A wire set capable of being hidden

By incorporating a winding and damping structure, the design solves the problems of messy and easily damaged/lost data cables after charging, enabling concealed storage and quick access to the data cables, thus improving the user experience.

CN224336959UActive Publication Date: 2026-06-09FAN GAO LE TRADE (SHENZHEN) CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
FAN GAO LE TRADE (SHENZHEN) CO LTD
Filing Date
2025-08-18
Publication Date
2026-06-09

AI Technical Summary

Technical Problem

In existing technologies, data cables are usually left lying around after charging, resulting in a cluttered desktop and easy damage or loss.

Method used

The design employs a combination of a winding structure and a damping structure. The winding structure locks the middle of the data cable, while the damping structure prevents the data cable from loosening. Combined with the design of the snap-fit ​​channel and limiting components, the data cable can be hidden and stored.

Benefits of technology

It enables quick storage and retrieval of data cables, avoiding desktop clutter, preventing power cord damage or loss, and improving the user experience.

✦ Generated by Eureka AI based on patent content.

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Abstract

This utility model relates to the technical field of concealable cable storage kits, and discloses a concealable cable storage kit, comprising: two reels; a winding structure disposed between the two reels for connecting the two reels, wherein the data cable is wound around the winding structure, and the winding structure is provided with a locking channel for locking any position of the wire portion of the data cable; and a damping structure disposed on the reels and extending towards the opposite reels, wherein a receiving space is formed between the damping structure and the winding structure for accommodating the wound data cable. This utility model allows users to quickly find and easily retrieve the data cable when needed, or to completely store it inside the device when not in use, not only avoiding desktop clutter but also effectively preventing damage or loss of the power cord.
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Description

Technical Field

[0001] This utility model relates to the technical field of concealable cable storage sets, specifically a concealable cable storage set. Background Technology

[0002] The primary function of a data cable is to connect mobile devices and phones, enabling data transfer and charging. It typically consists of a single wire with USB or Type-C connectors at both ends. In short, it's a pathway and tool for connecting phones and mobile devices to transfer files such as videos, ringtones, and pictures, as well as for power supply.

[0003] In existing technologies, with the increasing frequency of mobile phone use, when the phone battery is depleted, people usually charge it directly with a power cord. However, after charging, the power cord is often left lying around on the table, which not only makes the table look cluttered but also makes the power cord prone to damage or loss. To effectively solve this problem, we propose a concealable cable management kit. Utility Model Content

[0004] This utility model provides a concealable cable management kit that uses a combination of a winding structure and a damping structure to store or limit data cables, solving the problems mentioned in the background art of a cluttered desktop and the easy damage or loss of power cables.

[0005] This utility model provides the following technical solution:

[0006] A concealable cable storage kit includes: two reels; a winding structure disposed between the two reels for connecting the two reels, wherein a data cable is wound around the winding structure, and the winding structure is provided with a locking channel for locking any position of the wire portion of the data cable; and a damping structure disposed on the reels and extending towards the opposite reels, wherein a receiving space is formed between the damping structure and the winding structure for accommodating the wound data cable.

[0007] As a preferred technical solution of this utility model, the winding structure includes: a connecting post, which is disposed between two disks and coaxial with the disks, for connecting the two disks; and a limiting member, which is disposed on one of the disks, wherein a locking channel is formed between the limiting member and the connecting post for locking the middle part of the data cable, and the data cable is wound around the connecting post and the limiting member.

[0008] As a preferred embodiment of this utility model, the limiting member is in the shape of an arc-shaped plate or a cylindrical rod.

[0009] As a preferred technical solution of this utility model, a locking block is fixedly connected to one of the discs, and a locking groove is opened on the limiting member or connecting column. When the two discs are fastened together, the locking block engages with the locking groove.

[0010] As a preferred technical solution of this utility model, the damping structure includes limiting blocks, and multiple sets of limiting blocks are arranged circumferentially and equally spaced on the disc body, with the limiting blocks on the two sets of disc bodies being arranged opposite to each other.

[0011] As a preferred embodiment of this utility model, the shape of the limiting block is one of trapezoidal, rectangular, and toothed.

[0012] As a preferred technical solution of this utility model, it also includes an annular piece, and the limiting block is disposed on the annular piece. The annular piece has a locking hole, and a positioning post is fixedly connected to the disc body, with the positioning post passing through the locking hole.

[0013] In a preferred embodiment of this invention, the diameter of the lock hole is smaller than the diameter of the positioning pin.

[0014] As a preferred embodiment of the present invention, the disc body includes a first disc body and a second disc body, wherein the winding structure is disposed on the first disc body or the second disc body, and the damping structure is disposed on the first disc body and / or the second disc body.

[0015] Compared with the prior art, this utility model provides a concealable cable storage kit, which has the following beneficial effects:

[0016] 1. In this concealable cable storage kit, by merging the two ends of the data cable into one end, and then winding the two sets of data cables around the connecting post, the data cable will follow a predetermined spiral path due to the restriction of the curved plate until the data cable is tightly attached to the outer wall of the connecting post, making the data cable storage process simple and quick.

[0017] 2. The cleverly designed limiting block in this concealable cable storage kit effectively controls the bending of the data cable, preventing excessive bending and stretching. This allows users to quickly find and easily retrieve the data cable when needed, or to completely store it inside the device when not in use. This not only avoids clutter on the desktop but also effectively prevents the power cord from being damaged or lost.

[0018] All parts of this device not covered herein are the same as or can be implemented using existing technologies. When users need to use the data cable, they can quickly find and easily take it out, or when not in use, they can be completely stored in the device. This not only avoids clutter on the desktop, but also effectively prevents the power cord from being damaged or lost. Attached Figure Description

[0019] To more clearly illustrate the specific embodiments of this utility model or the technical solutions in the prior art, the accompanying drawings used in the description of the specific embodiments or the prior art will be briefly introduced below. In all the drawings, the elements or parts are not necessarily drawn to actual scale.

[0020] Figure 1 This is a three-dimensional schematic diagram of the present invention;

[0021] Figure 2 This is a schematic diagram of the annular piece of this utility model;

[0022] Figure 3 This is a schematic diagram of the first disc body of the present invention;

[0023] Figure 4 This is a schematic diagram of the second disc body of this utility model.

[0024] In the diagram: 1. First disc; 2. Connecting post; 3. Arc plate; 4. Slot; 5. Positioning post; 6. Second disc; 7. Locking block; 8. Annular piece; 9. Locking hole; 10. Limiting block. Detailed Implementation

[0025] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.

[0026] This utility model proposes a concealable cable storage kit, mainly composed of a first tray 1 and a second tray 6, which is used to store data cables. The main function of the data cable is to connect mobile devices and mobile phones to realize data transmission or charging. In short, it is a channel and tool for connecting mobile phones and mobile devices to transmit video, ringtones, pictures and other files, as well as power supply. With the increasing frequency of mobile phone use, when the mobile phone battery is depleted, people usually charge the mobile phone directly with the power cord. However, after charging, the power cord is often left randomly on the table, which not only makes the table look cluttered, but also makes the power cord easy to be damaged or lost.

[0027] Example:

[0028] Reference Figures 1-4The first disc 1 and the second disc 6 can be combined by a first engaging structure. The first engaging mechanism is mainly composed of a locking block 7 and a locking groove 4. The locking block 7 is fixedly connected to the second disc 6. The locking groove 4 is provided on the limiting member or connecting post 2 on the first disc 1. When the first disc 1 and the second disc 6 are engaged, the locking block 7 engages with the locking groove 4, thereby achieving the engagement effect.

[0029] Specifically, a winding structure is provided between the first disk 1 and the second disk 6, which can be used to wind the data cable. A locking channel is provided on the winding structure to lock any position of the wire portion of the data cable, usually the middle section of the wire, with a length of 1-3cm. The winding structure is mainly composed of a connecting post 2 fixedly connected to the first disk 1, and the connecting post 2 is coaxial with the first disk 1. A limiting member in the shape of an arc plate 3 or a column rod is also provided on the first disk 1. The locking channel is formed between the limiting member and the connecting post 2 to lock the middle part of the data cable. The data cable is wound on the connecting post 2 and the limiting member.

[0030] In the above scheme, when the limiting component is an arc-shaped plate 3, it is set on one side of the connecting post 2 in a semi-enclosed structure, thereby forming a snap-fit ​​channel between the arc-shaped plate 3 and the connecting post 2. The middle part of the data cable can be spirally wound along the snap-fit ​​channel, and both ends of the data cable need to be extended to the outside from the two outlets of the snap-fit ​​channel respectively. During this winding process, the data cable will be fixedly connected between the snap-fit ​​channels. The distance between the arc-shaped plate 3 and the connecting post 2 is less than the diameter of the data cable, that is, the width of the snap-fit ​​channel is less than the diameter of the data cable. For example, the distance between the arc-shaped plate 3 and the connecting post 2 is 5mm, and the diameter of the data cable is 6mm. Therefore, when the data cable is spirally wound along the winding channel, the data cable will be tightly snapped between the arc-shaped plate 3 and the connecting post 2, thereby preventing the data cable from moving or spreading out randomly in the storage cavity.

[0031] When it is necessary to store the data cable, the two ends of the data cable can be combined into one end, and then the two sets of data cables can be wrapped around the connecting post 2. During the wrapping process, due to the restriction of the arc plate 3, the data cable will be wrapped along the predetermined spiral path until the data cable is tightly attached to the outer wall of the connecting post 2, making the data cable storage process simple and quick.

[0032] Specifically, when the limiting component is a cylindrical rod, it is set on one side of the connecting post 2 in the form of a column structure, and a snap-fit ​​channel can be realized between the cylindrical rod and the connecting post 2. Furthermore, the distance between the cylindrical rod and the connecting post 2 is smaller than the diameter of the data cable, so that it can be snapped and wrapped around, thereby preventing the data cable from moving or spreading out randomly in the storage cavity.

[0033] When you need to store the data cable, you can combine the two ends of the data cable into one end, and then wrap the two sets of data cables around the connecting post 2. During the wrapping process, due to the restriction of the post, the data cable will be wrapped along the predetermined spiral path until the data cable is tightly attached to the outer wall of the connecting post 2, making the data cable storage process simple and quick.

[0034] Specifically, in order to limit the data line between the first disk 1 and the second disk 6, a damping structure is provided on one or both of the first disk 1 and the second disk 6. In this embodiment, a damping structure is provided on both, and the damping structure extends in the direction of the opposite disk. A receiving space is formed between the damping structure and the winding structure to receive the wound data line. The damping structure makes the receiving space have a small annular opening to the outside world to prevent the wound data line from coming out of the receiving space after it naturally loosens. That is, the existence of the damping structure means that a certain pulling force needs to be applied to the wound data line in order to remove it from the receiving space.

[0035] Next, taking the example of two discs having damping structures, we will introduce the function of the damping structure. The damping structure includes a limiting block 10. Multiple sets of limiting blocks 10 are arranged equidistantly on the disc, and the limiting blocks 10 on the first disc 1 and the second disc 6 are set opposite to each other.

[0036] To facilitate the installation of the limiting block 10, an annular piece 8 is also included. The limiting block 10 can be glued to the annular piece 8, or the annular piece 8 and the limiting block 10 can be integrally formed. The limiting block 10 is made of a flexible material, such as rubber or silicone. The number can be set as needed. The device is equipped with twelve sets. Positioning posts 5 are respectively provided on the inner walls of the second disc 6 and the first disc 1. The annular piece 8 has a locking hole 9 that engages with the positioning post 5. The diameter of the locking hole 9 is smaller than the diameter of the positioning post 5.

[0037] When the annular piece 8 needs to be installed on the second disc 6 or the first disc 1, the locking hole 9 on the annular piece 8 can be aligned with the positioning post 5, and then the annular piece 8 can be pressed firmly to create an interference fit between the locking hole 9 and the positioning post 5, thereby fixing the annular piece 8 on the second disc 6 or the first disc 1 and locking the rotation of the annular piece 8. Since the diameter of the locking hole 9 is smaller than the diameter of the positioning post 5, the annular piece 8 is not easy to fall off once installed. The setting of the limiting block 10 can further increase the friction between the annular piece 8 and the second disc 6 or the first disc 1, improving the stability of the annular piece 8. In addition, since the annular piece 8 is made of rubber, it has a certain degree of elasticity and can better adapt to data cables of different diameters.

[0038] Furthermore, the shape of the limiting block 10 can be any combination of one or more of the following: trapezoidal, rectangular, and toothed. In this embodiment, the trapezoidal limiting block 10 can be used to lock the data cable when it reaches the predetermined position, making it less prone to slippage. The rectangular limiting block 10 provides a more stable support surface, suitable for multiple sets of data cables to be used together. The toothed limiting block 10, through its unique toothed structure, can not only increase the friction between the data cable and the limiting block 10, making the data cable more firmly locked, but also make it easier for users to easily remove the data cable during use, thus improving the user experience.

[0039] In practical use, users can extend the data cable to different lengths at both ends as needed to meet various usage scenarios. For example, when connecting the data cable to a distant device, one end can be extended to a longer length to ensure a smooth connection. Conversely, when the device is nearby, both ends can be extended to shorter lengths to avoid inconvenience caused by an excessively long cable. Furthermore, the design of the two sets of symmetrical limiting blocks 10 effectively controls the bending of the data cable.

[0040] Furthermore, the tooth pitch between two adjacent sets of limiting blocks 10 is 5-8mm, and the tooth pitch in this device is 6mm. This ensures the stability of the data cable in the device and avoids difficulties in plugging and unplugging due to excessively small tooth pitch, or data cable shaking due to excessively large tooth pitch.

[0041] Components not described in detail in this article are existing technologies.

[0042] Finally, it should be noted that the above embodiments are only used to illustrate the technical solutions of this utility model, and not to limit it. Although this utility model has been described in detail with reference to the foregoing embodiments, those skilled in the art should understand that modifications can still be made to the technical solutions described in the foregoing embodiments, or equivalent substitutions can be made to some of the technical features. Such modifications or substitutions do not cause the essence of the corresponding technical solutions to deviate from the spirit and scope of the technical solutions of the embodiments of this utility model.

Claims

1. A concealable cable management kit, characterized in that, include: Two disks; A winding structure, positioned between the two disks, is used to connect them; the data cable is wound around this structure. The winding structure is equipped with a snap-fit ​​channel to lock any position of the wire portion of the data cable. A damping structure is provided on the disk body and extends towards the opposite disk body. A receiving space is formed between the damping structure and the winding structure to accommodate the wound data cable.

2. The concealable cable management kit according to claim 1, characterized in that, The winding structure includes: A connecting post (2) is set between the two disks and is coaxial with the disks to connect the two disks; A limiting element is installed on one of the disk bodies. The locking channel is formed between the limiting member and the connecting post (2) to lock the middle of the data cable, and the data cable is coiled around the connecting post (2) and the limiting member.

3. A concealable cable management kit according to claim 2, characterized in that, The limiting component is in the shape of an arc-shaped plate (3) or a cylindrical rod.

4. A concealable cable management kit according to claim 2 or 3, characterized in that, One of the discs is fixedly connected to a locking block (7), and a locking groove (4) is provided on the limiting component or connecting column (2). When the two discs are fastened together, the locking block (7) and the locking groove (4) are engaged.

5. A concealable cable management kit according to claim 1, characterized in that, The damping structure includes a limiting block (10), and multiple sets of limiting blocks (10) are arranged equidistantly on the disc body in a circular pattern, with the limiting blocks (10) on the two sets of disc bodies being arranged opposite to each other.

6. A concealable cable management kit according to claim 5, characterized in that, The shape of the limiting block (10) is one of trapezoidal, rectangular and toothed.

7. A concealable cable management kit according to claim 5 or 6, characterized in that, It also includes an annular piece (8), and the limiting block (10) is disposed on the annular piece (8). Among them, a lock hole (9) is provided on the annular plate (8), and a positioning post (5) is fixedly connected to the disc body, with the positioning post (5) passing through the lock hole (9).

8. A concealable cable management kit according to claim 7, characterized in that, The diameter of the lock hole (9) is smaller than the diameter of the positioning post (5).

9. A concealable cable management kit according to claim 1, characterized in that, The disk body includes a first disk body (1) and a second disk body (6). The winding structure is disposed on the first disc (1) or the second disc (6), and the damping structure is disposed on the first disc (1) and / or the second disc (6).