rotating member 20 rotates relative to the device body 10, ensuring that the rotating member 20 does not deviate when the rotating member 20 rotates relative to the device body 10, and further ensuring the consistency of the appearance of the electronic device 1 when the rotating member 20 rotates relative to the device body 10. Further, since the limiting block is an arc limiting block, and the sphere center of the limiting block is the rotation center of the rotating member 20 when rotating relative to the device body 10, the sliding cavity can be set to be an arc profiling cavity suitable for the arc limiting block, so that the processing of the sliding cavity is facilitated, the space occupied by the sliding cavity is reduced to the greatest extent, and more positions are vacated for arrangement of other devices in the electronic device 1.

The size ratio of the sliding cavity is larger than the size of the limiting block by a preset size, so that the limiting block can smoothly slide in the sliding cavity and can be prevented from shaking in the sliding cavity when the rotating piece 20 rotates compared with the device body 10. For example, the sliding cavity may be 0.05mm larger in size than the stopper.

The length of the limiting block is related to the rotation angle of the rotating member 20 when compared with the rotation of the device body 10, when the rotating member 20 rotates out of the device body 10, and when the rotating member 20 is located at the limit position compared with the device body 10, that is, when the rotating member 20 cannot rotate out any more, the limiting block and the sliding cavity are still in a matching state.

Further, the rotating member 20 includes a first end 21 and a second end 22 disposed opposite to each other. When the rotating member 20 rotates relative to the apparatus body 10, the second end 22 is adjacent to the rotation center of the rotating member 20 relative to the first end 21, and the third limiting portion 52 is disposed at the second end 22. In this embodiment, the second end 22 is adjacent to the rotation center of the rotating member 20 compared to the first end 21, and the third limiting portion 52 is disposed adjacent to the second end 22 of the rotation center compared to the third limiting portion 52 disposed at the first end 21 facing away from the rotation center, so that the third limiting portion 52 can be made smaller, the space occupied by the third limiting portion 52 can be saved, and more positions are provided for arranging other devices in the electronic apparatus 1.

Further, in combination with the second limiting portion 51 and the third limiting portion 52 described above, when the rotating member 20 rotates compared with the apparatus body 10, the first limiting portion 41 abuts against the rotating member 20. In this embodiment, the first limiting portion 41 abuts against the second end 22 of the rotating member 20 to limit the rotating member 20, so as to ensure that the rotating member 20 is biased in a direction toward the first limiting portion 41 when compared with the apparatus body 10.

Further, the rotating member 20 and the first limiting portion 41 in the present embodiment are in line contact. The contact between the rotating member 20 and the first limiting portion 41 is a line contact, so that the contact area between the rotating member 20 and the first limiting portion 41 can be reduced, friction between the rotating member 20 and the first limiting portion 41 can be reduced when the rotating member 20 rotates compared with the device body 10, noise caused by friction is reduced, and smooth rotation of the rotating member 20 is ensured.

Further, the roughness of the portion of the rotary member 20 in contact with the first limiting portion 41 is smaller than the roughness of the portion of the rotary member 20 in non-contact with the first limiting portion 41. That is, the portion of the rotary member 20 in contact with the first stopper 41 is smoother than the portion of the rotary member 20 in non-contact with the first stopper 41. When the roughness of the contact part of the rotating member 20 and the first limiting part 41 is smaller than the roughness of the non-contact part of the rotating member 20 and the first limiting part 41, the friction between the rotating member 20 and the first limiting part 41 can be further reduced, the smooth rotation of the rotating member 20 is further ensured, and the noise caused by the friction can be further reduced. It will be appreciated that, in other embodiments, the roughness of the contact portion of the rotating member 20 with the first limiting portion 41 is smaller than the preset roughness, so long as the friction between the rotating member 20 and the first limiting portion 41 is reduced to ensure smooth rotation of the rotating member 20.

Further, the roughness of the portion of the first limiting portion 41 contacting the rotating member 20 is smaller than the roughness of the portion of the first limiting portion 41 contacting the rotating member 20, i.e., the portion of the first limiting portion 41 contacting the rotating member 20 is smoother than the portion of the first limiting portion 41 contacting the rotating member 20. The first limiting portion 41 in this embodiment may reduce friction between the first limiting portion 41 and the rotating member 20, further ensure that the rotating member 20 can smoothly rotate, and further reduce noise caused by friction.

Further, the first limiting portion 41 is a limiting pin fixed to the apparatus body 10. In an embodiment, the device body 10 may be provided with a limiting hole for fixing the first limiting portion 41, and the first limiting portion 41 is installed in the limiting hole and is fixedly connected with the device body 10. In another embodiment, the first limiting portion 41 is integrally formed with a component of the apparatus body 10 where the first limiting portion 41 is disposed. For example, the apparatus body 10 includes a middle frame, the middle frame is provided with a limiting hole, and the first limiting portion 41 is installed in the limiting hole and is fixedly connected with the middle frame; alternatively, the first limiting portion 41 may be integrally formed with the middle frame.

A plane in which the rotary member 20 rotates with respect to the apparatus body 10 is defined as a rotation plane, and optionally, a dimension of the first stopper 41 in a direction perpendicular to the rotation plane is larger than a dimension of the rotary member 20 in a direction perpendicular to the rotation plane. The size of the first limiting portion 41 in the direction perpendicular to the rotation plane is larger than the size of the rotating member 20 in the direction perpendicular to the rotation plane, so that the first limiting portion 41 can still be propped against when the rotating member 20 shakes in the direction perpendicular to the rotation plane, and the first limiting portion 41 and the rotating member 20 can be prevented from losing fit when the rotating member 20 shakes in the direction perpendicular to the rotation plane.

Further, although the dimension of the first stopper 41 in the direction perpendicular to the rotation plane is larger than the dimension of the rotary member 20 in the direction perpendicular to the rotation plane, the range in which the dimension of the first stopper 41 in the direction perpendicular to the rotation plane is larger than the dimension of the rotary member 20 in the direction perpendicular to the rotation plane cannot be too large, and if too large, the gap between the rotary member 20 and the apparatus body 10 is relatively large when the rotary member 20 is rotated into the apparatus body 10, which may cause dust to enter the inside of the apparatus body 10 through the gap. Alternatively, the dimension of the first stopper 41 in the direction perpendicular to the rotation plane is larger than the dimension of the rotary member 20 in the direction perpendicular to the rotation plane by the range: 0.03 mm-0.05 mm.

The drive assembly of the electronic device of the present application is described below in connection with the previous embodiments. Referring to fig. 7 and fig. 8 together, fig. 7 is a schematic structural diagram of a driving component driving rotary member in an electronic device according to an embodiment of the present application; fig. 8 is a schematic structural view of the driving assembly in fig. 7. The electronic device 1 further comprises a drive assembly 60, the drive assembly 60 comprising a drive mechanism 610 and a push assembly 620. The driving mechanism 610 is fixedly connected to the apparatus body 10, the pushing component 620 is movably connected to the rotating member 20, and the driving mechanism 610 is used for controlling the pushing component 620 to reciprocate so as to drive the rotating member 20 to rotate compared with the apparatus body 10.

The pushing assembly 620 includes a pushing member 621 and an elastic member 622. One end of the pushing piece 621 is movably connected to the rotating piece 20, the other end of the pushing piece 621 can slide relative to the driving mechanism 610, the elastic piece 622 is sleeved on the pushing piece 621, one end of the elastic piece 622 is fixedly connected to the pushing piece 621, the other end of the elastic piece 622 is fixedly connected to the driving mechanism 610, and the driving mechanism 610 is used for controlling the elastic piece 622 to move to drive the rotating piece 20 to swing so as to extend or retract the swinging piece 200 into the accommodating space 11.

Specifically, the pushing member 621 is provided with a first engaging member 6211, and the rotating member 20 is provided with a second engaging member 211. The first fitting piece 6211 and the second fitting piece 211 are fitted with each other so that the pushing piece 621 is movably connected to the rotating piece 20; wherein the first mating member 6211 is a chute, and the second mating member 211 is a protrusion; alternatively, the first mating member 6211 may be a protrusion and the second mating member 211 may be a chute. The first mating piece 6211 provided on the pushing piece 621 is illustrated as a chute, and the second mating piece 211 provided on the rotating piece 20 is illustrated as a protrusion.

With continued reference to fig. 8, the driving mechanism 610 includes a housing 611, a driving motor 612, a rotating member 613 and a sliding member 614. The box body 611 is fixedly connected to the device body 10, the driving motor 612 is fixedly connected to the box body 611, the rotating member 613 is rotatably connected to the box body 611, the driving motor 612 is used for controlling the rotating member 613 to rotate, one end of the sliding member 614 is sleeved on the rotating member 613, and the other end of the sliding member 614 is connected to the elastic member 622; when the driving motor 612 controls the rotating member 613 to rotate to drive the sliding member 614 to move, the elastic member 622 moves in a direction approaching or separating from the rotating member 20.

The drive mechanism 610 also includes a guide 615. The guide piece 615 is fixedly connected to the box 611, the sliding piece 614 is sleeved on the guide piece 615, the guide piece 615 is used for assisting the sliding piece 614 to move, the sliding piece 614, the guide piece 615 and the driving motor 612 are arranged side by side, and the guide piece 615 and the rotating piece 613 together form a sliding track of the sliding piece 614.

The driving mechanism 610 further includes a transmission member 616, and the housing 611 includes a housing body 6111 and a housing extension 6112 extending from one side of the housing body 6111. The box body 6111 is used for fixing the driving motor 612 and accommodating the driving member 616, the box extension portion 6112 encloses to form an accommodating cavity 6112a, the accommodating cavity 6112a is used for accommodating the rotating member 613 and the sliding member 614, and the rotating member 613 is rotationally connected to the box extension portion 6112; when the power output by the driving motor 612 is transmitted to the rotating member 613 through the transmission member 616, the rotating member 613 can rotate around its central axis relative to the extending portion 6112, so as to drive the sliding member 614 to slide relative to the extending portion 6112.

The box extension 6112 includes a fixed portion 6113 and a connecting portion 6114 connected. The fixing portion 6113 is fixedly connected with the box body 6111, the connecting portion 6114 is connected to the fixing portion 6113 and located at one side of the fixing portion 6113 away from the box body 6111, the fixing portion 6113 and the rotating member 613 are arranged side by side, and the sliding member 614 is connected between the connecting portion 6114 and the box body 6111.

The driving motor 612 is located at a side of the fixing portion 6113 away from the connecting portion 6114, the driving motor 612 and the rotating member 613 are arranged side by side, and the driving motor 612, the rotating member 613 and the sliding member 614 are located at the same side of the case body 6111. The electronic device described in connection with the foregoing embodiments is used to analyze the force applied by the rotating member 20 of the electronic device 1 when compared with the rotation of the device body 10. The electronic device includes a device body 10, a rotating member 20, a first limiting mechanism 40, and a second limiting mechanism 50. The rotating member 20 is rotatable relative to the apparatus body 10, the first limiting mechanism 40 is configured to provide a first force to the rotating member 20, and the second limiting mechanism 50 is configured to provide a second force to the rotating member 20. The first force and the second force act together on the rotating member 20 to move the rotating member 20 about a rotation center as compared to the apparatus body. The first force and the second force are used for limiting the movement track of the rotating member 20, so that the rotating member 20 rotates along a preset track.

Specifically, the electronic device 1 further comprises a driving assembly 60, and the driving assembly 60 is configured to provide a driving force for the rotating member 20. The moment of the first acting force is a first moment, the moment of the second acting force is a second moment, the moment of the driving force is a third moment, and the rotating member 20 rotates around a rotation center under the action of the first moment, the second moment and the third moment.

Further, referring to fig. 9, fig. 9 is a schematic structural diagram of an electronic device according to a second embodiment of the present application. The rotating member 20 has oppositely disposed first and second ends 21, 22. The first end 21 is disposed adjacent to the first limiting portion 41 compared to the second end 22, and the third limiting portion 52 is disposed on the second end 42. When the rotating member 20 rotates around the rotation center as compared with the apparatus body 10, the first end 21 and the second end 22 move in the same direction and the stroke of the first end 21 is larger than the stroke of the second end 22.

The present application further provides an electronic device, please refer to fig. 10 and fig. 11, and fig. 10 is a schematic structural diagram of the electronic device according to the third embodiment of the present application in a state; fig. 11 is a schematic structural diagram of an electronic device according to a third embodiment of the present application in another state. The electronic device 1 includes a device body 10 and a rotator 20, wherein the device body 10 includes a housing 11a and a screen 130. The screen 130 is fixed to the housing 11a, the rotating member 20 is movably connected to the housing 11a, and the rotating member 20 has a first position (see fig. 10) shielding behind the screen 130 and a second position (see fig. 11) extending from behind the screen 130. When the rotating member 20 is in the first position, the rotating member 20 cannot go deep into the accommodating space 11 any more, in other words, the first position is the limit position where the rotating member 20 is accommodated in the accommodating space 11. When the rotary member 20 is in the second position, the rotary member 20 cannot continue to extend out of the accommodating space 11, in other words, the second position is the limit position at which the rotary member 20 extends out of the accommodating space 11. The rotary member 20 is movable between any position between a first position and a second position in addition to the first position and the second position. The housing 11a is provided with the first stopper 41 and the second stopper 51. The first limiting portion 41 is slidably abutted against the rotating member 20, the rotating member 20 is provided with a third limiting portion 52, the third limiting portion 52 is used for being matched with the second limiting portion 51, and when the rotating member 20 rotates from the first position to the second position, the portion, matched with the second limiting portion 51, of the third limiting portion 52 is gradually reduced.

The apparatus body 10 includes the housing 11a and the screen 130. The housing 11a may be a middle frame of the electronic device 1. The middle frame of the electronic device 1 is generally used for carrying the screen 130, and the middle frame of the electronic device 1 is generally made of metal, so as to form the largest ground electrode in the electronic device 1. When other components of the electronic device 1 need to be connected to the ground, the middle frame is usually electrically connected directly or indirectly.

Further, one of the second limiting portion 51 and the third limiting portion 52 is a limiting block, and the other is a sliding cavity. The stopper is inserted into the sliding cavity, when the rotating member 20 is at the first position, the portion of the stopper inserted into the sliding cavity is a first portion, and when the rotating member 20 is at the second position, the portion of the stopper inserted into the sliding cavity is a second portion, wherein the first portion includes the second portion. In this embodiment, it is schematically shown that the second limiting portion 51 is a sliding cavity, and the third limiting portion 52 is a limiting block. It will be appreciated that in other embodiments, the sliding cavity and the limiting block may be radial, that is, the second limiting portion 51 is a limiting block, and the third limiting portion 52 is a sliding cavity.

Further, when the rotating member 20 rotates relative to the apparatus body 10, the movement locus of the third limiting portion 52 and the movement locus of the rotating member 20 are respectively located on two concentric circles centering on the rotation center of the rotating member 20. The movement locus of the third limiting portion 52 refers to the movement locus of the center of the third limiting portion 52 when the rotating member 20 rotates relative to the apparatus body 10. The movement locus of the rotating member 20 refers to the movement locus of the center of the rotating member 20 when the rotating member 20 rotates compared to the apparatus body 10.

The application further provides an electronic device, please refer to fig. 12, fig. 12 is a schematic diagram of a circuit architecture of the electronic device provided by the application. The electronic device 1 includes a device body 10, a rotating member 20, a controller 70, a first limiting mechanism 40, and a second limiting mechanism 50, wherein the rotating member 20 is movably connected to the device body 10, the controller 70 is configured to generate a control signal, and when the rotating member 20 moves according to the control signal, the rotating member 20 rotates out under the limitation of the first limiting mechanism 40 and the second limiting mechanism 50.

Specifically, the electronic device 1 includes a driving component 60, and the driving component 60 is described above, which is not described herein. The driving assembly 60 is electrically connected to the controller 70, the driving assembly 60 receives the control signal, and generates a driving force according to the control signal, the driving force acts on the rotating member 20, and the rotating member 20 rotates out under the action of the driving force, the first limiting mechanism 40 and the second limiting mechanism 50, or rotates into the device body 10.

The foregoing has outlined rather broadly the more detailed description of embodiments of the present application, wherein specific examples are provided herein to illustrate the principles and embodiments of the present application, the above examples being provided solely to assist in the understanding of the methods of the present application and the core ideas thereof; meanwhile, as those skilled in the art will have modifications in the specific embodiments and application scope in accordance with the ideas of the present application, the present description should not be construed as limiting the present application in view of the above.

Claims (16)

1. The electronic equipment is characterized by comprising an equipment body, a rotating piece, a first limiting mechanism and a second limiting mechanism, wherein the rotating piece can rotate relative to the equipment body, and the rotating piece rotates out under the limiting action of the first limiting mechanism and the second limiting mechanism; the device comprises a device body, and is characterized in that the device body is provided with a first limiting part and a second limiting part, the rotating piece is provided with a third limiting part, the first limiting part forms a first limiting mechanism, the second limiting part and the third limiting part form a second limiting mechanism, the third limiting part and the second limiting part form motion coordination, so that the rotating piece moves along a preset track, the rotating piece is in sliding butt joint with the first limiting part, one of the second limiting part and the third limiting part is a limiting block, the other one is a sliding cavity, the limiting block is inserted into the sliding cavity, and the limiting block can slide relative to the sliding cavity on a plane of the rotating piece rotating relative to the device body.

2. The electronic device of claim 1, wherein the first and second limiting mechanisms are located on opposite sides of the rotating member, respectively.

3. The electronic device according to claim 1, wherein the device body has an accommodating space, and an opening communicating with the accommodating space is provided in an outer surface of the device body, the rotary member is rotatable out of the accommodating space through the opening and rotatable into the accommodating space through the opening, an end surface of the rotary member constitutes a part of the outer surface of the electronic device when the rotary member is rotatable into the accommodating space through the opening, and a rotation center of the rotary member is located at a boundary between the outer surface of the rotary member and the outer surface of the device body when the rotary member rotates relative to the device body.

4. The electronic device according to claim 1, wherein when the rotating member rotates relative to the device body, the movement locus of the third limiting portion and the movement locus of the rotating member are located on two concentric circles with the rotation center of the rotating member as a center of circle, respectively.

5. The electronic device of claim 4, wherein the stopper is an arc stopper, and a center of sphere of the stopper is a center of rotation of the rotating member when rotating relative to the device body.

6. The electronic device of claim 1, wherein the rotating member includes a first end and a second end disposed opposite to each other, the second end being adjacent to a rotation center of the rotating member when the rotating member is rotated relative to the device body, and the third limiting portion being disposed at the second end.

7. The electronic device of any one of claims 1-6, wherein the rotating member is in line contact with the first stop portion.

8. The electronic device of claim 7, wherein the first limit portion is a limit pin fixed to the device body.

9. The electronic apparatus according to claim 1, wherein a plane in which the rotating member rotates with respect to the apparatus body is a rotation plane, and a dimension of the first stopper portion in a direction perpendicular to the rotation plane is larger than a dimension of the rotating member in a direction perpendicular to the rotation plane.

10. The electronic device of claim 1, further comprising a drive assembly, the drive assembly comprising a drive mechanism and a push assembly, the drive mechanism being fixedly coupled to the device body, the push assembly being movably coupled to the rotating member, the drive mechanism being configured to control the push assembly to reciprocate to rotate the rotating member as compared to the device body.

11. An electronic device is characterized by comprising a device body, a rotating member, a first limiting mechanism and a second limiting mechanism, wherein the rotating member can rotate relative to the device body, the first limiting mechanism is used for providing a first acting force for the rotating member, the second limiting mechanism is used for providing a second acting force for the rotating member, and the first acting force and the second acting force act on the rotating member together to enable the rotating member to move around a rotation center compared with the device body; the device comprises a rotating piece and is characterized in that the device body is provided with a first limiting part and a second limiting part, the rotating piece is provided with a third limiting part, the first limiting part forms the first limiting mechanism, the second limiting part and the third limiting part form the second limiting mechanism, one of the second limiting part and the third limiting part is a limiting block, the other one is a sliding cavity, the limiting block is inserted into the sliding cavity, and the limiting block can slide relative to the sliding cavity on a plane of the rotating piece rotating relative to the device body.

12. The electronic device of claim 11, further comprising a drive assembly for providing a driving force to the rotating member, the first force moment being a first torque, the second force moment being a second torque, the driving force moment being a third torque, the rotating member rotating about a center of rotation under the first, second, and third torques.

13. The electronic device of claim 11, wherein the rotating member has a first end and a second end disposed opposite to each other, the first end is disposed adjacent to the first limiting portion compared to the second end, and the third limiting portion is disposed on the second end, and when the rotating member rotates around the rotation center compared to the device body, a movement direction of the first end is the same as a movement direction of the second end and a stroke of the first end is larger than a stroke of the second end.

14. The electronic equipment is characterized by comprising an equipment body and a rotating piece, wherein the equipment body comprises a shell and a screen, the screen is fixed on the shell, the rotating piece is movably connected with the shell, the rotating piece is provided with a first position and a second position, the first position is blocked behind the screen, the second position is extended out from behind the screen, the rotating piece can move between the first position and the second position, the shell is provided with a first limiting part and a second limiting part, the first limiting part is in sliding contact with the rotating piece, the rotating piece is provided with a third limiting part, the third limiting part is used for being matched with the second limiting part, and when the rotating piece rotates from the first position to the second position, the part, which is matched with the second limiting part, is gradually reduced; one of the second limiting part and the third limiting part is a limiting block, the other one is a sliding cavity, the limiting block is inserted into the sliding cavity, when the rotating piece is positioned at a first position, the part of the limiting block inserted into the sliding cavity is a first part, and when the rotating piece is positioned at a second position, the part of the limiting block inserted into the sliding cavity is a second part, wherein the first part comprises the second part.

15. The electronic device according to claim 14, wherein when the rotating member rotates relative to the device body, the movement locus of the third limiting portion and the movement locus of the rotating member are located on two concentric circles with the rotation center of the rotating member as a center of circle, respectively.

16. The electronic equipment is characterized by comprising an equipment body, a rotating piece, a controller, a first limiting mechanism and a second limiting mechanism, wherein the rotating piece is movably connected to the equipment body, the controller is used for generating a control signal, and when the rotating piece moves according to the control signal, the rotating piece rotates out under the limit of the first limiting mechanism and the second limiting mechanism; the device comprises a device body, and is characterized in that the device body is provided with a first limiting part and a second limiting part, the rotating piece is provided with a third limiting part, the first limiting part forms a first limiting mechanism, the second limiting part and the third limiting part form a second limiting mechanism, the third limiting part and the second limiting part form motion coordination, so that the rotating piece moves along a preset track, the rotating piece is in sliding butt joint with the first limiting part, one of the second limiting part and the third limiting part is a limiting block, the other one is a sliding cavity, the limiting block is inserted into the sliding cavity, and the limiting block can slide relative to the sliding cavity on a plane of the rotating piece rotating relative to the device body.

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