CN111901530A - Electronic equipment and camera module thereof - Google Patents

Abstract

The application discloses electronic equipment and camera module thereof belongs to the communication equipment field, and camera module includes camera, supporting seat and first heat conduction rotation portion, the camera set up in one side of supporting seat, first heat conduction rotation portion is fixed in the camera orientation one side of supporting seat, perhaps first heat conduction rotation portion is fixed in the supporting seat orientation one side of camera, just first heat conduction rotation portion has the rotation sphere, first heat conduction rotation portion passes through rotate the sphere rotate support in the supporting seat or the camera, the camera with supporting seat swing joint. Above-mentioned technical scheme can solve the camera module heat dissipation difficulty that adopts the cloud platform anti-shake at present, influences camera module life's problem.

Description

Electronic equipment and camera module thereof

Technical Field

This application belongs to communication equipment technical field, concretely relates to electronic equipment and camera module thereof.

Background

With the progress of science and technology, the popularity of electronic devices is higher and higher. Electronic devices are often provided with a camera module to facilitate the shooting of images and videos by users. Present electronic equipment generally sets and has set the anti-shake function to promote image quality, the anti-shake mode includes optics anti-shake, electron anti-shake and cloud platform anti-shake etc. to the camera module that adopts cloud platform anti-shake, need install the camera unsettled on the cloud platform supporting seat usually, make the camera possess the ability of relative cloud platform supporting seat motion with the help of actuating mechanism, realize cloud platform anti-shake purpose. However, because the power consumption of the camera is high, the heat of the camera is difficult to be dissipated out of the camera module, and the service life of the camera module is seriously influenced.

Disclosure of Invention

The application discloses electronic equipment and camera module thereof can solve the camera module heat dissipation difficulty that adopts the cloud platform anti-shake at present, influences camera module life's problem.

In order to solve the above problem, the embodiments of the present application are implemented as follows:

in a first aspect, an embodiment of the present application provides a camera module, it includes camera, supporting seat and first heat conduction rotation portion, the camera set up in one side of supporting seat, first heat conduction rotation portion is fixed in the camera orientation one side of supporting seat, perhaps first heat conduction rotation portion is fixed in the supporting seat orientation one side of camera, just first heat conduction rotation portion has the rotation sphere, first heat conduction rotation portion passes through rotate the sphere rotate support in the supporting seat or the camera, the camera with supporting seat swing joint.

In a second aspect, an embodiment of the present application provides an electronic device, which includes the above camera module.

In the camera module disclosed in the application, the camera setting is in one side of supporting seat, and first heat conduction rotation portion is fixed in one side of camera towards the supporting seat, and perhaps, first heat conduction rotates to be fixed in one side of supporting seat towards the camera, and first heat conduction rotation portion has the rotation sphere, and first heat conduction rotation portion rotates through rotating the sphere and supports on supporting seat or camera, camera and supporting seat swing joint to realize cloud platform anti-shake purpose. And, because the camera can be through first heat conduction rotation portion and supporting seat contact each other, and then can guarantee that the heat on the camera can transmit to the supporting seat through first heat conduction rotation portion on, and the supporting seat can be with heat transmission outside the camera module, realize the purpose of cooling camera and whole camera module, prevent that the temperature of camera and whole camera module is too high, guarantee that camera module has higher life.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the application and together with the description serve to explain the application and not to limit the application. In the drawings:

fig. 1 is a schematic structural diagram of a camera module disclosed in an embodiment of the present application;

fig. 2 is a schematic view of a part of the structure of the camera module shown in fig. 1 in another direction;

fig. 3 is another schematic structural diagram of the camera module disclosed in the embodiment of the present application;

fig. 4 is a schematic view of a part of the structure in the camera module shown in fig. 3 in another direction;

fig. 5 is a schematic view of a state of the camera module shown in fig. 3;

fig. 6 is a schematic view of another state of the camera module shown in fig. 3;

fig. 7 is a schematic structural diagram of a camera module disclosed in the embodiment of the present application;

fig. 8 is an enlarged schematic view of a part of the structure of the camera module shown in fig. 7;

fig. 9 is a schematic structural diagram of a camera module disclosed in the embodiment of the present application;

fig. 10 is an enlarged schematic view of a part of the structure of the camera module shown in fig. 9;

fig. 11 is a schematic structural diagram of a camera module disclosed in the embodiment of the present application;

fig. 12 is an enlarged schematic view of a part of the structure in the camera module shown in fig. 11.

Description of reference numerals:

100-camera,

200-a supporting seat,

310-a first heat-conducting rotating part, 320-a second heat-conducting rotating part,

410-positioning part, 420-elastic supporting part, 430-surrounding baffle part, 440-elastic heat conducting part,

500-cloud platform support.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the technical solutions of the present application will be described in detail and completely with reference to the following specific embodiments of the present application and the accompanying drawings. It should be apparent that the described embodiments are only some of the embodiments of the present application, and not all of the embodiments. 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 application.

Technical solutions disclosed in the embodiments of the present application are described in detail below with reference to the accompanying drawings.

As shown in fig. 1 to 12, an embodiment of the present application discloses a camera module, which includes a camera 100, a supporting base 200, and a first heat-conducting rotating portion 310.

As shown in fig. 1 and fig. 2, the camera 100 is disposed at one side of the supporting base 200, and parameters such as a focal length and pixels of the camera 100 may be determined according to actual requirements, which is not limited herein. The supporting seat 200 may be made of hard materials such as plastic or metal, which can provide a protective effect for the camera 100, and the thickness and specific structure of the supporting seat 200 may be determined according to actual requirements.

The first heat-conducting rotating portion 310 is fixed on one side of the camera 100 facing the supporting base 200, or the first heat-conducting rotating portion 310 is fixed on one side of the supporting base 200 facing the camera 100, and the first heat-conducting rotating portion 310 has a rotating spherical surface, the first heat-conducting rotating portion 310 is supported on the supporting base 200 or the camera 100 through the rotating spherical surface, and the camera 100 is movably connected with the supporting base 200.

Specifically, the first heat-conducting rotating portion 310 may be connected to the camera 100 or the support base 200 by bonding or welding, and under the condition that the first heat-conducting rotating portion 310 is fixed on one side of the camera 100 facing the support base 200, the surface of the first heat-conducting rotating portion 310 facing the support base 200 is a rotating spherical surface, and the first heat-conducting rotating portion 310 is rotatably supported on the support base 200 by the rotating spherical surface. With the first heat-conducting rotating portion 310 fixed on the supporting base 200, the rotating spherical surface faces the camera head 100, and the first heat-conducting rotating portion 310 is rotatably supported on the camera head 100 by the rotating spherical surface.

More specifically, the first heat conductive rotation part 310 may have a spherical structure, for example, a cylindrical body and a portion of a sphere are connected to each other. In another embodiment of the present application, the first heat-conducting rotating portion 310 is at least a portion of a sphere, which can reduce the difficulty in processing and mounting the first heat-conducting rotating portion 310, and can ensure that the first heat-conducting rotating portion 310 has a high rotating capability. Further, the diameter of the first heat-conducting rotating portion 310 and other parameters may be selected according to actual conditions. The first heat conductive rotation part 310 may be formed of a heat conductive material such as metal or graphite.

Certainly, the camera module further includes, for example, a pan/tilt. Optionally, the driving mechanism is a motor, an electro-deformable member, an electromagnetic driving structure, or the like. The camera 100, the driving mechanism and other components can be connected with the main board of the electronic device through the electric connection module, so that the purposes of information and instruction interaction, energy supply and the like are achieved.

In the camera module disclosed in the present application, camera 100 sets up the one side at supporting seat 200, and first heat conduction rotating part 310 is fixed in one side of one orientation another person in camera 100 and supporting seat 200, and a side surface of first heat conduction rotating part 310 orientation another person is for rotating the sphere, and first heat conduction rotating part 310 supports each other through rotating sphere and another person, camera 100 and supporting seat 200 swing joint to realize the anti-shake purpose of cloud platform. Moreover, the camera 100 can be in contact with the support base 200 through the first heat-conducting rotating portion 310, so that heat on the camera 100 can be transmitted to the support base 200 through the first heat-conducting rotating portion 310, and the support base 200 can transmit the heat to the outside of the camera module, thereby achieving the purpose of cooling the camera 100 and the whole camera module, preventing the temperature of the camera 100 and the whole camera module from being too high, and ensuring that the camera module has a longer service life.

In the camera module disclosed in the present application, camera 100 sets up the one side at supporting seat 200, first heat conduction rotating part 310 sets up the one side towards supporting seat 200, first heat conduction rotating part 310 is the heat conduction structure spare, and the surface that first heat conduction rotating part 310 deviates from camera 100 is the convex spherical structure of direction from camera 100 to the back, a plurality of first heat conduction rotating parts 310 support on supporting seat 200, and first heat conduction rotating part 310 can support on at least one first heat conduction rotating part 310, camera 100 and supporting seat 200 swing joint, thereby realize the purpose of cloud platform anti-shake. And, because camera 100 contacts each other through first heat conduction rotating part 310 and supporting seat 200, thereby camera 100 can be with the heat transfer of self to first heat conduction rotating part 310, and then on conducting to supporting seat 200 through first heat conduction rotating part 310, and finally distribute to the camera module outside through supporting seat 200, prevent that the temperature of camera 100 and camera module is too high, guarantee that camera module has higher life.

Optionally, at least one of the support base 200 and the first heat-conducting rotating portion 310 is a metal structural member, and further, both the support base 200 and the first heat-conducting rotating portion 310 are metal structural members. Under this condition, can guarantee that supporting seat 200 can provide higher protective effect for camera 100, optionally, cloud platform support 500 also is metal structure to further promote the guard action to camera 100, and can guarantee that the structural strength of whole camera module is higher. The first heat conduction rotation portion 310 made of metal materials has high heat conduction efficiency and high structural strength, and ensures that the camera 100 moves relative to the support base 200, and the first heat conduction rotation portion 310 can provide a good supporting effect for the camera 100, so that the action stability of the camera 200 is improved.

Optionally, the first heat-conducting rotating portion 310 is fixed on a side of the camera 100 facing the support base 200, in this case, on one hand, more heat generated due to relative friction between the first heat-conducting rotating portion 310 and the camera 100 can be prevented, and it is further ensured that the temperature of the camera 100 is low, and on the other hand, damage to the camera 100 due to relative friction between the first heat-conducting rotating portion 310 and the camera 100 can also be prevented, and it is ensured that the camera 100 and the whole camera module have a long service life.

Further, one of the camera 100 and the support base 200 facing the rotating spherical surface is provided with a sinking groove, a groove surface of the sinking groove is of a spherical structure, the depth of the sinking groove is smaller than the radius of the sinking groove, and at least part of the rotating spherical surface is supported on the groove surface. By adopting the above technical scheme, the stability of the movable fit relationship between the first heat-conducting rotating part 310 and the camera 100 (or the supporting seat 200) can be further improved, so that the motion stability of the camera 100 is higher, and the anti-shake effect of the camera module is improved; moreover, the contact area between the first heat-conducting rotating part 310 and the sink is increased, so that the heat dissipation effect of the camera head 100 can be further improved. Further, the sunken groove can be formed in the supporting base 200, and the first heat-conducting rotating portion 310 is fixed to the camera 100, which can ensure that the camera has high structural strength and long service life.

Of course, in order to ensure that the spherical surface can be supported on the groove surface, the radius of curvature of the groove surface needs to be larger than that of the spherical surface. In the case that the first heat-conducting rotating part 310 is a hemisphere, a part of the rotating spherical surface of the first heat-conducting rotating part 310 can be supported in the groove surface by limiting the depth of the sunken groove, so as to ensure that the camera 100 can still move relative to the support base 200 through the first heat-conducting rotating part 310 with the above structure; in the case where the first heat-conductive rotating portion 310 is a sphere structure having a height greater than a radius and a combined structure including at least a portion of the sphere, the height of the rotating sphere can be made equal to the depth of the sunken groove, and in this case, even if the rotating sphere of the first heat-conductive rotating portion 310 is completely supported in the groove surface of the sunken groove, the camera 100 and the supporting base 200 can be ensured to be able to move relatively.

Optionally, the first heat-conducting rotating portion 310 is a part of a sphere, so that on one hand, the height of the first heat-conducting rotating portion 310 can be reduced to improve the efficiency of transferring heat between the camera 100 and the support base 200 through gas by reducing the amount of gas clamped between the camera 100 and the support base 200, and on the other hand, the overall size of the camera module can be reduced; it is also ensured that the stability of the fit between the camera head 100 and the supporting base 200 through the first heat-conducting rotating portion 310 is relatively high. Meanwhile, in the case that the first heat-conductive rotating portion 310 is a part of a sphere, the first heat-conductive rotating portion 310 has a rotating spherical surface and a mounting circular surface that are opposite to each other, one of the camera 100 and the support base 200 is supported by the rotating spherical surface, and the other is connected to the mounting circular surface. Since the installation round surface has a large area, the heat transfer efficiency between the structure connected with the installation round surface and the first heat-conducting rotating portion 310 is higher, which can further improve the heat transfer efficiency between the camera 100 and the supporting base 200, thereby improving the heat dissipation efficiency of the camera 100. Alternatively, the mounting circular surface is connected to the surface of the camera head 100 facing the support base 200, so that the heat of the camera head 100 can be transferred to the first heat-conducting rotating portion 310 more quickly, and the camera head 100 is prevented from being maintained in a high-temperature state for a long time.

Further, as shown in fig. 3 to 6, the camera module disclosed in the embodiment of the present application may further include a positioning portion 410, the positioning portion 410 is disposed between the camera 100 and the supporting base 200, the positioning portion 410 is fixedly connected to the supporting base 200, a through hole is disposed on the positioning portion 410, and the first heat-conducting rotating portion 310 extends from one side of the positioning portion 410 to the other side of the positioning portion 410 through the through hole, so that the positioning portion 410 may limit the position of the first heat-conducting rotating portion 310, prevent relative displacement between the first heat-conducting rotating portion 310 and the supporting base 200, and ensure that the camera 100 has high anti-shake performance.

Specifically, the positioning portion 410 may have a plate-shaped structure, and the radius of the through hole may be determined according to the radius of the rotating spherical surface on the first heat-conducting rotating portion 310, and specifically, the radius of the through hole may be smaller than the radius of the rotating spherical surface, so as to ensure that the first heat-conducting rotating portion 310 does not fall off from the through hole. The positioning portion 410 may be fixed to the supporting base 200 by welding or gluing, or the positioning portion 410 may also be fixed to the holder bracket 500. The distance between the positioning portion 410 and the supporting base 200 and the distance between the positioning portion 410 and the camera head 100 can be determined according to parameters such as the height of the portion of the first heat-conducting rotating portion 310 extending to the other side of the positioning portion 410, and the like, and is not limited herein.

More specifically, the first heat-conducting rotating portion 310 is fixed on the side of the camera head 100 facing the support base 200, and the height of the portion of the first heat-conducting rotating portion 310, which extends out to the side of the positioning portion 410 facing the support base 200 through the through hole, is equal to the distance between the positioning portion and the support base 200, and the height of the portion of the first heat-conducting rotating portion 310, which is located on the side of the positioning portion 410 facing the camera head 200, is equal to the distance between the positioning portion 410 and the camera head 100.

As shown in fig. 7 and 8, the camera module disclosed in the embodiment of the present application further includes a plurality of elastic supporting members 420, the elastic supporting members 420 are disposed at intervals, one end of each elastic supporting member 420 is connected to the supporting base 200, and the other end of each elastic supporting member 420 is connected to the positioning portion 410. Under the condition of adopting above-mentioned technical scheme, can prevent that the camera module from appearing supporting seat 200 and being close to camera 100 motion when receiving exogenic action, and then mode supporting seat 200 extrudees camera 100 through first heat conduction rotation portion 310, cause the camera 100 to damage to and damage the condition of the relation of connection between camera 100 and the actuating mechanism, thereby guarantee that camera 100 can be installed in one side of supporting seat 200 reliably and steadily, promote the life of camera 100 and whole camera module.

Specifically, the elastic supporting member 420 may be an elastic member such as a rubber block, and optionally, the elastic supporting member 420 is a metal spring, so that on one hand, the elastic supporting member 420 has high elastic capacity, and on the other hand, the elastic supporting member 420 may also serve as a bridge for heat transfer between the positioning portion 410 and the supporting seat 200, so as to further improve the heat dissipation effect of the camera 100. In addition, the plurality of elastic supporting members 420 may be uniformly distributed between the supporting seat 200 and the positioning portions 410, so as to ensure that the fixing relationship between the positioning portions 410 at any position on the supporting seat 200 is relatively high.

As shown in fig. 9 and 10, the camera module disclosed in the embodiment of the present application may further include a second heat conduction rotating portion 320, the second heat conduction rotating portion 320 is disposed on one side of the first heat conduction rotating portion 310, a surface of the second heat conduction rotating portion 320 facing the first heat conduction rotating portion 310 is a spherical structure, one of the first heat conduction rotating portion 310 and the second heat conduction rotating portion 320 is connected to the camera 100, the other one is connected to the support base 200, and the first heat conduction rotating portion 310 and the second heat conduction rotating portion 320 are supported by each other.

Under the condition of adopting above-mentioned technical scheme, the friction condition between first heat conduction rotating part 310 and the second heat conduction rotating part 320 is relatively weaker, can reduce the thermal volume that the friction produced on the one hand to further prevent to increase the heat in the camera module excessively, on the other hand can reduce the degree of difficulty of relative motion between first heat conduction rotating part 310 and the second heat conduction rotating part 320, reduces the noise that the friction produced. Alternatively, the shape and size of the first and second heat-conductive rotating parts 310 and 320 may be the same or different.

Specifically, the first heat-conducting rotating portion 310 may be at least a portion of a sphere, the second heat-conducting rotating portion 320 may also be at least a portion of a sphere, the first heat-conducting rotating portion 310 may be fixedly connected to the camera 100, and the second heat-conducting rotating portion 320 may be fixedly connected to the supporting base 200, which makes the motion stability between the camera 100 and the supporting base 200 relatively high, or the second heat-conducting rotating portion 320 may be rotated relative to the supporting base 200, so as to prevent the first heat-conducting rotating portion 310 and the second heat-conducting rotating portion 320 from rubbing at the same position for a long time, ensure that both the first heat-conducting rotating portion 310 and the second heat-conducting rotating portion 320 have a relatively long service life, or further enable a small-amplitude relative displacement to be generated between the second heat-conducting rotating portion 320 and the supporting base 200, thereby enlarging the contact area between the second heat-conducting rotating portion 320 and the supporting base 200, the heat dissipation efficiency is improved.

Optionally, as shown in fig. 9 and 10, the camera module disclosed in the embodiment of the present application further includes a surrounding portion 430, where the surrounding portion 430 is connected between the positioning portion 410 and the supporting base 200 and forms an accommodating space, and the first heat-conducting rotating portion 310 or the second heat-conducting rotating portion 320 is accommodated in the accommodating space. Under the effect of the surrounding portion 430, the position of one of the first heat-conducting rotating portion 310 and the second heat-conducting rotating portion 320 disposed on the support base 200 can be further limited, so as to ensure that the camera head 100 has higher motion stability.

Specifically, the surrounding portion 430 may be made of a material having relatively high heat conductivity and structural strength, such as metal, and the surrounding portion 430 may be fixedly connected to at least one of the positioning portion 410 and the supporting seat 200 by bonding or welding. Under the condition that the surrounding portion 430 is arranged, the heat of the first heat-conducting rotating portion 310 or the second heat-conducting rotating portion 320 accommodated in the accommodating space can be further transferred to the surrounding portion 430, and under the condition that the surrounding portion 430 is connected with the supporting seat 200, the heat of the surrounding portion 430 can be transferred to the outside of the camera module through the supporting seat 200, so that the heat dissipation efficiency of the camera module is further improved.

Further, as shown in fig. 9 and 10, the second heat-conducting rotating portion 320 can be rotatably disposed in the accommodating space, and the second heat-conducting rotating portion 320 and the surrounding portion 430 are spaced, so that the second heat-conducting rotating portion 320 can rotate relative to the surrounding portion 430, on one hand, the problem of serious abrasion of a certain fixed position of the second heat-conducting rotating portion 320 is prevented, on the other hand, the contact area between the second heat-conducting rotating portion 320 and the surrounding portion 430 and the supporting seat 200 can be enlarged, and the heat dissipation effect of the camera module is improved.

Optionally, the camera module disclosed in this embodiment of the application may further include an elastic heat conducting member 440, and the first heat conducting rotating portion 310 is mutually supported by the camera 100 or the supporting base 200 through the elastic heat conducting member 440, in this case, the relative movement range between the camera 100 and the supporting base 200 may be further increased, so as to expand the anti-shake effect of the camera module 100, and it may also be ensured that the contact effect between the camera 100 and the supporting base 200 is always high, so that the heat transfer efficiency between the camera 100 and the supporting base 200 is high.

Specifically, the elastic heat-conducting member 440 may be a metal spring, which has good elastic ability and heat-conducting effect. More specifically, one end of the elastic heat-conducting member 440 may be fixed to the supporting base 200 by bonding with a heat-conducting glue, the first heat-conducting rotating portion 310 may be fixed to the camera 100 by bonding with a heat-conducting glue, and the first heat-conducting rotating portion 310 and one end of the elastic heat-conducting member 440 away from the supporting base 200 may also be fixed together by bonding with a heat-conducting glue, so that the camera 100 and the supporting base 200 have a good connection relationship and a good heat transfer relationship.

Based on the camera module disclosed in the above embodiments, the embodiment of the present application further discloses an electronic device, and the electronic device includes the camera module disclosed in any of the above embodiments.

The electronic device disclosed by the embodiment of the application can be a smart phone, a tablet computer, an electronic book reader or a wearable device. Of course, the electronic device may also be other devices, which is not limited in this embodiment of the application.

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

The above description is only an example of the present application and is not intended to limit the present application. Various modifications and changes may occur to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present application should be included in the scope of the claims of the present application.

Claims (12)

1. The utility model provides a camera module, its characterized in that, includes camera (100), supporting seat (200) and first heat conduction rotation portion (310), camera (100) set up in one side of supporting seat (200), first heat conduction rotation portion (310) are fixed in camera (100) orientation one side of supporting seat (200), perhaps first heat conduction rotation portion (310) are fixed in supporting seat (200) orientation one side of camera (100), just first heat conduction rotation portion (310) have a rotation sphere, first heat conduction rotation portion (310) pass through rotate the sphere rotate support in supporting seat (200) or camera (100), camera (100) with supporting seat (200) swing joint.

2. The camera module according to claim 1, wherein the first thermally conductive rotating portion (310) is fixed to a side of the camera (100) facing the support base (200).

3. The camera module according to claim 1, wherein one of the camera (100) and the supporting base (200) facing the spherical surface is provided with a sunken groove, a groove surface of the sunken groove is a spherical structure, a depth of the sunken groove is smaller than a radius of the sunken groove, and at least a part of the spherical surface is supported on the groove surface.

4. The camera module according to claim 1, wherein the first thermally conductive rotating portion (310) is a portion of a sphere, the first thermally conductive rotating portion (310) has the rotating spherical surface and the mounting circular surface which are opposite to each other, one of the camera (100) and the supporting base (200) and the rotating spherical surface support each other, and the other one of the camera and the mounting circular surface is connected to the mounting circular surface.

5. The camera module according to claim 1, further comprising a positioning portion (410), wherein the positioning portion (410) is disposed between the camera (100) and the supporting base (200), the positioning portion (410) is fixedly connected to the supporting base (200), the positioning portion (410) is provided with a through hole, and the first heat-conducting rotating portion (310) extends from one side of the positioning portion (410) to the other side of the positioning portion (410) through the through hole.

6. The camera module according to claim 5, further comprising a plurality of elastic supporting members (420), wherein the plurality of elastic supporting members (420) are disposed at intervals, one end of each elastic supporting member (420) is connected to the supporting base (200), and the other end of each elastic supporting member (420) is connected to the positioning portion (410).

7. The camera module according to claim 5, further comprising a second heat-conducting rotating portion (320), wherein the second heat-conducting rotating portion (320) is disposed on one side of the first heat-conducting rotating portion (310), a surface of the second heat-conducting rotating portion (320) facing the first heat-conducting rotating portion (310) is a spherical structure, one of the first heat-conducting rotating portion (310) and the second heat-conducting rotating portion (320) is connected to the camera (100), the other one is connected to the supporting base (200), and the first heat-conducting rotating portion (310) and the second heat-conducting rotating portion (320) are supported by each other.

8. The camera module according to claim 7, further comprising a surrounding portion (430), wherein the surrounding portion (430) is connected between the positioning portion (410) and the support base (200) and forms an accommodating space, and the first heat-conducting rotating portion (310) or the second heat-conducting rotating portion (320) is accommodated in the accommodating space.

9. The camera module according to claim 8, wherein the second heat-conducting rotating portion (320) is rotatably disposed in the accommodating space, and the second heat-conducting rotating portion (320) is spaced from the surrounding portion (430).

10. The camera module according to claim 1, further comprising an elastic heat-conducting member (440), wherein the first heat-conducting rotating portion (310) is mutually supported by the camera (100) or the supporting base (200) via the elastic heat-conducting member (440).

11. The camera module of claim 1, wherein at least one of the support base (200) and the first thermally conductive rotating portion (310) is a metallic structural member.

12. An electronic device comprising the camera module of any one of claims 1-11.

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