Electronic device

By combining the design of drive components and transmission components with elastic components and buffer rods, the decorative ring can be raised and lowered, solving the problem of stacking in the thickness direction of the lifting device, reducing the thickness of the equipment and improving the user experience.

CN119342325BActive Publication Date: 2026-07-07VIVO MOBILE COMM CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Patents(China)
Current Assignee / Owner
VIVO MOBILE COMM CO LTD
Filing Date
2024-10-15
Publication Date
2026-07-07

AI Technical Summary

Technical Problem

In existing electronic devices, the extension of the lifting device in the thickness direction results in excessive device thickness, affecting the user's handling experience.

Method used

The design employs a combination of driving and transmission components, allowing the driving force to slide along the second direction and be transformed into a pushing force on the decorative ring along the first direction. This avoids the stacking of the driving components in the thickness direction. Combined with elastic components and buffer rods, it provides protection and guidance, enabling the decorative ring to rise and fall.

Benefits of technology

The overall thickness of the electronic device has been reduced, improving the user's handling experience, and the driver and camera components are protected by cushioning.

✦ Generated by Eureka AI based on patent content.

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Abstract

The application discloses an electronic device, which comprises a mounting seat, a decorative ring and a lifting assembly, the decorative ring is installed on the mounting seat and can be lifted along a first direction, the lifting assembly comprises a driving member and a transmission member, the driving member is arranged to slide along a second direction, one end of the transmission member is connected with the driving member, and the other end is connected with the decorative ring, and the transmission member is used for converting the driving force of the driving member along the second direction into the pushing force of the decorative ring along the first direction. The electronic device can avoid stacking the lifting device in the thickness direction of the electronic device, thereby reducing the overall thickness of the electronic device and improving the use feeling of the user.
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Description

Technical Field

[0001] This application belongs to the field of electronic equipment technology, and in particular relates to an electronic device. Background Technology

[0002] In current electronic devices, in order to ensure better camera functions, greater zoom distances, and a better appearance at the camera, the overall size of the camera's decorative ring assembly is gradually increasing.

[0003] Electronic devices typically employ lifting mechanisms to raise and lower the camera's decorative ring, enabling zooming or cushioning the camera in case of impact. However, current lifting mechanisms often extend along the thickness of the electronic device, resulting in excessive thickness and negatively impacting the user's handling. Summary of the Invention

[0004] This application provides an electronic device that avoids stacking lifting devices in the thickness direction of the electronic device, thereby reducing the overall thickness of the electronic device and improving the user's handling experience.

[0005] This application provides an electronic device, which includes a mounting base and a decorative ring and a lifting assembly mounted on the mounting base. The decorative ring is slidably mounted on the mounting base along a first direction. The lifting assembly includes a driving member and a transmission member. The driving member is slidably disposed along a second direction. One end of the transmission member is connected to the driving member, and the other end is connected to the decorative ring. The transmission member is used to convert the driving force of the driving member along the second direction into a pushing force of the decorative ring along the first direction.

[0006] In the above-mentioned electronic device, the lifting assembly further includes a connector and an elastic member extending in a second direction. The connector is connected to the transmission member, the end of the elastic member near the decorative ring is connected to the connector, and the end of the elastic member away from the decorative ring is connected to the drive member.

[0007] In the above-mentioned electronic device, the lifting assembly further includes a buffer rod extending in a second direction, the end of which is connected to a connector, and an elastic element is sleeved on the outer surface of the buffer rod.

[0008] In the above-mentioned electronic device, the transmission component includes a first connecting part, a connecting rod part, and a second connecting part that are connected to each other. The first connecting part is rotatably connected to the connecting member, and the second connecting part is rotatably connected to the decorative ring. The rotation plane of the first connecting part and the rotation plane of the second connecting part are coplanar.

[0009] In the above-mentioned electronic device, the extension direction of the connecting rod is set at a preset angle A with the second direction, and the preset angle A is greater than 0° and less than or equal to 90°.

[0010] In the above-mentioned electronic device, the lifting assembly further includes a drive motor and a drive screw. The drive screw is connected to the output end of the drive motor. The driving component includes a transmission hole that extends through the drive in a second direction. The transmission hole has an internal thread that is adapted to the drive screw. The drive screw passes through the transmission hole and engages with the transmission hole in a transmission cooperation.

[0011] In the above-mentioned electronic device, the lifting assembly further includes a guide extending along the second direction, and the driving component further includes a guide hole and a third connecting part. The guide hole extends through the driving component along the second direction, and the driving component is slidably sleeved on the outer peripheral surface of the guide through the guide hole. The third connecting part protrudes in the direction of the connecting component, and the driving component is fixedly connected to the connecting component through the third connecting part.

[0012] In the above-mentioned electronic device, the mounting base includes a first mounting base body and a second mounting base body connected to each other. The first mounting base body includes a guide plate extending along a first direction. A decorative ring is slidably mounted on the guide plate along the first direction. The second mounting base body includes a connecting plate and two fixing plates. The two fixing plates are respectively connected to the two ends of the connecting plate in a second direction. The two ends of the guide member are respectively connected to the two fixing plates. A drive screw is rotatably inserted through the two fixing plates via bearings.

[0013] In the above-mentioned electronic device, the camera component includes a main camera structure and a lens. The main camera structure is mounted on a first mounting base. The decorative ring is an annular sleeve structure. The lens of the main camera structure passes through the inside of the decorative ring, and the lens is mounted on the end of the decorative ring away from the main camera structure.

[0014] On the other hand, this application also provides an electronic device, wherein the electronic device further includes a housing, the housing includes a middle frame and a rear cover, a mounting base, a decorative ring and a lifting assembly are all disposed between the middle frame and the rear cover, the rear cover has a camera hole, and the decorative ring is capable of extending and retracting along a first direction from the camera hole.

[0015] The electronic device of this application includes a mounting base, a decorative ring mounted on the mounting base, and a lifting assembly. The decorative ring is liftably mounted on the mounting base along a first direction, which is the thickness direction of the electronic device. The driving component of the lifting assembly can slide along a second direction, which is perpendicular to the first direction. One end of a transmission component is connected to the driving component, and the other end is connected to the decorative ring. Through the connection and transmission of the transmission component, the driving force generated by the sliding of the driving component along the second direction can be converted into a pushing force to drive the decorative ring to move up and down along the first direction. Thus, even when the driving component extends along the second direction, it can still push the decorative ring to move along the first direction to achieve focusing of the camera component within the decorative ring. Therefore, the electronic device of this application avoids the stacking of driving components along the thickness direction of the electronic device, thereby reducing the overall thickness of the electronic device and improving the user's handling experience. Attached Figure Description

[0016] To more clearly illustrate the technical solutions of the embodiments of this application, the accompanying drawings used in the embodiments of this application will be briefly introduced below. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.

[0017] Figure 1 This is a schematic diagram of the overall assembly of the mounting base, decorative ring, lifting assembly, and camera assembly of the electronic device according to an embodiment of this application;

[0018] Figure 2 This is another schematic diagram of the overall structure formed by assembling the mounting base, decorative ring, lifting assembly, and camera assembly of the electronic device according to an embodiment of this application.

[0019] Figure 3 This is an exploded view of the electronic device according to an embodiment of this application;

[0020] Figure 4 This is a schematic diagram showing the camera component of an electronic device in a retracted state according to an embodiment of this application;

[0021] Figure 5 This is a schematic diagram of the camera component of an electronic device in a focusing state according to an embodiment of this application;

[0022] Figure 6 This is a schematic diagram of the lens of an electronic device according to an embodiment of this application being subjected to an impact.

[0023] Figure 7 This is a schematic diagram of the electronic device according to an embodiment of this application.

[0024] Explanation of icon numbers:

[0025] 10. Driving component; 11. Transmission hole; 12. Guide hole; 13. Third connecting part; 20. Transmission component; 21. First connecting part; 22. Connecting rod part; 23. Second connecting part; 30. Guide component; 40. Connecting component; 50. Elastic component; 60. Buffer rod; 70. Drive motor; 80. Drive screw; 90. Bearing;

[0026] 100. Mounting base; 110. First mounting base body; 111. Guide plate; 120. Second mounting base body; 121. Connecting plate; 122. Fixing plate; 200. Decorative ring; 300. Lifting assembly; 400. Housing; 410. Middle frame; 420. Rear cover; 421. Camera hole; 500. Camera assembly; 510. Main camera structure; 520. Lens;

[0027] X, the first direction; Y, the second direction. Detailed Implementation

[0028] The features and exemplary embodiments of various aspects of this application will be described in detail below. To make the objectives, technical solutions, and advantages of this application clearer, the application will be further described in detail below with reference to the accompanying drawings and specific embodiments. It should be understood that the specific embodiments described herein are only intended to explain this application and not to limit it. For those skilled in the art, this application can be implemented without some of these specific details. The following description of the embodiments is merely to provide a better understanding of this application by illustrating examples.

[0029] like Figures 1 to 7 As shown, this application embodiment provides an electronic device, which includes a mounting base 100, a decorative ring 200 mounted on the mounting base 100, and a lifting assembly 300. The decorative ring 200 is scissorably mounted on the mounting base 100 along a first direction X. The lifting assembly 300 includes a driving member 10 and a transmission member 20. The driving member 10 is slidably disposed along a second direction Y. One end of the transmission member 20 is connected to the driving member 10, and the other end is connected to the decorative ring 200. The transmission member 20 is used to convert the driving force of the driving member 10 along the second direction Y into a pushing force of the decorative ring 200 along the first direction X.

[0030] It should be noted that in the embodiments of this application, the first direction X is perpendicular to the second direction Y. The first direction X is the thickness direction of the electronic device, and the second direction Y is the horizontal direction in the plane in which the electronic device is located. During the focusing process of the electronic device, the decorative ring 200 extends out of the electronic device or retracts into the electronic device along the first direction X.

[0031] In practical implementation, the electronic device of this application includes a mounting base 100, a decorative ring 200 mounted on the mounting base 100, and a lifting assembly 300. The decorative ring 200 is slidably mounted on the mounting base 100 along a first direction X. The driving member 10 of the lifting assembly 300 can slide along a second direction Y, which is perpendicular to the first direction X. One end of the transmission member 20 is connected to the driving member 10, and the other end is connected to the decorative ring 200. Through the connection and transmission of the transmission member 20, the driving force generated by the sliding of the driving member 10 along the second direction Y can be converted into a pushing force to drive the decorative ring 200 to move up and down along the first direction X. Thus, even when the driving member 10 is extended along the second direction Y, it can still push the decorative ring 200 to move along the first direction X, so as to achieve focusing of the camera assembly 500 within the decorative ring 200. Therefore, the electronic device of this application avoids the stacking of the driving member 10 in the thickness direction of the electronic device, thereby reducing the overall thickness of the electronic device and improving the user's handling experience.

[0032] In the electronic device of this application embodiment, the lifting assembly 300 further includes a connector 40 and an elastic member 50 extending along the second direction Y. The connector 40 is connected to the transmission member 20. One end of the elastic member 50 near the decorative ring 200 is connected to the connector 40, and the other end of the elastic member 50 away from the decorative ring 200 is connected to the drive member 10.

[0033] In practical implementation, the connector 40 is used to connect the driving component 10, the elastic component 50, and the transmission component 20. One end of the elastic component 50 is connected to the driving component 10, and the other end is connected to the connector 40. Figure 4 and Figure 5 As shown, after the driving member 10 compresses the elastic member 50 along the second direction Y to a certain extent, the elastic member 50 can move together with the driving member 10 along the second direction Y, and push the connecting member 40 to move along the second direction Y. The moving connecting member 40 can drive the transmission member 20 connected to it to move together, thereby transmitting the driving force to the transmission member 20. Finally, under the action of the transmission member 20, the driving force along the second direction Y can be converted into a pushing force along the first direction X, so that the camera component 500 in the decorative ring 200 completes the focusing process. When the decorative ring 200 needs to be retracted, the driving member 10 can pull the elastic member 50 and the connecting member 40 to move together in opposite directions, thereby transmitting the opposite driving force from the transmission member 20 to the decorative ring 200, forming a pulling force on the decorative ring 200 downward along the first direction X, and finally pulling the decorative ring 200 back.

[0034] like Figure 6 As shown, when the decorative ring 200 is subjected to an external impact force, the decorative ring 200 will move downward along the first direction X. The impact force passes through the decorative ring 200, the transmission member 20 and the connecting member 40 in sequence, and finally reaches the elastic member 50 and compresses the elastic member 50 along the second direction Y. The elastic member 50 is compressed and deformed, bearing most of the impact force and the displacement along the second direction Y, thereby reducing the impact force acting on the drive member 10, and thus achieving the effect of protecting the drive member 10 and the drive motor 70 connected to the drive member 10.

[0035] like Figure 2 and Figure 3 As shown in the embodiment of the present application, the electronic device, wherein the lifting assembly 300 further includes a buffer rod 60 extending along the second direction Y, the end of the buffer rod 60 being connected to the connector 40, and the elastic member 50 being sleeved on the outer surface of the buffer rod 60.

[0036] In specific implementation, the elastic element 50 is sleeved on the buffer rod 60 extending along the second direction Y. Since the elastic element 50 is a flexible material that can deform, the buffer rod 60 can guide the elastic element 50 in the second direction Y when the elastic element 50 undergoes elastic deformation, so that the elastic element 50 can only undergo elastic deformation in the second direction Y, avoiding the phenomenon of the elastic element 50 tilting due to elastic deformation in other directions. This ensures that the driving force of the driving element 10 can only be transmitted to the connecting element 40 in the second direction Y to complete the driving process of the decorative ring 200. At the same time, it also provides overall protection for the lifting assembly 300, preventing damage to the lifting assembly 300 from forces in other directions.

[0037] Optionally, the end of the elastic element 50 near the decorative ring 200 can be connected to the surface of the buffer rod 60. This way, the elastic element 50 does not need to be directly connected to the connector 40, increasing the arrangement space on the connector 40. The buffer rod 60 can be thickened to improve the guiding stability of the elastic element 50.

[0038] Specifically, the connector 40 is a frame structure with an opening, the buffer rod 60 is located inside the connector 40 of the frame structure, and its two ends are respectively connected to the two side walls of the connector 40 that are opposite to each other in the second direction Y. The elastic member 50 is also located inside the connector 40, and the driving member 10 is connected to the elastic member 50 through the opening.

[0039] like Figure 4 As shown in the embodiment of the present application, the electronic device includes a transmission member 20 comprising a first connecting part 21, a connecting rod part 22, and a second connecting part 23 connected to each other. The first connecting part 21 is rotatably connected to the connector 40, and the second connecting part 23 is rotatably connected to the decorative ring 200. The rotation plane of the first connecting part 21 and the rotation plane of the second connecting part 23 are coplanar.

[0040] In specific implementation, the rotation plane of the first connecting part 21 and the rotation plane of the second connecting part 23 are coplanar. When the connecting rod part 22 is subjected to a driving force and the angle changes, the first connecting part 21 and the second connecting part 23 can rotate synchronously, so that the connecting rod part 22 can move smoothly. The driving force acting on the transmission member 20 can pass through the connecting rod part 22 and be transformed from the second direction Y to the first direction X. At the same time, the generation of forces in other directions is avoided during the transmission of driving force, so that the direction of the force is only within the rotation plane of the first connecting part 21 and the second connecting part 23, which plays a protective role for the lifting assembly 300.

[0041] Specifically, both the first connecting part 21 and the second connecting part 23 are cylindrical structures. Along the extension direction of the cylindrical structure, a pin is inserted at the center of both the first connecting part 21 and the second connecting part 23. The first connecting part 21 is rotatably connected to the connector 40 through the pin, and the second connecting part 23 is rotatably connected to the decorative ring 200 through the pin, thereby ensuring the rotation direction of the first connecting part 21 and the second connecting part 23.

[0042] like Figures 4 to 6 As shown in the embodiment of the present application, the extension direction of the connecting rod 22 is set at a preset angle A with the second direction Y, and the preset angle A is greater than 0° and less than or equal to 90°.

[0043] In specific implementation, the preset angle A of the connecting rod 22 is greater than 0°, so that the initial angle of the connecting rod 22 can have an inclination angle with the second direction Y. When the driving member 10 moves along the second direction Y, the driving force can drive the connecting rod 22 to rotate. If the transmission member 20 is parallel to the second direction Y as a whole, the movement of the driving member 10 can only provide driving force to the setting direction of the connecting rod 22, and cannot cause the first connecting part 21 and the second connecting part 23 to rotate, so it cannot drive the connecting rod 22 to rotate. If the preset angle A is less than or equal to 90°, the transmission member 20 can rotate freely between 0° and 90°. When the transmission member 20 reaches 90°, its whole is parallel to the first direction X, so that the decorative ring 200 can reach a fully extended state, and the entire extension length of the transmission member 20 is utilized.

[0044] like Figure 1 As shown in the embodiment of the present application, the electronic device, wherein the lifting assembly 300 further includes a drive motor 70 and a drive screw 80, the drive screw 80 is connected to the output end of the drive motor 70, the drive member 10 includes a transmission hole 11 through which the drive is disposed along the second direction Y, the transmission hole 11 has an internal thread adapted to the drive screw 80, the drive screw 80 passes through the transmission hole 11 and is in transmission cooperation with the transmission hole 11.

[0045] In practice, the rotation of the output end of the drive motor 70 can drive the drive screw 80 to rotate together. The drive component 10 is connected to the drive screw 80 through the internal thread of the transmission hole 11, which can convert the rotation of the drive screw 80 into a translational motion along the extension direction of the drive screw 80, that is, a motion along the second direction Y, and finally complete the driving of the decorative ring 200.

[0046] Optionally, the drive motor 70 and the drive screw 80 can be replaced with a linear drive structure or linear drive assembly such as a cylinder to perform transmission cooperation with the drive member 10, so that the drive member 10 can move linearly along the second direction Y.

[0047] like Figure 1 As shown in the embodiment of the present application, the electronic device includes a lifting assembly 300 that further extends along the second direction Y, and a driving member 10 that further includes a guide hole 12 and a third connecting portion 13. The guide hole 12 passes through the driving member 10 along the second direction Y, and the driving member 10 is slidably sleeved on the outer peripheral surface of the guide member 30 through the guide hole 12. The third connecting portion 13 protrudes toward the connecting member 40, and the driving member 10 is fixedly connected to the connecting member 40 through the third connecting portion 13.

[0048] In specific implementation, the driving component 10 can be slidably sleeved on the outer peripheral surface of the guide component 30 through its guide hole 12. When the driving motor 70 and the driving screw 80 drive the driving component 10, the cooperation between the guide hole 12 and the guide component 30 can provide auxiliary guiding effect for the driving component 10, so that the driving component 10 can move stably along the second direction Y, thereby generating a driving force along the second direction Y, ensuring stable focusing of the camera component 500 inside the decorative ring 200.

[0049] The third connecting part 13 of the driving member 10 protrudes towards the connecting member 40, so as not to interfere with the transmission cooperation between the transmission hole 11 and the driving screw 80 and the transmission cooperation between the guide hole 12 and the guide member 30. Furthermore, the driving member 10 is fixedly connected to the connecting member 40 through the third connecting part 13, so that when the driving member 10 moves along the second direction Y, it can drive the connecting member 40 to move together.

[0050] like Figures 1 to 3 As shown in the embodiment of the present application, the electronic device includes a mounting base 100 comprising a first mounting base body 110 and a second mounting base body 120 connected to each other. The first mounting base body 110 includes a guide plate 111 extending along a first direction X. A decorative ring 200 is slidably mounted on the guide plate 111 along the first direction X. The second mounting base body 120 includes a connecting plate 121 and two fixing plates 122. The two fixing plates 122 are respectively connected to the two ends of the connecting plate 121 in a second direction Y. The two ends of the guide member 30 are respectively connected to the two fixing plates 122. A drive screw 80 is rotatably passed through the two fixing plates 122 via a bearing 90. The bearing 90 enables the drive screw 80 to rotate more stably within the mounting holes of the fixing plates 122.

[0051] In specific implementation, when the decorative ring 200 is installed on the first mounting base 110, the decorative ring 200 cooperates with the guide plate 111 through the groove recessed along the first direction X. When the transmission member 20 pushes the decorative ring 200 to move, the groove can move relative to the guide plate 111, so that the decorative ring 200 can only move along the first direction X. This enables the camera component 500 of the decorative ring 200 to focus along the first direction X, avoiding the decorative ring 200 from driving the camera component 500 to move in other directions and affecting the image quality.

[0052] The second mounting base 120 is connected to the first mounting base 110. The drive member 10 is mounted on the second mounting base 120 via the drive screw 80. Therefore, when the drive member 10 moves along the second direction Y to generate driving force and transmits it to the camera component 500 mounted on the second mounting base 120 through the transmission member 20, since the drive member 10 and the camera component 500 are both on the entire mounting base 100, no additional force is generated between them, avoiding unnecessary relative movement between them and ensuring the accuracy and stability of the focusing action.

[0053] like Figures 1 to 3 As shown in the embodiment of this application, the electronic device further includes a camera assembly 500, which includes a main camera structure 510 and a lens 520. The main camera structure 510 is mounted on a first mounting base 110. The decorative ring 200 is an annular sleeve structure. The lens of the main camera structure 510 passes through the interior of the decorative ring 200, and the lens 520 is mounted on the end of the decorative ring 200 away from the main camera structure 510.

[0054] In specific implementation, the main camera structure 510 and the lens 520 are spaced apart along the first direction X within the decorative ring 200. The decorative ring 200 serves to install the lens 520 and decorate the appearance, preventing the main camera structure 510 from protruding from the outer surface of the electronic device. The lens 520 installed at the end of the decorative ring 200 is used to protect the internal main camera structure 510 and prevent external impact from damaging the main camera structure 510.

[0055] like Figure 3 and Figure 7 As shown in the embodiment of this application, the electronic device further includes a housing 400, which includes a middle frame 410 and a back cover 420. The mounting base 100, the decorative ring 200, and the lifting assembly 300 are all disposed between the middle frame 410 and the back cover 420. The back cover 420 has a camera hole 421, and the decorative ring 200 can extend and retract along the first direction X from the camera hole 421.

[0056] In specific implementation, the mounting base 100, decorative ring 200, lifting assembly 300, and camera assembly 500 installed in the decorative ring 200 are located in the space formed between the middle frame 410 and the rear cover 420 of the housing 400. The decorative ring 200 is vertically mounted on the mounting base 100 along the first direction X. The driving member 10 of the lifting assembly 300 can slide along the second direction Y, which is perpendicular to the first direction X. One end of the transmission member 20 is connected to the driving member 10, and the other end is connected to the decorative ring 200. Through the connection and transmission of the transmission member 20, the driving force generated by the sliding of the driving member 10 along the second direction Y can be transformed into a pushing force to drive the decorative ring 200 to move up and down along the first direction X. Thus, even when the driving member 10 is extended along the second direction Y, it can still push the decorative ring 200 to move along the first direction X, so that the decorative ring 200 extends or retracts from the camera hole 421 along the first direction X, thereby achieving focusing of the camera assembly 500 inside the decorative ring 200. Therefore, the electronic device of this application avoids the stacking of the driving components 10 in the thickness direction of the electronic device, thereby reducing the overall thickness of the electronic device and improving the user's handling experience.

[0057] It should be noted that, in this document, relational terms such as "first" and "second" are used merely to distinguish one entity or operation from another, and do not necessarily require or imply any such actual relationship or order between these entities or operations. Furthermore, the terms "comprising," "including," or any other variations thereof are intended to cover non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements includes not only those elements but also other elements not expressly listed, or elements inherent to such a process, method, article, or apparatus. Without further limitations, an element defined by the phrase "comprising..." does not exclude the presence of additional identical elements in the process, method, article, or apparatus that includes said element.

[0058] The above description is merely a specific implementation of this application. Those skilled in the art will clearly understand that, for the sake of convenience and brevity, the specific working processes of the systems, modules, and units described above can be referred to the corresponding processes in the foregoing method embodiments, and will not be repeated here. It should be understood that the protection scope of this application is not limited thereto. Any person skilled in the art can easily conceive of various equivalent modifications or substitutions within the technical scope disclosed in this application, and these modifications or substitutions should all be covered within the protection scope of this application.

Claims

1. An electronic device, characterized in that, The device includes a mounting base (100), a decorative ring (200) mounted on the mounting base (100), and a lifting assembly (300). The decorative ring (200) is vertically and vertically mounted on the mounting base (100) along a first direction (X). The lifting assembly (300) includes a driving member (10) and a transmission member (20). The driving member (10) is slidably disposed along a second direction (Y). One end of the transmission member (20) is connected to the driving member (10), and the other end is connected to the decorative ring (200). The transmission member (20) is used to convert the driving force of the driving member (10) along the second direction (Y) into a pushing force of the decorative ring (200) along the first direction (X). The lifting assembly (300) further includes a connector (40) and an elastic member (50) extending along the second direction (Y). The connector (40) is connected to the transmission member (20). One end of the elastic member (50) near the decorative ring (200) is connected to the connector (40), and the other end of the elastic member (50) away from the decorative ring (200) is connected to the drive member (10). The transmission member (20) includes a first connecting part (21), a connecting rod part (22), and a second connecting part (23) connected together. The first connecting part (21) is rotatably connected to the connector (40). The second connecting part (23) is rotatably connected to the decorative ring (200). The rotation plane of the first connecting part (21) is coplanar with the rotation plane of the second connecting part (23). The extension direction of the connecting rod part (22) is set at a preset angle A with the second direction (Y). The preset angle A is greater than 0° and less than or equal to 90°. The electronic device is configured such that when the decorative ring is subjected to an impact force and moves along the first direction, the elastic element deforms in the second direction to absorb part of the impact force. The first direction and the second direction are perpendicular. The first direction is the thickness direction of the electronic device.

2. The electronic device according to claim 1, characterized in that, The lifting assembly (300) further includes a buffer rod (60) extending along the second direction (Y), the end of the buffer rod (60) being connected to the connector (40), and the elastic element (50) being sleeved on the outer surface of the buffer rod (60).

3. The electronic device according to claim 1, characterized in that, The lifting assembly (300) further includes a drive motor (70) and a drive screw (80). The drive screw (80) is connected to the output end of the drive motor (70). The drive member (10) includes a transmission hole (11) that extends through the second direction (Y). The transmission hole (11) has an internal thread that is adapted to the drive screw (80). The drive screw (80) passes through the transmission hole (11) and engages with the transmission hole (11) in a transmission cooperation.

4. The electronic device according to claim 3, characterized in that, The lifting assembly (300) further includes a guide member (30) extending along the second direction (Y), and the driving member (10) further includes a guide hole (12) and a third connecting part (13). The guide hole (12) passes through the driving member (10) along the second direction (Y). The driving member (10) is slidably sleeved on the outer peripheral surface of the guide member (30) through the guide hole (12). The third connecting part (13) protrudes toward the connecting member (40). The driving member (10) is fixedly connected to the connecting member (40) through the third connecting part (13).

5. The electronic device according to claim 4, characterized in that, The mounting base (100) includes a first mounting body (110) and a second mounting body (120) connected to each other. The first mounting body (110) includes a guide plate (111) extending along a first direction (X). The decorative ring (200) is slidably mounted on the guide plate (111) along the first direction (X). The second mounting body (120) includes a connecting plate (121) and two fixing plates (122). The two fixing plates (122) are respectively connected to the two ends of the connecting plate (121) in the second direction (Y). The two ends of the guide member (30) are respectively connected to the two fixing plates (122). The drive screw (80) is rotatably passed through the two fixing plates (122) via a bearing (90).

6. The electronic device according to claim 5, characterized in that, The electronic device further includes a camera assembly (500), which includes a main camera structure (510) and a lens (520). The main camera structure (510) is mounted on the first mounting base (110). The decorative ring (200) is an annular sleeve structure. The lens of the main camera structure (510) passes through the interior of the decorative ring (200), and the lens (520) is mounted on the end of the decorative ring (200) away from the main camera structure (510).

7. The electronic device according to claim 1, characterized in that, The electronic device also includes a housing (400), which includes a middle frame (410) and a back cover (420). The mounting base (100), the decorative ring (200), and the lifting assembly (300) are all disposed between the middle frame (410) and the back cover (420). The back cover (420) has a camera hole (421), and the decorative ring (200) is retractable along the first direction (X) from the camera hole (421).