Connection components and electronic devices
By designing a switchable connection component, the problem of easy deformation of the pogo pin in laptops was solved, achieving stable connection and extending service life, thus improving the user experience.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- LENOVO (BEIJING) LTD
- Filing Date
- 2025-05-30
- Publication Date
- 2026-07-03
AI Technical Summary
In existing technologies, the pogo pins of laptops are fixed to the bottom shell and are prone to deformation due to long-term pressure, resulting in unstable connections and affecting signal transmission and user experience.
Design a connecting component including a base and a target connector. The target connector can switch between a first position and a second position. In the first position, it is housed in a receiving space, and in the second position, it extends out to contact the target connection part. A double-layer nested structure and a stop portion limit are adopted to ensure stable contact.
It improves connection stability and lifespan, reduces contamination and wear, and enhances the user experience.
Smart Images

Figure CN224458791U_ABST
Abstract
Description
Technical Field
[0001] This application relates to the field of electronic device technology, and more particularly to a connection component and an electronic device. Background Technology
[0002] With the acceleration of digitalization, laptops are being used more and more widely in various scenarios, and docking stations, as key accessories for improving the functionality and expandability of laptops, are crucial to the stability of their connection.
[0003] Currently, some laptops choose to place the pogo pins on the bottom of the laptop casing to connect with docking stations. However, the fixed position of the pogo pins on the bottom casing means they are constantly subjected to significant pressure, making them prone to deformation and causing unstable connections. This results in unstable contact and poor signal transmission, severely impacting the user experience. Utility Model Content
[0004] To address the aforementioned technical problems, this application provides the following technical solutions:
[0005] A first aspect of this application provides a connecting component, including a base having a receiving space, wherein the base is provided with a target connecting portion, and the target connecting portion is disposed in the receiving space;
[0006] A target connector is disposed in the receiving space and movably connected to the base, so that the target connector has a first position and a second position.
[0007] In the first position, the target connector is placed in the receiving space and is in a non-contact state with the target connection part;
[0008] In the second position, the target connector extends out of the receiving space and is in contact with the target connection portion.
[0009] In some embodiments, the target connector includes: a first connector having a first end and a second end disposed opposite to each other in the extension direction;
[0010] The second connector is sleeved on the outside of the first connector, and the first end and the second end of the first connector extend out of the second connector;
[0011] The second connector drives the first connector to rotate relative to the base to switch between the first position and the second position.
[0012] In the second position, the first connector forms a predetermined angle with the base surface, and the second end contacts the target connection portion.
[0013] In some embodiments, the second connector includes an abutment portion disposed at an end of the second connector near the second end of the first connector;
[0014] In the second position, the first connector forms a target angle with the base surface, and the abutting portion abuts against the base surface.
[0015] In some embodiments, the base includes: a base plate and a first support member, two first support members being spaced apart and disposed opposite to each other on the base plate to form the receiving space, and the target connection portion being disposed on the side of the base plate facing the target connection member;
[0016] The second connector includes a connector body, the two sides of which are rotatably connected to the inner sidewalls of the two first supports, so as to realize the reciprocating switching between the first pose and the second pose.
[0017] In some embodiments, the second connector further includes a second support member, two second support members being respectively disposed on both sides of the connector body, and the second support members extending along the length direction of the connector body, with a gap between them; wherein, the two ends of the second support member are a fixed end and a free end, the fixed end being connected to one end of the connector body, the free end extending along the length direction of the second support member in a direction away from the fixed end, and the second support member being movably connected to the first support member through the free end.
[0018] In some embodiments, the free end of the second support member is movably connected to the first support member through a mating structure;
[0019] The mating structure includes a first mating portion disposed on the first support member and a second mating portion disposed on the free end.
[0020] In some embodiments, the first mating portion includes a groove structure disposed on the first support member;
[0021] The second mating part includes a protrusion structure disposed at the free end, the protrusion being embedded in the groove structure so that the free end is connected to the first support member at the corresponding position.
[0022] In some embodiments, the spacing between the inner sidewalls of the two first supports is smaller than the spacing between the outer sidewalls of the two second supports, so that when the second connector is installed with the base, the second support is subjected to the clamping force of the first supports, thereby forming a damping force.
[0023] In some embodiments, the target connector includes a metal terminal, and the target connection portion is a metal point integrated on the surface of the base, wherein the metal terminal contacts and communicates with the metal point in the second position.
[0024] A second aspect of this application provides an electronic device, including: a housing and a connecting component, the connecting component being disposed on the side of the housing for contacting a bearing surface;
[0025] The connecting component includes: a base having a receiving space, the base being provided with a target connecting portion, the target connecting portion being disposed in the receiving space;
[0026] A target connector is disposed in the receiving space and movably connected to the base, so that the target connector has a first position and a second position.
[0027] In the first position, the target connector is placed in the receiving space and is in a non-contact state with the target connection part;
[0028] In the second position, the target connector extends out of the receiving space and is in contact with the target connection portion;
[0029] In the second pose, the electronic device is electrically connected to the extended electronic device via the connection component.
[0030] The above description is only an overview of the technical solution disclosed herein. In order to better understand the technical means of this disclosure and to implement it in accordance with the contents of the specification, the preferred embodiments of this disclosure are described in detail below with reference to the accompanying drawings. Attached Figure Description
[0031] The above and other objects, features, and advantages of exemplary embodiments of this application will become readily understood by reading the following detailed description with reference to the accompanying drawings. In the drawings, several embodiments of this application are illustrated by way of example and not limitation, with the same or corresponding reference numerals denoteing the same or corresponding parts, wherein:
[0032] Figure 1 A schematic diagram of the connection component provided in this application in its first orientation is shown.
[0033] Figure 2 A schematic diagram of the structure of the connecting component provided in this application in a second pose is shown.
[0034] Figure 3 A schematic diagram of the structure of the target connector of the connection assembly provided in this application is shown.
[0035] Figure 4A schematic diagram illustrating the contact between the target connector of the connection assembly provided in this application and the base is shown.
[0036] Figure 5 schematically shown Figure 4 A magnified view of a portion of the image;
[0037] Figure 6 A schematic diagram of the structure of the base of the connecting component provided in this application is shown.
[0038] Figure 7 This schematically illustrates another view of the connecting component provided in this application in a second pose;
[0039] Figure 8 A schematic diagram of the structure of an electronic device provided in this application is shown.
[0040] Figure 9 This illustration schematically shows an electronic device provided in this application that is electrically connected to an extended electronic device via a connecting component.
[0041] Explanation of icon numbers:
[0042] 10. Base; 11. Accommodation space; 12. Target connection part; 13. Base plate; 14. First support member;
[0043] 20. Target connector; 21. First connector; 22. Second connector; 221. Abutting part; 222. Connector body; 223. Second support member; 2231. Fixed end; 2232. Free end;
[0044] 30. First Coordination Unit;
[0045] 40. Second Coordination Unit;
[0046] 50. Shell. Detailed Implementation
[0047] Exemplary embodiments of this application will now be described in more detail with reference to the accompanying drawings. While exemplary embodiments of this application are shown in the drawings, it should be understood that this application may be implemented in various forms and should not be limited to the embodiments set forth herein. Rather, these embodiments are provided to enable a more thorough understanding of this application and to fully convey the scope of this application to those skilled in the art.
[0048] In related technologies, some thin and light electronic devices, such as laptops, use spring pins on the bottom to achieve electrical connection and data transmission with a docking station. This achieves advantages such as a unified product appearance and quick connection. However, there are many drawbacks in actual use. For example, because the spring pins are installed on the bottom of the laptop, long-term pressure can easily lead to spring fatigue or pin deformation. Deformation can compromise good contact pressure, resulting in unstable electrical connections. Furthermore, since the spring pins are exposed, they are prone to friction with the desktop during device movement, causing surface oxidation or plating peeling, and allowing dust, hair, debris, and other impurities to enter between the pins, affecting conductivity. To solve the above problems, this disclosure proposes a connection component and electronic device.
[0049] like Figure 1-2 As shown, in a first aspect, this disclosure proposes a connection component, including: a base 10 having a receiving space 11, the base 10 being provided with a target connection portion 12, the target connection portion 12 being disposed in the receiving space 11;
[0050] The target connector 20 is disposed in the receiving space 11 and movably connected to the base 10, so that the target connector 20 has a first position and a second position.
[0051] In the first position, the target connector 20 is placed in the receiving space 11 and is in a non-contact state with the target connector 12;
[0052] In the second position, the target connector 20 extends out of the receiving space 11 and is in contact with the target connector 12.
[0053] Understandably, the connection assembly mainly includes a base 10 and a target connector 20. The base 10 can provide a receiving space 11, such as a groove or cavity, for receiving the target connector 20. The base 10 is provided with a target connection part 12, which can be a PCB contact, a flexible ribbon cable interface or other electrode structure. The target connection part 12 is located inside the receiving space 11 and is in a fixed and static state.
[0054] The target connector 20 is disposed within the receiving space 11 and forms a movable connection with the base 10 (such as rotation, sliding, swinging, etc.). The target connector 20 has two positions relative to the base 10. In the first position, it is in a retracted state, and the target connector 20 is completely retracted into the receiving space 11, disconnecting from the target connection part 12, thus playing a protective role.
[0055] In the second position, in the working state, the target connector 20 extends from the receiving space 11, establishes an electrical connection with the target connector 12, and can perform contact or plug-in docking with the expansion dock.
[0056] By setting a movable connection between the target connector 20 and the base 10, the target connector 20 can switch between two positions, effectively solving the problems of poor durability, easy contamination, and unstable contact in traditional spring pin structures. This not only improves the stability and service life of the connection but also enhances the overall user experience of the product.
[0057] In some embodiments, such as Figure 3-4 As shown, the target connector 20 includes a first connector 21, with a first end and a second end disposed opposite to each other in the extension direction;
[0058] The second connector 22 is sleeved on the outside of the first connector 21, and the first end and the second end of the first connector 21 extend out of the second connector 22.
[0059] The second connector 22 drives the first connector 21 to rotate relative to the base 10 to switch between the first position and the second position.
[0060] In the second position, the first connector 21 forms a predetermined angle with the surface of the base 10, and the second end contacts the target connector 12.
[0061] Understandably, the first connector 21 is used for conductive and signal transmission components. Its first end, which is arranged along the length direction, is used to contact an external device, such as an external expansion dock, and its second end is used to contact the target connection part 12 of the base 10 and establish an electrical connection.
[0062] The second connector 22 is fitted onto the outside of the first connector 21, serving to support, protect, and coordinate. Both ends of the first connector 21 extend from the second connector 22, and the first connector 21 is partially enclosed within the second connector 22, reducing external contamination and wear. This double-layer nested structure saves space, making it compact and suitable for thin and light devices.
[0063] The second connector 22 acts as a pivot or fulcrum, driving the entire first connector 21 to rotate around the base 10. In the second position, the second connector 22 drives the first connector 21 to rotate out of the receiving space 11 and form a predetermined angle (such as between 30° and 145°) with the surface of the base 10, so that the second end of the first connector 21 can be accurately aligned with and contact the target connection part 12;
[0064] Furthermore, when the included angle is greater than 90°, it can enhance the contact pressure between the target connector 20 and the external device, thereby improving the stability of the conduction.
[0065] In some embodiments, such as Figure 5 and Figure 7As shown, the second connector 22 includes an abutment portion 221, which is disposed at the end of the second connector 22 near the second end of the first connector 21;
[0066] In the second position, the first connector 21 forms a target angle with the surface of the base 10, and the abutting part 221 abuts against the surface of the base 10.
[0067] Understandably, the abutting portion 221 of the second connector 22 is located at one end close to the second end of the first connector 21. In the second position, the abutting portion 221 contacts the surface of the base 10, forming a limiting effect to limit the angle (target angle) of the first connector 21 relative to the base 10, ensuring the contact pressure and conductivity between it and the target connector 12.
[0068] The abutment portion 221 is a structural component located at the end of the second connector 22, used to contact the surface of the base 10 for angular positioning. It can be a protrusion, a step, an elastic block, etc. The target included angle is a predetermined angle formed between the first connector 21 and the surface of the base 10, such as 30°, 60°, 90°, 120°, 135°, or 145°, used to ensure good contact and stability.
[0069] When the abutment 221 is in the form of a boss, when the first connector 21 rotates to the target angle (e.g., 120°, 135° or 145°), the boss contacts the surface of the base 10, preventing it from continuing to rotate, thereby fixing the first connector 21 at the target angle position.
[0070] When the abutment part 221 is an elastic buffer pad, the buffer pad contacts the surface of the base 10 after rotating into position, and provides a certain rebound force through elastic deformation, which enhances the stability of the angle fixation. The buffer pad has a buffer protection function and reduces the impact of vibration on the connection.
[0071] In some embodiments, such as Figure 6 As shown, the base 10 includes: a base plate 13 and a first support member 14. Two first support members 14 are spaced apart and disposed opposite to each other on the base plate 13 to form a receiving space 11. The target connection part 12 is disposed on the side of the base plate 13 facing the target connection member 20.
[0072] The second connector 22 includes a connector body 222, the two sides of which are rotatably connected to the inner walls of the two first support members 14 respectively, so as to realize the reciprocating switching between the first pose and the second pose.
[0073] Understandably, the base plate 13 serves as the basic platform constituting the base 10, used to support other components, such as the target connector 20. The target connector 12 is located on the side of the base plate 13 facing the target connector 20. Two first support members 14 are spaced apart and symmetrically arranged on the base plate 13 to support the second connector 22 and provide a fulcrum for rotation. The first support members 14 can be plate-shaped and are arranged along the edge of the base plate 13.
[0074] The second connector 22 includes a connector body 222, which is used to support the first connector 21 and serves as the core structure for the overall rotational movement. Its left and right sides are respectively rotatably connected to the inner walls of the two first support members 14, which can be achieved by means such as pins, bearings or sliding hinges.
[0075] The second connector 22 rotates around the two first supports 14, causing the first connector 21 to rotate from the first position located in the receiving space 11 to the second position that forms a target angle with the surface of the base 10.
[0076] In some embodiments, such as Figure 3 As shown, the second connector 22 also includes a second support 223. The two second support 223s are respectively disposed on both sides of the connector body 222, and the second support 223s extend along the length direction of the connector body 222, with a gap between them. The two ends of the second support 223 are a fixed end 2231 and a free end 2232, respectively. The fixed end 2231 is connected to one end of the connector body 222, and the free end 2232 extends along the length direction of the second support 223 in a direction away from the fixed end 2231. The second support 223s are movably connected to the first support 14 through the free end 2232.
[0077] Understandably, in order to make the rotational connection between the second connector 22 and the base 10 more stable, flexible and with a certain buffering capacity, second support members 223 are provided on both sides of the connector body 222 as transition components to provide auxiliary support.
[0078] The second support member 223 has a fixed end 2231 and a free end 2232 at its two ends along the length direction. The fixed end 2231 is used to be fixedly connected to one end of the connector body 222, and the free end 2232 extends away from the fixed end 2231 and is movably connected to the first support member 14 at its end.
[0079] like Figure 3As shown, during the extension of the fixed end 2231 of the second support member 223 to the free end 2232, a gap is left between it and the body 222 of the connector. This gap can provide space or tolerance for the movement of the second connector 22, and make the second connector 22 and the base 10 elastically connected, which has a certain buffering effect, so that when subjected to external loads, it can absorb the load through elastic changes, avoid damage, and improve impact resistance.
[0080] The second support member 223 can be made of metal or high-strength plastic to meet the strength requirements, and the gap structure can also compensate for manufacturing errors or assembly deviations.
[0081] In some embodiments, such as Figure 3 and Figure 6 As shown, the free end 2232 of the second support member 223 is movably connected to the first support member 14 through a mating structure;
[0082] The mating structure includes a first mating part 30 provided on the first support member 14 and a second mating part 40 provided on the free end 2232.
[0083] Understandably, the mating structure includes a first mating part 30 and a second mating part 40. The mating structure can effectively guide the movement path of the second connecting member 22, thereby enabling the first support member 14 and the second support member 223 to be precisely and stably connected through the mating structure, so as to improve the stability and controllability of the connecting assembly when switching positions, and also improve the assembly accuracy and movement reliability of the overall structure.
[0084] The first mating part 30 can be a structure provided on the first support member 14, such as a groove, a protrusion, a pin hole, a guide rail groove, etc. Correspondingly, the second mating part 40 can be a structure provided on the free end 2232 of the second support member 223, such as a protrusion, a groove, a pin, a slider, etc., which can realize the movable connection between the target connector 20 and the base 10 through the mating structure.
[0085] For example, when the first mating part 30 is a pin hole, it is located on the first support member 14, and when the second mating part 40 is a pin, it is located at the free end 2232 of the second support member 223. The pin is inserted into the pin hole to form a rotation fulcrum, so that the second support member 223 can rotate around the axis. This mating structure is simple in structure, low in cost, and easy to assemble, and is suitable for consumer electronic devices that are manually operated or slightly automatically driven.
[0086] In some embodiments, such as Figure 1-3 and Figure 5As shown, the first mating part 30 includes a groove structure provided in the first support member 14; the second mating part 40 includes a protrusion structure provided in the free end 2232, the protrusion being embedded in the groove structure so that the free end 2232 is connected to the corresponding position of the first support member 14.
[0087] Understandably, the first mating part 30 can be a groove structure provided on the first support member 14, and the second mating part 40 can be a protrusion structure provided on the free end 2232 of the second support member 223. By embedding the protrusion into the groove, the protrusion and the groove are nested together to form a tight fit, ensuring that the movement path is accurate and stable, allowing the second support member 223 to rotate relative to the first support member 14, while providing a certain limiting function.
[0088] In some embodiments, such as Figure 1 As shown, the distance between the inner walls of the two first support members 14 is less than the distance between the outer walls of the two second support members 223, so that when the second connector 22 is installed with the base 10, the second support member 223 is subjected to the clamping force of the first support member 14, thereby forming a damping force.
[0089] Understandably, in order to improve the stability and feel of the second connector 22 during rotation or sliding, the spacing between the inner walls of the first support member 14 is set to be smaller than the spacing between the outer walls of the second support member 223.
[0090] When the second connector 22 is installed on the base 10, the second support 223 is clamped by the first support 14, generating a certain frictional force or damping force, which can provide additional resistance, making the movement more stable and controllable, while reducing unnecessary shaking and the risk of loosening.
[0091] The interval between the inner walls of the first support member 14 refers to the distance between the opposite surfaces of the first support member 14; the interval between the outer walls of the second support member 223 refers to the distance of the outermost part of the second support member 223; the clamping force is the pressure caused by the size difference, which causes the second support member 223 to be subjected to friction during the movement; the damping force is the friction caused by the clamping force, which helps to control the movement speed and stability.
[0092] For example, the spacing between the inner walls of the first support member 14 is smaller than the spacing between the outer walls of the second support member 223.
[0093] When the second support 223 is inserted between the first support 14, a slight interference fit is generated, forming a uniform clamping force to provide moderate damping force, so that the user can feel a smooth and responsive feel when operating manually. This is suitable for electronic devices, such as laptop docking, and needs to balance user experience and reliability.
[0094] In some embodiments, such as Figure 1 and Figure 6 As shown, the target connector 20 includes a metal terminal, and the target connection part 12 is a metal point integrated on the surface of the base 10. In the second position, the metal terminal and the metal point are in contact and connected.
[0095] Understandably, in order to establish a conduction path in the second pose of the target connector 20, so as to realize the electrical signal transmission between the target connector 20 and the target connection part 12.
[0096] Metal terminals, as the main conductive components, are conductive elements installed on the target connector 20. They are usually made of materials with good conductivity and elasticity, such as copper alloys, phosphor bronze, and beryllium copper.
[0097] Metal points are conductive areas set on the surface of the base 10, such as gold-plated pads on a PCB, contacts on an FPC, metal sheets, etc. In the second position, the target connector 20 is in the working state, with one end of the metal terminal protruding and the other end establishing stable contact with the metal point.
[0098] For example, the metal terminal is long and narrow. When the target connector 20 rotates to the second position, one end of the metal terminal extends out of the base 10 and contacts the external device. During the rotation of the target connector 20, the other end contacts the metal point to achieve conduction.
[0099] The target connector includes a first connector and a second connector. A metal terminal can serve as the first connector, partially covered by the second connector. The second connector provides fixed support for the metal terminal and allows for rotatable connection with the base. The metal terminal is a long strip of metal with the second connector extending from both ends. A hollow mounting hole is provided in the middle section. Correspondingly, the second connector has a locking block. By inserting the locking block into the mounting hole of the metal terminal, the metal terminal is fixed to the second connector.
[0100] The circuit may include four metal terminals arranged in parallel with spacing. Terminal one can serve as a power pin, acting as a power bus for transmitting power. Terminal two can serve as a data receive pin, used to receive data from other external or expansion devices. Terminal three can serve as a data transmit pin, opposite the data receive pin, used to transmit data to other external or expansion devices. Terminal four can serve as a ground pin, providing a potential reference point for all paths in the circuit. This helps ensure that all components connected to this ground have a common voltage reference point and helps protect the circuit from electrostatic discharge and other potential damage.
[0101] Secondly, such as Figure 8As shown, this disclosure proposes an electronic device, including: a housing 50 and a connecting component, the connecting component being disposed on the side of the housing 50 for contacting a bearing surface;
[0102] The connecting component includes: a base 10 having a receiving space 11, the base 10 being provided with a target connection portion 12, the target connection portion 12 being disposed in the receiving space 11;
[0103] The target connector 20 is disposed in the receiving space 11 and movably connected to the base 10, so that the target connector 20 has a first position and a second position.
[0104] In the first position, the target connector 20 is placed in the receiving space 11 and is in a non-contact state with the target connector 12;
[0105] In the second position, the target connector 20 extends out of the receiving space 11 and is in contact with the target connector 12;
[0106] In the second pose, the electronic device can be electrically connected to the extended electronic device via the connection component.
[0107] Understandably, electronic devices can be laptops, tablets, etc., which connect to docking stations or other peripherals via physical interfaces for electrical connection and data transmission. This disclosure provides a retractable connection component integrated into the electronic device, which can protect the connector from external environmental influences when not in use.
[0108] The housing 50 can be the outer shell of a laptop or tablet computer; the connecting component is located at the bottom of the housing 50, i.e. the side that contacts the support surface (such as a desktop).
[0109] In the first position, the target connector 20 is completely contained within the receiving space 11 and is in a non-contact state with the target connector 12;
[0110] In this state, the target connector 20 is protected from the intrusion of external contaminants such as dust and moisture and avoids contact with the bearing surface, and does not have to bear the pressure of electronic equipment.
[0111] like Figure 9 As shown, in the second position, the target connector 20 extends from the receiving space 11 and establishes an electrical connection with the target connector 12;
[0112] The extended portion of the target connector 20 can interface with external extended electronic devices (such as a docking station) to enable functions such as power supply or data transmission.
[0113] The base 10 can be a standalone structure or integrated into the housing 50 of the electronic device.
[0114] The target connection part 12 can be a metal contact, PCB pad or other form of conductive structure. The target connector 20 includes, but is not limited to, metal terminals, pogo pins, etc. In the second position, the target connector 20 not only establishes an electrical connection with the target connection part 12, but can also further dock with the corresponding interface on the external device. The target connector 20 can move relative to the base 10 by sliding, rotating, swinging or other means. The movement process can be manually triggered.
[0115] For example, when a laptop is placed on top of the docking station, the user can manually rotate the target connector 20 and align it with the corresponding interface on the docking station to achieve simultaneous connection of multiple functions such as USB, HDMI, and power.
[0116] In electronic devices integrating connecting components, the target connector 20 is housed within the receiving space 11 when not in use, reducing exposure time and lowering the risk of damage due to friction, oxidation, and other factors. Furthermore, it avoids the risk of deformation due to bearing the weight of the electronic device, thus extending its service life. The above description is merely a specific embodiment of this application, but the scope of protection of this application is not limited thereto. Any variations or substitutions that can be easily conceived by those skilled in the art within the scope of the technology disclosed in this application should be included within the scope of protection of this application. Therefore, the scope of protection of this application should be determined by the scope of the claims.
Claims
1. A connection assembly, characterized in that include: A base having a receiving space, the base being provided with a target connection part, the target connection part being disposed in the receiving space; A target connector is disposed in the receiving space and movably connected to the base, so that the target connector has a first position and a second position. In the first position, the target connector is placed in the receiving space and is in a non-contact state with the target connection part; In the second position, the target connector extends out of the receiving space and is in contact with the target connection portion.
2. The connection assembly of claim 1, wherein, The target connector includes: The first connector has a first end and a second end arranged opposite to each other in the direction of extension; The second connector is sleeved on the outside of the first connector, and the first end and the second end of the first connector extend out of the second connector; The second connector drives the first connector to rotate relative to the base to switch between the first position and the second position. In the second position, the first connector forms a predetermined angle with the base surface, and the second end contacts the target connection portion.
3. The connection assembly of claim 2, wherein, The second connector includes: An abutting portion is provided at the end of the second connector near the second end of the first connector; In the second position, the first connector forms a target angle with the base surface, and the abutting portion abuts against the base surface.
4. The connecting component according to claim 2, characterized in that, The base includes a base plate and two first support members, which are spaced apart and disposed opposite to each other on the base plate to form the receiving space. The target connection portion is disposed on the side of the base plate facing the target connection member. The second connector includes a connector body, the two sides of which are rotatably connected to the inner sidewalls of the two first supports, so as to realize the reciprocating switching between the first pose and the second pose.
5. The connection assembly of claim 4, wherein, The second connector also includes: The second support member is disposed on both sides of the connector body, and extends along the length direction of the connector body with a gap between them. The two ends of the second support member are a fixed end and a free end, respectively. The fixed end is connected to one end of the connector body, and the free end extends away from the fixed end along the length direction of the second support member. The second support member is movably connected to the first support member through the free end.
6. The connecting component according to claim 5, characterized in that, The free end of the second support member is movably connected to the first support member through a mating structure; The mating structure includes a first mating portion disposed on the first support member and a second mating portion disposed on the free end.
7. The connecting component according to claim 6, characterized in that, The first mating part includes a groove structure disposed on the first support member; The second mating part includes a protrusion structure disposed at the free end, the protrusion being embedded in the groove structure so that the free end is connected to the first support member at the corresponding position.
8. The connecting component according to claim 5, characterized in that, The spacing between the inner sidewalls of the two first support members is smaller than the spacing between the outer sidewalls of the two second support members, so that when the second connector is installed with the base, the second support member is subjected to the clamping force of the first support member, thereby forming a damping force.
9. The connection component according to claim 1, characterized in that, The target connector includes a metal terminal, and the target connection part is a metal point integrated on the surface of the base. In the second position, the metal terminal and the metal point are in contact and connected.
10. An electronic device, comprising: include: A housing and a connecting assembly, the connecting assembly being disposed on the side of the housing for contacting the bearing surface; The connecting component includes: a base having a receiving space, the base being provided with a target connecting portion, the target connecting portion being disposed in the receiving space; A target connector is disposed in the receiving space and movably connected to the base, so that the target connector has a first position and a second position. In the first position, the target connector is placed in the receiving space and is in a non-contact state with the target connection part; In the second position, the target connector extends out of the receiving space and is in contact with the target connection portion; In the second pose, the electronic device is electrically connected to the extended electronic device via the connection component.