An RGB gaming dock

By introducing a stand and synchronized lighting components into the game dock, the issues of device fixation and lighting synchronization were resolved, improving the stability and immersion of the gaming experience.

CN224458877UActive Publication Date: 2026-07-03SHENZHEN VELOCITY TECH INNOVATIONS CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SHENZHEN VELOCITY TECH INNOVATIONS CO LTD
Filing Date
2025-07-14
Publication Date
2026-07-03

AI Technical Summary

Technical Problem

Existing gaming docks lack effective support structures, making it impossible to fix electronic devices at the optimal viewing angle, and the lighting design cannot change in sync with the video signal, reducing the immersiveness and visual interactivity of the gaming experience.

Method used

An RGB gaming docking station was designed, comprising a base, a bracket, and lighting components. The bracket forms a fixed space through rotating components and a rotating plate to support electronic devices, and the light color of the lighting components is controlled by a circuit board to change synchronously with the video signal.

Benefits of technology

It achieves stable fixation of electronic devices and enhances the visual experience, with lighting and video signals changing synchronously, thereby enhancing the immersion and visual interactivity of the game scene.

✦ Generated by Eureka AI based on patent content.

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    Figure CN224458877U_ABST
Patent Text Reader

Abstract

An RGB gaming docking station includes: a base integrally formed with a contact portion and a fixing portion, and a functional portion located on the side of the fixing portion away from the contact portion and having a circuit board integrated therein; a bracket rotatably connected to the fixing portion and housed between the contact portion and the functional portion, the bracket including a rotating member rotatably connected at one end to the fixing portion and a rotating plate rotatably connected to the other end of the rotating member; and an illumination component fixedly connected to the base and located on the side of the base away from the bracket and surrounding the base; wherein the rotating member rotates around the fixing portion, and when the rotating member abuts against the functional portion, the rotating plate rotates around the rotating member and abuts against the functional portion, a fixed space is formed between the contact portion, the rotating member, and the rotating plate, and the functional portion is signal-connected to the illumination component to adjust the light color of the illumination component.
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Description

Technical Field

[0001] This utility model relates to the field of audio-visual digital equipment, and in particular to an RGB gaming docking station. Background Technology

[0002] A gaming dock is an expansion device designed specifically for game consoles or PCs. It provides a wide range of interface connections, signal conversion, and peripheral expansion capabilities to enhance the user's gaming experience. Existing gaming docks typically come with a mounting bracket to support the console or monitor and integrate modules for video signal transmission, charging, and data transmission.

[0003] Currently, most docking stations on the market lack a support structure, instead functioning as independent external connection devices. Therefore, when connecting electronic devices such as game consoles or tablets to the docking station, the devices must be placed on a table or held in hand. When placed on a surface like a table, the game console screen cannot be positioned at a optimal viewing angle, and when held in hand, hand fatigue reduces the user experience. Furthermore, most docking stations lack lighting, and even those with lighting are often static monochrome or preset RGB cycling patterns, failing to synchronize with the real-time color changes of the video signal. This deficiency prevents the device from enhancing the immersive experience of games or movies through lighting, weakening the user's interactive visual experience.

[0004] Therefore, it is necessary to provide an RGB gaming docking station that can effectively support electronic devices and enhance the visual experience. Utility Model Content

[0005] The purpose of this invention is to provide an RGB gaming docking station that can effectively fix and support electronic devices and enhance the visual experience.

[0006] According to one aspect of this application, an RGB gaming docking station is provided, the docking station comprising:

[0007] The substrate has an integrally formed a contact portion, an integrally formed fixing portion, and a functional portion located on the side of the fixing portion away from the contact portion and having a circuit board integrated inside.

[0008] A bracket is rotatably connected to the fixed part and housed between the abutting part and the functional part. The bracket includes a rotating member rotatably connected to the fixed part at one end and a rotating plate rotatably connected to the other end of the rotating member.

[0009] The lighting element is fixedly connected to the base and located on the side of the base away from the bracket;

[0010] The rotating member rotates around the fixed part, and when the rotating member abuts against the functional part, the rotating plate rotates around the rotating member and abuts against the functional part. A fixed space is formed between the abutting part, the rotating member, and the rotating plate. The functional part is signal-connected to the lighting element to adjust the light color of the lighting element.

[0011] More preferably, the docking station also includes:

[0012] A cover plate is fixedly connected to the lighting element and is located on the side of the lighting element away from the base.

[0013] A base is fixedly connected to the cover plate, and the base is located on the side of the cover plate away from the lighting element.

[0014] More preferably, the lighting element is plate-shaped, and when viewed along a direction perpendicular to the plate surface of the lighting element, the lighting element further includes:

[0015] An ambient light is fixedly connected to the lighting component and surrounds the side of the lighting component;

[0016] A heat dissipation section is formed on the inner side of the ambient light on the lighting element;

[0017] The ambient light is electrically connected to the functional unit and emits light to the side of the ambient light that is away from the heat dissipation unit.

[0018] More preferably, one side surface of the functional part is referred to as the first surface, and the first surface is located on the side of the functional part opposite to the fixing part.

[0019] More preferably, when viewed along a direction perpendicular to the first surface, the functional unit includes:

[0020] A network interface is fixedly connected to the functional unit;

[0021] The first USB interface is fixedly connected to the functional unit and is arranged side by side with the network interface;

[0022] The second USB interface is fixedly connected to the functional unit and is located on the side of the first USB interface that is away from the network interface.

[0023] An audio interface is fixedly connected to the functional unit and is located on the side of the second USB interface opposite to the first USB interface.

[0024] More preferably, the functional unit further includes:

[0025] The third USB interface is fixedly connected to the functional unit;

[0026] The first USB interface is fixedly connected to the functional unit and is arranged side by side with the third USB interface;

[0027] The video interface is fixedly connected to the functional unit and is located on the side of the first USB interface that is away from the third USB interface.

[0028] The power interface is fixedly connected to the functional unit and is located on the side of the video interface opposite to the first USC interface;

[0029] The second USC interface is fixedly connected to the functional unit and is located on the side of the power interface away from the video interface.

[0030] More preferably, when viewed perpendicular to the first surface, the network interface, the first USB interface, the second USB interface, and the audio interface are respectively arranged opposite to the first USB interface, the video interface, the power interface, and the second USB interface in the vertical direction.

[0031] More preferably, the functional part is also fixedly connected to a card insertion part and a fourth USB interface, the card insertion part and the fourth USB interface being located on two sides connected to the first surface and the lighting element, respectively;

[0032] The functional unit also includes a mode switching key, which is fixedly connected to the functional unit and located on the side of the functional unit away from the lighting element.

[0033] More preferably, the docking station also includes:

[0034] The first circuit board is fixedly connected inside the functional unit;

[0035] The second circuit board is fixedly connected inside the functional part and is arranged parallel to the first circuit board, and is located on the side of the first circuit board away from the lighting element.

[0036] Even better,

[0037] The network interface, the first USB interface, the second USB interface, the audio interface, and the card slot are respectively electrically connected to the first circuit board;

[0038] The third USB interface, the first USB interface, the video interface, the power interface, the second USB interface, the fourth USB interface, and the mode switch button are electrically connected to the second circuit board.

[0039] This utility model has the following beneficial effects:

[0040] After the rotating component and rotating plate in the bracket rotate, a fixed space is formed between the abutment part, the rotating component, and the rotating plate, allowing the docking station to place the connected electronic devices in the fixed space and effectively fix and support the electronic devices. Furthermore, the docking station enhances its visual experience by employing a functional unit with an integrated circuit board that is signal-connected to the lighting component, and the light color of the lighting component can be adjusted according to the signal from the circuit board. Attached Figure Description

[0041] To more clearly illustrate the technical solutions in the embodiments of this application or the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below. Obviously, the drawings described below are only some embodiments of this application. For those skilled in the art, other drawings can be obtained from these drawings without creative effort.

[0042] Figure 1 This is a three-dimensional structural diagram of the expansion dock described in one embodiment of this application;

[0043] Figure 2 This is an exploded view of the expansion dock described in one embodiment of this application;

[0044] Figure 3 This is a schematic diagram of the planar structure of the first circuit board and the second circuit board in the expansion dock according to one embodiment of this application;

[0045] Figure 4 This is a three-dimensional structural diagram of the support frame of the expansion dock described in one embodiment of this application when it is opened;

[0046] Figure 5 This is a schematic diagram of the planar structure of the expansion dock described in one embodiment of this application when the bracket is retracted;

[0047] Figure 6 This is a schematic diagram of the planar structure of the support frame of the expansion dock described in one embodiment of this application when it is unfolded.

[0048] Figure 7 This is a schematic diagram of the planar structure of the lighting element in the expansion dock according to one embodiment of this application;

[0049] Reference numerals: 100, Dock; 10, Base; 11, Contact part; 12, Fixing part; 13, Functional part; 13A, Network interface; 13B, First USB interface; 13C, Second USB interface; 13D, Audio interface; 13E, Third USB interface; 13F, First USB interface; 13G, Video interface; 13H, Power interface; 13I, Second USB interface; 13J, Card slot; 13K, Fourth USB interface; 13L, Mode switch button; 20, Stand; 21, Rotating component; 22, Rotating plate; 30, Illumination component; 31, Ambient light; 32, Heat dissipation part; 40, Fixing space; 50, Cover plate; 51, Base; 60, First circuit board; 70, Second circuit board; S1, First surface. Detailed Implementation

[0050] To facilitate understanding of this application, a more complete description will be provided below with reference to the accompanying drawings. Preferred embodiments of this application are shown in the drawings. However, this application can be implemented in many different forms and is not limited to the embodiments described herein. Rather, these embodiments are provided to provide a more thorough and complete understanding of the disclosure of this application.

[0051] It should be noted that when a component is said to be "fixed to" another component, it can be directly attached to the other component or there may be an intervening component. When a component is said to be "connected to" another component, it can be directly connected to the other component or there may be an intervening component. The terms "vertical," "horizontal," "left," "right," and similar expressions used in this document are for illustrative purposes only.

[0052] Unless otherwise defined, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs. The terminology used herein in the specification of this application is for the purpose of describing particular embodiments only and is not intended to be limiting of the application. The term "and / or" as used herein includes any and all combinations of one or more of the associated listed items.

[0053] Please refer to Figure 1 - Figure 7 One embodiment of this application provides an RGB gaming docking station 100, which includes a base 10, a bracket 20, and a lighting element 30.

[0054] The base 10 integrally forms an abutment portion 11, a fixing portion 12, and a functional portion 13 located on the side of the fixing portion 12 opposite to the abutment portion 11, and internally integrates a circuit board. The bracket 20 is rotatably connected to the fixing portion 12 and housed between the abutment portion 11 and the functional portion 13. The bracket 20 includes a rotating member 21 rotatably connected at one end to the fixing portion 12, and a rotating plate 22 rotatably connected to the other end of the rotating member 21. The lighting element 30 is fixedly connected to the base 10 and located on the side of the base 10 opposite to the bracket 20. When the rotating member 21 rotates around the fixed part 12 and abuts against the functional part 13, the rotating plate 22 rotates around the rotating member 21 and abuts against the functional part 13. A fixed space 40 is formed between the abutting part 11, the rotating member 21 and the rotating plate 22. The functional part 13 is signal connected to the lighting element 30 to adjust the light color of the lighting element 30.

[0055] The base 10 is manufactured using a one-piece molding process, and two parallel circuit boards 60 and 70 are embedded inside for integrating various interfaces on the docking station 100. The fixing part 12 is connected to one end of the rotating member 21 of the bracket 20 via a shaft, serving as the first rotation fulcrum for circumferentially rotating the rotating member 21 along this shaft. The rotation angle is between 90° and 180°, and the rotation is limited by the rotating member 21 abutting against one side of the functional part 13. Furthermore, a certain tension is pre-set between the fixing part 12 and the rotating member 21 to prevent loosening of the rotational connection between them and to balance the tactile feel of rotation. A rotating plate 22 is shaft-connected to the other end of the rotating component 21 away from the fixed part 12. The connection end between the two serves as a second rotation fulcrum, used to rotate the rotating plate 22 circumferentially along the shaft. The rotation angle is 360°, allowing the surface of the rotating plate 22 to abut against the two side surfaces of the rotating component 21, thereby accommodating the entire bracket 20. A certain angle is also rotated so that the rotating plate 22 abuts against the surface of the functional part 13, thus forming a two-point support and allowing the electronic device to be placed and fixed in the fixed space 40 formed by the abutment part 11, the bracket 20, and the base 10. In addition, a certain tension is preset between the connection points of the rotating component 21 and the rotating plate 22 to balance anti-loosening and rotation feel, improving the user experience and the placement stability of the docking station 100. On the other end of the functional section 13 of the expansion dock 100, away from the bracket 20, a lighting element 30 is snapped on. The lighting element 30 is plate-shaped with a housing surrounded by built-in LED beads. The RGB LED beads are analyzed in real time by the circuit board to extract the main color tone of the screen through the video signal received through the interface. The circuit board controls the lighting element 30 to dynamically change the color in real time according to the main color tone of the screen, so as to achieve the effect of synchronizing the light with the main color tone of the screen. This lighting atmosphere design not only greatly enhances the atmosphere of the usage site, but also provides users with an immersive visual experience.

[0056] More preferably, the docking station 100 also includes a cover plate 50.

[0057] The cover plate 50 is fixedly connected to the lighting element 30 and is located on the side of the lighting element 30 away from the base 10. A base 51 is fixedly connected to the cover plate 50 and is located on the side of the cover plate 50 away from the lighting element 30.

[0058] The cover plate 50 is located on the outside of the lighting element 30, isolating the internal structure of the docking station 100 from the outside environment. The cover plate 50 is also fixedly connected to the lighting element 30 by a snap-fit ​​mechanism, and the gaps between the snap-fit ​​points are very small, effectively preventing dust and moisture. A base 51 is provided at each of the four corners of the square cover plate 50. The base 51 is used to directly prevent contact with the structural surface of the docking station 100. The base 51 is made of rubber, effectively increasing friction and preventing the docking station 100 from sliding on the contact surface. The non-rigid base 51 also provides a certain amount of cushioning to support the docking station 100.

[0059] More preferably, the lighting element 30 is plate-shaped. When viewed along a direction perpendicular to the plate surface of the lighting element 30, the lighting element 30 further includes an ambient light 31 and a heat dissipation part 32.

[0060] The ambient light 31 is fixedly connected to the lighting element 30 and surrounds the side of the lighting element 30. The heat dissipation part 32 is formed on the inner side of the ambient light 31 on the lighting element 30. The ambient light 31 is electrically connected to the functional part 13 and emits light to the side of the ambient light 31 opposite to the heat dissipation part 32.

[0061] The ambient light 31 consists of an acrylic translucent lampshade and a flexible light strip. The flexible light strip is electrically connected to the circuit board built into the functional unit 13 to achieve power supply and lighting control. The light emitted by the LED beads on the light strip is projected outward through the translucent lampshade. In addition to protecting the internal light strip, the translucent lampshade can also eliminate light spots on the lampshade by the gap between the lampshade and the light source. This ensures that when the light is viewed from outside the docking station 100, it is a continuous, clear, and sufficiently bright light, improving the user's viewing experience.

[0062] More preferably, one side surface of the functional part 13 is designated as the first surface S1, and the first surface S1 is located on the side of the functional part 13 opposite to the fixing part 12.

[0063] The fixing part 12 is located within a recessed structure on the base 10 of the docking station 100. Therefore, when the first surface S1 is aligned with the fixing part 12, it indicates that the first surface S1 is an outer surface of the docking station 100. Integrating numerous interfaces on the outer first surface S1 facilitates cable plugging and unplugging for users and allows users to intuitively observe each interface, thus improving ease of use.

[0064] More preferably, when viewed along a direction perpendicular to the first surface S1, the functional unit 13 includes: a network interface 13A, a first USB interface 13B, a second USB interface 13C, and an audio interface 13D.

[0065] The network interface 13A is fixedly connected to the functional unit 13. The first USB interface 13B is fixedly connected to the functional unit 13 and is arranged side by side with the network interface 13A. The second USB interface 13C is fixedly connected to the functional unit 13 and is located on the side of the first USB interface 13B opposite to the network interface 13A. The audio interface 13D is fixedly connected to the functional unit 13 and is located on the side of the second USB interface 13C opposite to the first USB interface 13B.

[0066] Viewed from the first surface S1, these interfaces are arranged in a row on the first surface S1, near the bottom. Network interface 13A is an RJ45 type interface with a transmission rate of up to 1000Mbps. The first USB interface 13B and the second USB interface 13C are both the most common rectangular Type-A interfaces, and are the third generation. The maximum transmission rate of the first USB interface 13B and the second USB interface 13C can reach 5Gbps, and they are commonly used to connect computers, chargers, and peripherals such as USB flash drives, external hard drives, or mice. Audio interface 13D is a 3.5mm slot for connecting 3.5mm audio cables. 3.5mm audio cables are widely used audio transmission cables; their core function is to connect audio devices such as mobile phones, computers, headphones, and speakers through a 3.5mm diameter plug to achieve sound signal transmission. The network interface 13A, the first USB interface 13B, and the second USB interface 13C are arranged side-by-side to form a high-speed data transmission area. This layout allows users to simultaneously connect network cables and USB storage devices, such as external hard drives, meeting the high-frequency combination requirements of network and peripherals in gaming scenarios for the docking station 100. The design of the audio interface 13D integrates a multimedia interaction area onto the functional unit 13. Arranging the USB interface and audio interface 13D adjacent to each other satisfies the centralized management habits of most gamers' audio devices.

[0067] More preferably, the functional unit 13 further includes: a third USB interface, a first USC interface, a video interface 13G, a power interface 13H, and a second USC interface 13I.

[0068] The third USB interface is fixedly connected to the functional unit 13. The first USB interface is fixedly connected to the functional unit 13 and is arranged side by side with the third USB interface. The video interface 13G is fixedly connected to the functional unit 13 and is located on the side of the first USB interface opposite to the third USB interface. The power interface 13H is fixedly connected to the functional unit 13 and is located on the side of the video interface 13G opposite to the first USB interface. The second USB interface 13I is fixedly connected to the functional unit 13 and is located on the side of the power interface 13H opposite to the video interface 13G.

[0069] These interfaces are located on the second row above the first row on the first surface S1. The third USB interface is a Type-A interface, version 3.2, with a transmission rate of up to 10Gbps. The first USB-C interface is an oval-shaped Type-C interface, version 3.2, with a transmission rate of up to 10Gbps. The video interface 13G uses the latest HDMI 2.1 standard, supporting higher bandwidth and some new features. The video interface 13G can simultaneously output 4K resolution and 144Hz refresh rate video. The power interface 13H supports fast charging protocols and can receive a maximum input power of 100 watts, ensuring the normal operation of the docking station 100 and avoiding insufficient power supply. The second USB-C interface 13I is a Type-C physical interface, which can directly connect to the host, supporting bidirectional power supply, high-speed data transmission, and multi-functional expansion. The two USB-C interfaces are located on both sides of the power supply, forming a symmetrical power supply system for the docking station 100, supporting simultaneous fast charging and connection of multiple devices. In addition, the second row also has an HDMI video signal interface and a power interface 13H for supplying power to the docking station 100. The spacing between the interfaces on the second row is reasonably designed to accommodate plugs with larger external extension volumes while ensuring sufficient space between each plug for plugging and unplugging operations.

[0070] More preferably, when viewed perpendicular to the first surface S1, the network interface 13A, the first USB interface 13B, the second USB interface 13C, and the audio interface 13D are respectively arranged opposite to the first USB interface, the video interface 13G, the power interface 13H, and the second USB interface 13I in the vertical direction.

[0071] By vertically corresponding the network interface 13A with the first USC interface, the first USB interface 13B with the video interface 13G, etc., the first row of interfaces and the second row of interfaces on the functional unit 13 are formed. This makes reasonable use of the space on the functional unit 13, ensures the spacing between adjacent interfaces, and avoids messy wiring and troublesome plugging and unplugging caused by the congestion of interfaces in the limited space on the functional unit 13.

[0072] More preferably, the functional unit 13 is further fixedly connected to a card slot 13J and a fourth USB interface 13K, the card slot 13J and the fourth USB interface 13K being located on two sides connected to the first surface S1 and the lighting element 30, respectively. The functional unit 13 also includes a mode switching key 13L, which is fixedly connected to the functional unit 13 and located on the side of the functional unit 13 opposite to the lighting element 30.

[0073] The card slot 13J includes slots for TF and SD cards, located on the left side of the docking station 100 facing the first surface S1. The fourth USB port 13K is a Type-A USB 2.0 port, located on the right side of the docking station 100 facing the first surface S1. No other ports are located on this side. The fourth USB port 13K serves as an additional USB port to avoid the problem of insufficient USB ports on the docking station 100 due to the prevalence of USB ports on peripherals. The mode switch button 13L is located on the top of the docking station 100, closer to the functional section 13. Positioning the mode switch button 13L on the top makes it easier to press, improving ease of use.

[0074] More preferably, the docking station 100 further includes a first circuit board 60 and a second circuit board 70.

[0075] The first circuit board 60 is fixedly connected to the interior of the functional unit 13. The second circuit board 70 is fixedly connected to the interior of the functional unit 13, and is arranged parallel to the first circuit board 60, and is located on the side of the first circuit board 60 that is away from the lighting element 30.

[0076] The use of two circuit boards, each integrating different interfaces, effectively avoids overloading a single circuit board by integrating too many interfaces, which could lead to short circuits and other problems. Furthermore, the dual-circuit design optimizes the internal heat dissipation of the docking station 100, preventing excessive heat concentration.

[0077] More preferably, the network interface 13A, the first USB interface 13B, the second USB interface 13C, the audio interface 13D, and the card slot 13J are electrically connected to the first circuit board 60. The third USB interface, the first USB interface, the video interface 13G, the power interface 13H, the second USB interface 13I, the fourth USB interface 13K, and the mode switch button 13L are electrically connected to the second circuit board 70.

[0078] The first circuit board 60 primarily houses low-frequency signal interfaces such as the audio interface 13D and the USB interface, avoiding crosstalk from other high-frequency signals. The second circuit board 70, on the other hand, houses a high-frequency interface, the video interface 13G, and also integrates a high-power interface, the power interface 13H. The placement of both the video interface 13G and the mode switch button 13L on the second circuit board 70 allows for more efficient signal transmission between the two interfaces, reducing response delays during mode adjustment.

[0079] Therefore, by rotating the rotating member 21 and the rotating plate 22 in the bracket 20 respectively, a fixed space 40 is formed between the abutment part 11, the rotating member 21, and the rotating plate 22, allowing the docking station 100 to place the connected electronic device in the fixed space 40, effectively fixing and supporting the electronic device. Furthermore, the functional part 13, which integrates a circuit board, is signal-connected to the lighting element 30, and the light color of the lighting element 30 can be adjusted according to the signal from the circuit board, enhancing the visual experience of the docking station 100.

[0080] The embodiments described above are merely examples of several implementation methods of this application, and while the descriptions are specific and detailed, they should not be construed as limiting the scope of this patent application. It should be noted that those skilled in the art can make various modifications and improvements without departing from the concept of this application, and these modifications and improvements all fall within the protection scope of this application.

Claims

1. An RGB gaming docking station, characterized in that, The expansion dock includes: The substrate has an integrally formed a contact portion, an integrally formed fixing portion, and a functional portion located on the side of the fixing portion away from the contact portion, and having a circuit board integrated inside. A bracket is rotatably connected to the fixed part and housed between the abutting part and the functional part. The bracket includes a rotating member rotatably connected to the fixed part at one end and a rotating plate rotatably connected to the other end of the rotating member. The lighting element is fixedly connected to the base and located on the side of the base away from the bracket; The rotating member rotates around the fixed part, and when the rotating member abuts against the functional part, the rotating plate rotates around the rotating member and abuts against the functional part. A fixed space is formed between the abutting part, the rotating member, and the rotating plate. The functional part is signal-connected to the lighting element to adjust the light color of the lighting element.

2. The RGB gaming docking station according to claim 1, characterized in that, The expansion dock also includes: A cover plate is fixedly connected to the lighting element and is located on the side of the lighting element away from the base. A base is fixedly connected to the cover plate, and the base is located on the side of the cover plate away from the lighting element.

3. The RGB gaming docking station according to claim 1, characterized in that, The lighting element is plate-shaped. When viewed along a direction perpendicular to the plate surface of the lighting element, the lighting element further includes: An ambient light is fixedly connected to the lighting component and surrounds the side of the lighting component; A heat dissipation section is formed on the inner side of the ambient light on the lighting element; The ambient light is electrically connected to the functional unit and emits light to the side of the ambient light that is away from the heat dissipation unit.

4. An RGB gaming docking station according to claim 3, characterized in that, One side surface of the functional part is referred to as the first surface, and the first surface is located on the side of the functional part away from the fixing part.

5. An RGB gaming docking station according to claim 4, characterized in that, Viewed along a direction perpendicular to the first surface, the functional unit includes: A network interface is fixedly connected to the functional unit; The first USB interface is fixedly connected to the functional unit and is arranged side by side with the network interface; The second USB interface is fixedly connected to the functional unit and is located on the side of the first USB interface that is away from the network interface. An audio interface is fixedly connected to the functional unit and is located on the side of the second USB interface opposite to the first USB interface.

6. An RGB gaming docking station according to claim 5, characterized in that, The functional unit also includes: The third USB interface is fixedly connected to the functional unit; The first USB interface is fixedly connected to the functional unit and is arranged side by side with the third USB interface; The video interface is fixedly connected to the functional unit and is located on the side of the first USB interface that is away from the third USB interface. The power interface is fixedly connected to the functional unit and is located on the side of the video interface opposite to the first USC interface; The second USC interface is fixedly connected to the functional unit and is located on the side of the power interface away from the video interface.

7. An RGB gaming docking station according to claim 6, characterized in that, Viewed perpendicular to the first surface, the network interface, the first USB interface, the second USB interface, and the audio interface are respectively arranged opposite to the first USB interface, the video interface, the power interface, and the second USB interface in the vertical direction.

8. An RGB gaming docking station according to claim 7, characterized in that, The functional unit is also fixedly connected to a card insertion part and a fourth USB interface, the card insertion part and the fourth USB interface being located on two sides connected to the first surface and the lighting element, respectively; The functional unit also includes a mode switching key, which is fixedly connected to the functional unit and located on the side of the functional unit away from the lighting element.

9. An RGB gaming docking station according to claim 8, characterized in that, The expansion dock also includes: The first circuit board is fixedly connected inside the functional unit; The second circuit board is fixedly connected inside the functional part and is arranged parallel to the first circuit board, and is located on the side of the first circuit board away from the lighting element.

10. An RGB gaming docking station according to claim 9, characterized in that, The network interface, the first USB interface, the second USB interface, the audio interface, and the card slot are respectively electrically connected to the first circuit board; The third USB interface, the first USB interface, the video interface, the power interface, the second USB interface, the fourth USB interface, and the mode switch button are electrically connected to the second circuit board.