CN212543864U - Electronic equipment - Google Patents

Abstract

The present application relates to the field of electronic devices, and more particularly, to an electronic device. The electronic equipment comprises a middle frame, a camera module, a first support, a flexible circuit board and a support piece, wherein the camera module is arranged on the first support; the flexible circuit board is connected with the camera module; the support is used for supporting the first bracket; wherein, along the width direction of electronic equipment, support piece and flexible circuit board are located the both ends of first support. The risk that the first support is jacked to move by the flexible circuit board is reduced, and therefore the risk that the battery cover is deviated due to jacking of the first support when the decorating part is used for positioning the first support is reduced.

Description

Electronic equipment

Technical Field

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

Background

Currently, most electronic devices have a photographing function, such as mobile phones and tablet computers. In order to meet the requirement of a consumer on improvement of the photographing function of the electronic equipment, the number of rear camera modules of the electronic equipment is more and more, and rear cameras of some models even reach 4-5. The camera is usually installed on the camera support, the camera is connected with the flexible circuit board used for controlling the camera to work, and in the installation process, the flexible circuit board exerts thrust on the camera support to cause the camera support to deviate, so that the installation accuracy of each part of the electronic equipment is influenced, and the reliability of the electronic equipment is influenced.

SUMMERY OF THE UTILITY MODEL

The application provides an electronic equipment aims at solving the problem of camera support skew.

An embodiment of the present application provides an electronic device, which includes:

a middle frame;

a camera module;

the camera module is mounted on the first support, and the first support is mounted on the middle frame;

the flexible circuit board is connected with the camera module;

a support for supporting the first bracket;

the supporting piece and the flexible circuit board are located at two ends of the first support along a first direction of the electronic equipment. In the embodiment of the application, the first support is supported through the support frame to balance the thrust applied to the first support by the flexible circuit board, so that the risk of the first support shifting along the first direction is reduced.

In one possible design, the support is located between the middle frame and the first bracket, the support being connected to the middle frame and/or the first bracket. In this application embodiment, the second support passes through support piece and center butt, and the center passes through support piece and applys the thrust in the opposite direction with the flexible circuit board to first support to reduce the risk that first support takes place to squint along first direction, the direction of keeping away from the flexible circuit board under the thrust effect of flexible circuit board, thereby by the risk that first support top squinted and leads the battery cover skew when reducing the first support of decoration location.

In one possible design, the camera module comprises a plurality of cameras, the electronic device comprises a plurality of flexible circuit boards, and the plurality of flexible circuit boards are correspondingly connected with the plurality of cameras one by one;

the electronic device includes a plurality of the supporting members, each of which is arranged in a second direction of the electronic device. The thrust exerted by the plurality of flexible circuit boards on the first support is balanced by the plurality of supporting pieces.

In one possible design, along a first direction of the electronic device, a plurality of the supporting members are disposed corresponding to a plurality of the flexible circuit boards. The uniformity of the thrust applied to the first bracket by the supporting part is improved, and the risk of the first bracket rotating under the action of the thrust of the supporting part is reduced.

In one possible design, the electronic device further includes a second bracket connected to the middle frame;

the second bracket and the flexible circuit board are positioned at two opposite ends of the first bracket along a first direction of the electronic equipment;

the support member is located between the first bracket and the second bracket, and the support member is connected with the first bracket and/or the second bracket. In this application implementation, support piece and second support butt are passed through to first support to make the second support pass through support piece and exert the thrust in the opposite direction with the flexible circuit board to first support, with reduce the risk that first support is pushed up to the removal by the flexible circuit board, thereby by the risk that first support top deflected causes the battery cover skew when reducing the first support of decoration location.

In a possible design, the electronic device further includes a limiting portion, the limiting portion and the supporting member are located at two ends of the second bracket along a first direction of the electronic device, and the limiting portion is connected with the second bracket and/or the middle frame. In this application embodiment, the second support can with the center butt through spacing portion to reduce the inclined to one side risk in second support by first support top, improve the electronic equipment reliability.

In one possible design, the camera module comprises a plurality of cameras, the electronic device comprises a plurality of flexible circuit boards, and the plurality of flexible circuit boards are correspondingly connected with the plurality of cameras one by one;

the electronic device comprises a plurality of the supporting pieces, and each supporting piece is arranged along a second direction of the electronic device;

the electronic equipment comprises a plurality of limiting parts, and each limiting part is arranged along the second direction of the electronic equipment. In the embodiment of the application, the thrust applied to the first bracket by the plurality of flexible circuit boards is balanced by the plurality of supporting pieces; the thrust applied to the second bracket by the plurality of supporting pieces is balanced by the plurality of limiting parts.

In one possible design, along a first direction of the electronic device, a plurality of the supporting pieces are arranged corresponding to a plurality of the flexible circuit boards;

along the first direction of the electronic equipment, the limiting part corresponds to the supporting part. In the embodiment of the application, the supporting piece corresponds to the flexible circuit board, so that the uniformity of the thrust of the flexible circuit board on the first support is improved, and the risk of rotation of the first support is reduced; the position of the limiting part corresponds to that of the supporting piece, so that the uniformity of thrust of the supporting piece on the second support is improved, and the risk of rotation of the second support is reduced.

In one possible design, the first direction of the electronic device is a width direction of the electronic device, and the second direction of the electronic device is a length direction of the electronic device;

or the first direction of the electronic device is the length direction of the electronic device, and the second direction of the electronic device is the width direction of the electronic device.

In one possible design, the support has a resilient portion at a location for connection with the first bracket. The elastic piece is in elastic contact with the first support and the second support or the first support and the middle frame, the first support and the second support are buffered and damped, vibration transmitted to the camera module is reduced, the risk of damage to the camera module is reduced, and the reliability of the whole machine is improved.

In one possible design, the heights of the positions where the flexible circuit board and the support member are respectively connected to the first brackets are the same in the thickness direction of the electronic device. The first support is in a balanced state, and the risk of the first support shifting is reduced.

In one possible design, the flexible circuit board and the support member are connected to both ends of the first bracket in the thickness direction of the electronic device. In this embodiment, the flexible circuit board may be connected to the top of the camera module, and the corresponding support member is connected to the bottom of the first bracket, or the flexible circuit board may be connected to the bottom of the camera module, and the corresponding support member is connected to the top of the first bracket, so that the first bracket is in a balanced state, and the risk of the first bracket shifting is reduced.

In one possible design, the electronic device further includes a lens, a trim, and a battery cover;

the lens is connected with the decorating part, the decorating part is connected with the battery cover, and the battery cover is connected with the middle frame;

when the battery cover is connected with the middle frame, the decorating part is buckled with the first support to position the first support. In the embodiment of the application, the battery cover and the middle frame are buckled at the four corners of the first support in the connecting process so as to position the position of the first support, so that the center of the camera corresponds to the silk-screen hole of the lens.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the application.

Drawings

FIG. 1 is a schematic cross-sectional view of a prior art electronic device;

FIG. 2 is an assembled schematic view of a prior art electronic device;

FIG. 3 is a schematic view of a prior art structure of a fastening of a decoration and a first bracket;

fig. 4 is a schematic cross-sectional view of an electronic device according to an embodiment of the present application;

fig. 5 is a schematic cross-sectional view of another electronic device provided in an embodiment of the present application;

FIG. 6 is a top view of FIGS. 5 and 6;

fig. 7 is a schematic cross-sectional view of another electronic device provided in an embodiment of the present application;

FIG. 8 is a top view of FIG. 7;

FIG. 9 is a schematic diagram of the top position of the flexible circuit board connected to the camera head;

FIG. 10 is a schematic diagram of the middle portion of the flexible printed circuit board connected to the camera under stress;

fig. 11 is a schematic diagram of the force applied to the bottom position of the flexible circuit board connected to the camera.

Reference numerals:

1 ' -electronic equipment, 11 ' -camera module, 12 ' -camera bracket 13 ' -middle frame, 14 ' -flexible circuit board, 15 ' -main board bracket, 16 ' -lens, 17 ' -decoration piece and 18 ' -battery cover;

1-electronic equipment, 11-camera module, 111-camera, 12-first support, 13-middle frame, 14-flexible circuit board, 15-second support, 16-decoration, 17-lens, 18-battery cover, 19-support, 20-limiting part and 21-space;

x-width direction, Y-length direction, and Z-thickness direction.

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the present application and together with the description, serve to explain the principles of the application.

Detailed Description

For better understanding of the technical solutions of the present application, the following detailed descriptions of the embodiments of the present application are provided with reference to the accompanying drawings.

At present, a camera lens of an electronic device is generally subjected to silk-screen printing, and after the silk-screen printing, a silk-screen central hole is formed, and the silk-screen central hole can transmit light. The camera needs to gather the light source through the silk screen hole of the camera lens on the battery cover, and the photographing function is completed. In order to improve the shooting effect of the camera and the appearance performance of the electronic equipment, the camera needs to be concentric with the silk screen center hole, namely, the eccentricity of the silk screen hole of the camera and the camera lens needs to be reduced in the installation process of the camera. Due to the fact that the assembly tolerance of the camera and the size tolerance of the assembled materials are accumulated, the center of the camera and the center of the silk screen printing hole of the lens are difficult to align, the phenomenon of black edges of an image can be caused, the camera can be eccentric, the oblique visual effect of assembly can be achieved, and the aesthetic experience and the purchase desire of consumers can be greatly reduced. In order to ensure that the camera center is centered, a camera decoration piece is adopted to position the camera support.

As shown in fig. 1 and 2, a related art electronic apparatus 1 ' includes a camera module 11 ', a camera holder 12 ', a center frame 13 ', a flexible circuit board 14 ', a main board holder 15 ', a lens 16 ', a garnish 17 ', and a battery cover 18 '; wherein the plurality of cameras form a camera module 11'. As shown in fig. 2, when the electronic device 1 ' is assembled, the camera module 11 ' is first fixedly mounted on the camera bracket 12 ', the camera module 11 ' and the camera bracket 12 ' after being mounted are placed on the middle frame 13 ', and the flexible circuit board 14 ' is fixedly connected to one side of the camera module 11 ' along the width direction X or the length direction Y (not shown in the figure) of the electronic device 1 '; then fixing the main board bracket 15 'on the middle frame 13', wherein the main board bracket 15 'is not connected with the camera bracket 12'; simultaneously bonding the lens 16 'on the decoration 17'; then the decoration 17 'is bonded on the battery cover 18'; finally, the battery cover 18 'is connected to the middle frame 13'. As shown in fig. 3, the battery cover 18 ' and the middle frame 13 ' are connected by the decoration member 17 ' to be fastened on the camera bracket 12 ', so that the decoration member 17 ' is disposed at four corners of the camera bracket 12 ' to position the camera bracket 12 ', thereby reducing the risk of the camera bracket 12 ' moving relative to the middle frame 13 ', and enabling the centers of the cameras of the camera module 11 ' to correspond to the centers of the silk-screen holes of the lens 16 '.

As shown in fig. 1, the flexible circuit board 14 'is generally provided in a curved shape due to a limited mounting space inside the electronic equipment 1'. In the process of mounting the flexible printed circuit 14 ' and the camera module 11 ', the curved flexible printed circuit 14 ' applies a pushing force to the camera module 11 ' and the camera holder 12 ', so that the camera holder 12 ' moves relative to the middle frame 13 ' in the width direction X of the electronic device 1 ' and in a direction away from the flexible printed circuit 14 '. That is, when the decoration 17 'is fastened to the camera holder 12', the camera holder 12 'is already shifted, and during the fastening process, the camera holder 12' applies a pushing force to the decoration 17 ', so that the decoration 17' drives the lens 16 'and the battery cover 18' to move along the width direction X of the electronic device 1 'and away from the flexible circuit board 14'. Further, the gap between the battery cover 18 ' and the middle frame 13 ' is larger on one side close to the flexible printed circuit board 14 ' than on the other side, which causes the gap between the battery cover 18 ' and the middle frame 13 ' on the two sides along the width direction X to be different, and affects the appearance performance of the whole machine. The different gaps between the battery cover 18 ' and the middle frame 13 ' along the width direction X are caused by the displacement of the camera bracket 12 ' along the width direction X. And because there is a great gap between one side of the battery cover 18 'and the middle frame 13', the risk that dust enters the inside of the electronic equipment 1 'from the gap is increased, and the reliability and the service life of the electronic equipment 1' are influenced.

In order to solve the above technical problem, an embodiment of the present application provides an electronic device 1, where the electronic device 1 may be a mobile phone, a tablet computer, or a notebook computer. An ultra-mobile personal computer (UMPC), a netbook, an Artificial Intelligence (AI) device, an intelligent home device and/or a smart city device, a TOF camera, and the like, and the embodiment of the present application does not particularly limit the specific type of the electronic device 1.

In the embodiment shown in fig. 4, the electronic apparatus 1 includes a camera module 11, a first bracket 12, a flexible circuit board 14, and a support member 19. The camera module 11 includes a plurality of cameras 111. The first bracket 12 is a bracket of the camera module 11 and is used for fixing the camera module 11. The flexible circuit board 14 is connected to the camera module 11. A support member 19 is disposed on a side of the first bracket 12 opposite to the flexible circuit board 14 in a first direction of the electronic apparatus. The support member 19 may be used to support the first support 12 to balance the pushing force exerted by the flexible circuit board 14 on the first support 12, thereby reducing the risk of the first support 12 shifting in the first direction.

In the embodiment of the present application, the first direction of the electronic device 1 may be a width direction X of the electronic device 1, and may also be a length direction Y of the electronic device. That is, the supporting member 19 and the flexible circuit board 14 may be disposed on both sides of the first bracket 12 along the first direction of the electronic device 1; alternatively, the supporting member 19 and the flexible circuit board 14 may be disposed on two sides of the first bracket 14 along the second direction of the electronic device 1.

Specifically, as shown in fig. 4, the electronic device 1 may further include a middle frame 13, a second bracket 15, a decoration 16, a lens 17, and a battery cover 18. Wherein, first support 12 and second support 15 all are connected with center 13, and second support 15 is the support of mainboard. The trim piece 16 is used to position the first support 12 so that the center of the camera 111 is aligned with the center line of the screen printed hole of the lens 17. The battery cover 18 is fixed to the middle frame 13 after being bonded to the garnish 16 and the lens 17. The assembly process of the electronic device 1 may be: firstly, fixedly installing a camera module 11 on a first bracket 12; placing the installed camera module 11 and the first support 12 on the middle frame 13, and fixedly connecting the flexible circuit board 14 to one side of the camera module 11 along the first direction of the electronic device 1; then fixing the second bracket 15 on the middle frame 13, and an installation space is formed between the first bracket 12 and the second bracket 15; mounting a support member 19 on the side of the first bracket 12 opposite to the flexible circuit board 14, simultaneously bonding the lens 17 on the decoration member 16, bonding the decoration member 16 on the battery cover 18, and finally connecting the battery cover 18 with the middle frame 13; the battery cover 18 is connected with the middle frame 13, and the decoration member 16 is buckled at the four corners of the first bracket 12 to position the first bracket 12.

Of course, the installation process of the electronic device 1 is not limited in the embodiment of the present application. For example, the flexible circuit board can be connected with the camera module first, and the camera module is fixed on the first support; the supporting member and the first bracket can be of an integral structure, so that the mounting process of the supporting member and the first bracket is not needed.

The support member 19 serves to support the first carriage 12 in the first direction when the flexible circuit board 14 applies a pushing force to the first carriage 12, thereby reducing the risk of the first carriage 12 shifting in the first direction. Based on this, when the decoration 16 is buckled with the first bracket 12, the support 19 can reduce the risk that the decoration 16 is shifted along the first direction due to the pushing force applied by the first bracket 12 to the decoration 16, and further reduce the risk that the battery cover 18 (connected with the decoration 16) is shifted along the first direction, so that the gap between the two sides of the battery cover 18 along the first direction and the middle frame 13 is close, the appearance performance of the electronic device 1 is improved, the risk that dust is easily introduced into one side of the battery cover 18 due to the large gap between the battery cover 18 and the middle frame 13 is reduced, and the reliability and the service life of the electronic device 1 are improved.

Specifically, the supporting member 19 may be installed between the first bracket 12 and the second bracket 15, and may also be installed between the first bracket 12 and the middle frame 13. When the supporting member 19 is installed between the first bracket 12 and the second bracket 15, the supporting member 19 may be fixedly connected with the first bracket 12 or the second bracket 15; when the supporting member 19 is installed between the first bracket 12 and the middle frame 13, the supporting member 19 may be fixedly connected to the first bracket 12 or the middle frame 13.

In one possible design, as shown in fig. 4, the support 19 is mounted between the first bracket 12 and the second bracket 15. The support 19 may be fixedly mounted on the first bracket 12. The first bracket 12 abuts against the second bracket 15 through the support 19, so that the second bracket 15 applies a pushing force to the first bracket 12 through the support 19 in a direction opposite to the direction of the flexible circuit board 14, so as to reduce the risk that the first bracket 12 is pushed to move by the flexible circuit board 14, and thus reduce the risk that the battery cover 18 is deflected by the pushing of the first bracket 12 when the decoration piece 16 positions the first bracket 12.

Alternatively, as shown in the embodiment of fig. 5, the supporting member 19 may be fixedly mounted on the second bracket 15. The first bracket 12 abuts against the second bracket 15 through the supporting piece 19, and the second bracket 15 applies a pushing force to the first bracket 12 in a direction opposite to the direction of the flexible circuit board 14 through the supporting piece 19, so that the risk that the first bracket 12 is pushed to move by the flexible circuit board 14 is reduced, and the risk that the battery cover 18 is deflected by the pushing of the first bracket 12 when the decoration piece 16 positions the first bracket 12 is reduced.

In the embodiment shown in FIGS. 4 and 5, since the space 21 between the second frame 15 and the middle frame 13 is large (e.g. ≧ 0.2mm), when the second frame 15 is held against the first frame 12 by the support member 19, there is a risk that the second frame 15 is biased by the first frame 12. When the second bracket 15 is deflected, the battery cover 18 is still pushed to the deflection by the first bracket 12, resulting in different gaps between both ends of the battery cover 18 and the middle frame 13. In order to solve the technical problem, the electronic device 1 in the embodiment of the present application further includes a limiting portion 20. Along the first direction of the electronic device 1, the limiting portion 20 is fixedly mounted at one end of the second bracket 15 far from the first bracket 12. Namely, the limiting portion 20 is fixedly connected to the second bracket 15 and is located in the space 21 between the second bracket 15 and the middle frame 13. The second bracket 15 can be abutted against the middle frame 13 through the limiting part 20, so that the risk that the second bracket 15 is jacked and deflected by the first bracket 12 is reduced, and the reliability of the electronic device 1 is improved.

In a possible design, each camera 111 of the camera module 11 is correspondingly connected to a respective flexible circuit board 14, that is, the electronic device 1 may include two or more flexible circuit boards 14, in which case, the supporting members 19 may be provided as two or more. In the embodiment shown in fig. 6, the electronic device 1 comprises two supports 19; and two supports 19 may be provided between the first bracket 12 and the second bracket 15; the two supports 19 are distributed over the first support 12 in the second direction of the electronic device 1, thereby reducing the risk of rotation of the first support 12. Correspondingly, the electronic device 1 may also include two limiting portions 20; the two limiting parts are distributed on the second support along the second direction of the electronic equipment. The two limiting parts 20 can be respectively arranged corresponding to the positions of the two supporting parts 19, so that the uniformity of the thrust of the second bracket 15 from the supporting parts 19 is improved, and the risk of rotation of the second bracket 15 is reduced.

Specifically, the two supporting members 19 may be fixedly connected to the first bracket 12, or may be fixedly connected to the second bracket 15, or one supporting member 19 may be fixedly connected to the first bracket 12, and the other supporting member 19 may be fixedly connected to the second bracket 12.

Of course, the supporting member 19 may be provided in plural, and each supporting member 19 is arranged along the second direction of the electronic apparatus 1. For example, the supporting members 19 may be arranged at intervals along the second direction of the electronic apparatus 1. Correspondingly, a plurality of limiting parts 20 are also provided between the second bracket 15 and the middle frame 13, and each limiting part 20 may be arranged at intervals along the second direction of the electronic device 1. Alternatively, the supporting members 19 and the stopper portions 20 may be provided correspondingly.

In the embodiment of the present application, when the first direction of the electronic device 1 is the width direction X, the second direction of the electronic device 1 is the length direction Y of the electronic device 1; alternatively, when the first direction of the electronic apparatus 1 is the longitudinal direction Y of the electronic apparatus 1, the second direction of the electronic apparatus 1 is the width direction X of the electronic apparatus 1. In the drawings of the present embodiment, the first direction of the electronic device 1 is taken as the width direction X of the electronic device 1, and the second direction of the electronic device 1 may be the length direction Y of the electronic device 1.

In another possible design, as shown in fig. 7, the support 19 may also be mounted between the first bracket 12 and the middle frame 13. The supporting member 19 may be fixedly mounted to the first bracket 12 or may be fixedly mounted to the middle frame 13. The first bracket 12 abuts against the middle frame 13 through the supporting piece 19, and the middle frame 13 applies pushing force opposite to the direction of the flexible circuit board 14 to the first bracket 12 through the supporting piece 19, so that the risk that the first bracket 12 is deviated along the first direction and the direction far away from the flexible circuit board 14 under the action of the pushing force of the flexible circuit board 14 is reduced, and the risk that the battery cover 18 is deviated due to the fact that the decorating piece 16 is jacked and deflected by the first bracket 12 when the first bracket 12 is positioned is reduced.

As shown in fig. 8, in one possible design, each camera 111 of the camera module 11 is connected to a respective flexible circuit board 14, i.e. the electronic device 1 may include two or more flexible circuit boards 14. At this time, the supporting members 19 may be provided in two or more, so as to improve the uniformity of the thrust applied to the first carriage 12 by the supporting members 19 and reduce the risk of the first carriage 12 rotating under the thrust of the supporting members 19. In the embodiment shown in fig. 8, the electronic device 1 includes two supporting members 19, and the two supporting members 19 may be disposed between the first bracket 12 and the middle frame 13, and the two supporting members 19 are distributed at two ends of the first bracket 12 along the second direction of the electronic device 1, so as to reduce the risk of the first bracket 12 rotating.

Specifically, the two supporting members 19 may be fixedly connected to the first bracket 12, or may be fixedly connected to the middle frame 13, or one supporting member 19 may be fixedly connected to the first bracket 2, and the other supporting member 19 may be fixedly connected to the middle frame 13. Of course, the supporting member 19 may be provided in plural, and the supporting members 19 are distributed along the second direction of the electronic apparatus 1, for example, the supporting members 19 may be arranged at intervals along the second direction of the electronic apparatus 1. On the other hand, in the embodiment of the present application, since the supporting member 19 and the flexible circuit board 14 both apply a pushing force (or pressure) to the first bracket 12, and the second pushing force (or pressure) applied to the first bracket 12 by the flexible circuit board 14 is F1, the first pushing force (or pressure) applied to the first bracket 12 by the supporting member 19 is F2, and the first pushing force (or pressure) F1 is opposite to the second pushing force (or pressure) F2, which may be in a force balance state or a moment balance state. Also, the heights of the positions where the flexible circuit board 14 and the supporting member 19 are connected to the first bracket 12 may be the same or different.

In the embodiment shown in fig. 9, when the flexible circuit board 14 is attached to the bottom position of the camera 111, the flexible circuit board 14 applies the first pushing force F1 to the first bracket 12. The first bracket 12 has a tendency to deflect away from the flexible circuit board 14 by the first pushing force F1. At this time, by providing the supporting member 19 on the top of the side opposite to the flexible circuit board 14, the supporting member 19 applies the second pushing force F2 to the first carriage 12. Under the combined action of the first thrust force F1 and the second thrust force F2, the first bracket 12 is in a balanced state, so that the risk of the first bracket 12 shifting is reduced.

In the embodiment shown in fig. 10, when the flexible circuit board 14 is attached to the middle position of the camera 111, the flexible circuit board 14 applies a first pushing force F1 in the horizontal lateral direction to the first carriage 12. At this time, by providing the support member 19 at the middle of the side opposite to the flexible circuit board 14, the support member 19 applies the second pushing force F2 in the horizontal lateral direction to the first carriage 12. Under the combined action of the first thrust force F1 and the second thrust force F2, the first support 12 is in a balanced state, so that the risk of the first support 12 shifting is reduced.

In the embodiment shown in fig. 11, when the flexible circuit board 14 is connected to the top position of the camera 111, the flexible circuit board 14 applies a pressure to one end of the camera 111, so that the flexible circuit board 14 applies a first pressure F1 to the first support 12, and the first support 12 has a tendency to shift toward the direction approaching the flexible circuit board 14 under the action of the first pressure F1. At this time, by providing the support member 19 at the bottom of the side opposite to the flexible circuit board 14, the support member 19 applies the second pressure F2 to the first carriage 12. Under the combined action of the first pressure F1 and the second pressure F2, the first support 12 is in an equilibrium state, so that the risk of the first support 12 shifting is reduced.

In the embodiment of the present application, the supporting member 19 may include an elastic portion, that is, at least a portion of the supporting member 19 has elasticity. For example, taking the example that the supporting member 19 is installed between the first bracket 12 and the second bracket 15, the connecting position between the supporting member 19 and the first bracket 12 and the second bracket 15 is set as an elastic portion, so that the elastic member 19 is elastically contacted with the first bracket 12 and the second bracket 15, and the first bracket 12 and the second bracket 15 are buffered and damped, thereby reducing the vibration transmitted to the camera module 11, reducing the risk of damage to the camera module 11, and improving the reliability of the whole machine. Meanwhile, when the support member 19 includes the elastic portion, a part of assembly tolerance can be absorbed by deformation of the elastic portion, so that the risk of collision of the camera module 11 during the process of fastening the decoration member 16 to the first bracket 12 is reduced. The connection between the supporting member 19 and the first bracket 12 and the second bracket 15 may be a fixed connection or an abutting connection.

Specifically, the supporting member 19 may be designed to be an L-shaped structure, a column structure, a special-shaped structure, or the like, and it may be satisfied that the supporting member 19 is provided with two contact planes, and a connection position of the supporting member 19 with the first bracket 12 and the second bracket 15 has a certain elasticity.

The embodiment of the present application does not limit the structures of the supporting member 19 and the limiting portion 20.

It is noted that a portion of this patent application contains material which is subject to copyright protection. The copyright owner reserves the copyright rights whatsoever, except for making copies of the patent files or recorded patent document contents of the patent office.

Claims (13)

1. An electronic device, characterized in that the electronic device comprises:

a middle frame;

a camera module;

the camera module is mounted on the first support, and the first support is mounted on the middle frame;

the flexible circuit board is connected with the camera module;

a support for supporting the first bracket;

the supporting piece and the flexible circuit board are located at two ends of the first support along a first direction of the electronic equipment.

2. The electronic device of claim 1, wherein the support is located between the middle frame and the first support, and wherein the support is connected to the middle frame and/or the first support.

3. The electronic device according to any one of claims 1-2, wherein the camera module comprises a plurality of cameras, the electronic device comprises a plurality of flexible circuit boards, and the plurality of flexible circuit boards are correspondingly connected with the plurality of cameras one by one;

the electronic device includes a plurality of the supporting members, each of which is arranged in a second direction of the electronic device.

4. The electronic device according to claim 3, wherein a plurality of the supporting members are provided corresponding to a plurality of the flexible circuit boards in a first direction of the electronic device.

5. The electronic device of claim 1, further comprising a second bracket coupled to the middle frame;

the second bracket and the flexible circuit board are positioned at two opposite ends of the first bracket along a first direction of the electronic equipment;

the support member is located between the first bracket and the second bracket, and the support member is connected with the first bracket and/or the second bracket.

6. The electronic device according to claim 5, further comprising a limiting portion, wherein the limiting portion and the supporting member are located at two ends of the second bracket along a first direction of the electronic device, and the limiting portion is connected to the second bracket and/or the middle frame.

7. The electronic device according to claim 6, wherein the camera module comprises a plurality of cameras, the electronic device comprises a plurality of flexible circuit boards, and the plurality of flexible circuit boards are correspondingly connected with the plurality of cameras one by one;

the electronic device comprises a plurality of the supporting pieces, and each supporting piece is arranged along a second direction of the electronic device;

the electronic equipment comprises a plurality of limiting parts, and each limiting part is arranged along the second direction of the electronic equipment.

8. The electronic device according to claim 7, wherein a plurality of the supporting members are provided corresponding to a plurality of the flexible circuit boards in a first direction of the electronic device;

along the first direction of electronic equipment, it is a plurality of spacing portion corresponds the setting with a plurality of support piece.

9. The electronic device according to any one of claims 1 to 2, wherein the first direction of the electronic device is a width direction of the electronic device, and the second direction of the electronic device is a length direction of the electronic device;

or the first direction of the electronic device is the length direction of the electronic device, and the second direction of the electronic device is the width direction of the electronic device.

10. The electronic device according to any one of claims 1 to 2, wherein a position where the support member is connected to the first bracket has an elastic portion.

11. The electronic device according to any one of claims 1 to 2, wherein the heights of positions where the flexible circuit board and the support member are respectively connected to the first brackets are the same in a thickness direction of the electronic device.

12. The electronic device according to any one of claims 1 to 2, wherein the flexible circuit board and the support member are connected to both ends of the first holder in a thickness direction of the electronic device.

13. The electronic device according to any one of claims 1-2, further comprising a lens, a decorative member, and a battery cover;

the lens is connected with the decorating part, the decorating part is connected with the battery cover, and the battery cover is connected with the middle frame;

when the battery cover is connected with the middle frame, the decorating part is buckled with the first support to position the first support.

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