A high-performance, quick-detachable lanyard-type magnetic data cable
By designing a lanyard-style magnetic data cable that can be quickly attached and detached, and utilizing a snap-fit sleeve and snap-fit post structure, the problem of inconvenient data cable carrying is solved, achieving convenient portability and waterproof effect, while reducing the complexity and cost of use.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- GUANGDONG MINGJI HI TECH ELECTRONICS CO LTD
- Filing Date
- 2025-06-04
- Publication Date
- 2026-07-03
AI Technical Summary
Data cables take up space when carried and are easy to get tangled, which can damage the outer sheath and make them inconvenient to use.
A high-performance, quick-release lanyard-style magnetic data cable with excellent swing performance was designed. The cable can be worn around the neck or arm through a snap-fit structure with a snap-fit sleeve and snap-fit post, avoiding taking up pocket space. Silicone pads and drainage holes prevent water from entering.
It enables convenient carrying and use of data cables, avoiding space occupation and cable damage, and is simple to operate and low in cost.
Smart Images

Figure CN224458769U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of data cable technology, specifically to a lanyard-type magnetic data cable with high swing performance and quick detachment. Background Technology
[0002] Data cables are common charging accessories for electronic devices. With the increasing popularity of portable electronic products, especially smartphones and tablets, people have become very dependent on these electronic devices. Data cables have gradually become a product that needs to be carried with you. When going out, you need to carry a data cable with you in case your electronic products need to be charged.
[0003] Data cables take up space whether you put them in a backpack or a pocket, and carrying a mobile phone also takes up space. Moreover, carrying data cables carelessly can cause them to bend and tangle, which can damage the cable sheath. In addition, you will need to tidy up the cable before you can use it again, making it very inconvenient to carry and use. Utility Model Content
[0004] This invention addresses the technical problem of inconvenient data cable carrying by providing a lanyard-type magnetic data cable with high swing performance that can be quickly attached and detached. It is easy to carry, convenient to use, and does not take up space in clothing pockets.
[0005] The technical solution adopted by this utility model is to provide a high-swing performance, quick-release lanyard-type magnetic data cable, including a hanging plate, a hanging ring connected to the hanging plate, a snap-fit assembly connected to the hanging ring, and a data cable connected to the snap-fit assembly. The snap-fit assembly is provided in two sets and snaps into both ends of the data cable respectively. The snap-fit assembly includes a snap-fit cylinder, a cover plate at one end of the snap-fit cylinder, a fixing ring on the cover plate, a silicone pad inside the snap-fit cylinder, a snap-fit groove at the other end of the snap-fit cylinder, snap-fit sleeves respectively fitted and fixed to both ends of the data cable, and snap-fit posts on the outer periphery of the snap-fit sleeves. The snap-fit sleeves are adapted to the snap-fit cylinder and are inserted into the snap-fit cylinder. The snap-fit posts are adapted to the snap-fit grooves and are inserted into the snap-fit grooves. The snap-fit grooves are through-grooves that penetrate the wall of the snap-fit cylinder. The fixing ring is connected to the hanging ring.
[0006] The snap-fit groove includes a vertical groove, a horizontal groove communicating with the bottom of the vertical groove, and a groove communicating with the horizontal groove. The vertical groove is set along the length direction of the snap-fit cylinder, and the horizontal groove is set along the radial direction of the snap-fit cylinder. One end of the horizontal groove is connected to the bottom of the vertical groove, and the groove is set on the side of the other end of the horizontal groove facing the data line. The dimensions of the vertical groove, the horizontal groove and the groove are adapted to the snap-fit post.
[0007] The cover plate is provided with a first drainage hole, and the silicone pad is provided with a second drainage hole corresponding to the first drainage hole.
[0008] The data cable includes a cable body and connection ports at both ends of the cable body. The snap-fit sleeve is used to fix the connection position between the cable body and the connection port, and the end of the connection port is pressed against the silicone pad.
[0009] A key buckle is provided between the hanging piece and the hanging ring. The hook end of the key buckle is connected to the hanging piece, and the circular end of the key buckle is connected to the hanging ring.
[0010] The beneficial effects of this utility model are that it provides a lanyard-type magnetic data cable with high swing performance and quick detachment. The data cable is inserted into and limited in the snap-fit tube by means of a snap-fit sleeve, and snaps in place by snap-fit post and snap-fit slot. The data cable can be worn around the neck or arm without taking up space in clothing pockets or backpacks, making it more convenient to use. It is easy to use, simple to operate, has a simple and effective structure, and is low in cost. Attached Figure Description
[0011] Figure 1 This is a schematic diagram of the structure of this utility model;
[0012] Figure 2 This is a schematic diagram of the structure of the snap-fit cylinder and snap-fit groove of this utility model;
[0013] Figure 3 This is a schematic diagram of the structure of the silicone pad block of this utility model;
[0014] Figure 4 This is a schematic diagram of the structure of the snap-fit sleeve of this utility model.
[0015] In the attached diagram, 1 is the hanging piece, 2 is the hanging ring, 3 is the data cable, 4 is the snap-fit tube, 5 is the cover plate, 6 is the fixing ring, 7 is the silicone pad, 8 is the snap-fit groove, 9 is the snap-fit sleeve, 10 is the snap-fit post, 11 is the vertical groove, 12 is the horizontal groove, 13 is the groove, 14 is the first drainage hole, 15 is the second drainage hole, and 16 is the key ring. Detailed Implementation
[0016] like Figure 1-4As shown, this utility model provides a high-swing performance, quick-release lanyard-type magnetic data cable, including a hanging piece 1, a hanging ring 2 connected to the hanging piece 1, a snap-fit assembly connected to the hanging ring 2, and a data cable 3 connected to the snap-fit assembly. The snap-fit assembly is provided in two sets and snaps into both ends of the data cable 3 respectively. The snap-fit assembly includes a snap-fit cylinder 4, a cover plate 5 at one end of the snap-fit cylinder 4, a fixing ring 6 on the cover plate 5, a silicone pad 7 inside the snap-fit cylinder 4, a snap-fit groove 8 at the other end of the snap-fit cylinder 4, snap-fit sleeves 9 respectively fitted and fixed to both ends of the data cable 3, and snap-fit posts 10 on the outer periphery of the snap-fit sleeves 9. The snap-fit sleeves 9 are adapted to the snap-fit cylinder 4 and are inserted into the snap-fit cylinder 4. The snap-fit posts 10 are adapted to the snap-fit grooves 8 and are inserted into the snap-fit grooves 8. The snap-fit grooves 8 are through groove structures that penetrate the wall of the snap-fit cylinder 4. The fixing ring 6 is connected to the hanging ring 2.
[0017] The hanging clip 1 is used to place inside the phone case. The hanging ring 2 of the hanging clip 1 extends outward from the charging port at the bottom of the phone case. The hanging ring 2 is connected to the fixing ring 6. The data cable 3 is fitted with snap-fit sleeves 9 at both ends. The data cable 3 is inserted into and limited in the snap-fit cylinder 4 by the snap-fit sleeves 9. The limiting method is that the snap-fit post 10 is snapped into the snap-fit groove 8. The snap-fit groove 8 has an L-shaped structure or a hook-shaped structure. When the snap-fit sleeve 9 is inserted, the snap-fit post 10 is embedded in the snap-fit groove 8. After the end of the data cable 3 is pressed against the silicone pad 7, the end of the data cable 3 is rotated to make the snap-fit post 10 enter the snap-fit groove 8. The data cable 3 is easily removed from the snap-fit cylinder 4 by simply rotating it in the opposite direction. It is convenient to use, easy to operate, has a simple and effective structure, and is low in cost. The silicone pad 7 is elastic and can push the snap-fit post 10 outward to improve the connection strength of the limit snap-fit, ensuring that it will not easily come loose when shaken during use. After inserting and snapping the two ends of the data cable 3 into the snap-fit cylinder 4, the data cable 3 can be worn around the neck or arm without taking up space in clothing pockets or backpacks, making it more convenient to use.
[0018] like Figure 2-3 As shown, the snap-fit groove 8 includes a vertical groove 11, a horizontal groove 12 communicating with the bottom of the vertical groove 11, and a groove 13 communicating with the horizontal groove 12. The vertical groove 11 is arranged along the length direction of the snap-fit cylinder 4, and the horizontal groove 12 is arranged along the radial direction of the snap-fit cylinder 4. One end of the horizontal groove 12 is connected to the bottom of the vertical groove 11, and the groove 13 is arranged on the side of the other end of the horizontal groove 12 facing the data line 3. The dimensions of the vertical groove 11, the horizontal groove 12 and the groove 13 are adapted to the snap-fit post 10.
[0019] The structure of the snap-fit slot 8 is further defined. When the data cable 3 is inserted into the snap-fit cylinder 4, the snap-fit post 10 will first enter the vertical slot 11. When the snap-fit post 10 enters the bottom of the vertical slot 11, the end of the data cable 3 is pressed against the silicone pad 7. Then, the end of the data cable 3 is manually rotated, and the snap-fit post 10 enters the horizontal slot 12 until the bottom of the horizontal slot 12. When you release the hand at this time, the end of the data cable 3 will be pushed back and pressed against the groove 13 by the elastic force of the silicone pad 7. The groove 13 can effectively prevent the snap-fit post 10 from coming out of the snap-fit slot 8 after the data cable 3 shakes, making the connection more stable.
[0020] like Figure 1-3 As shown, the cover plate 5 is provided with a first drainage hole 14, and the silicone pad 7 is provided with a second drainage hole 15 corresponding to the first drainage hole 14.
[0021] During use, the first drainage hole 14 and the second drainage hole 15 allow rainwater that has seeped into the clip cylinder 4 to leak out, preventing water from entering the end of the data cable 3 and effectively ensuring the safe use of the data cable 3.
[0022] like Figure 4 As shown, the data cable 3 includes a cable body 16 and connection ports 17 located at both ends of the cable body 16. The snap-fit sleeve 9 is fitted and fixed at the connection position of the cable body 16 and the connection port 17. The end of the connection port 17 is pressed against the silicone pad 7.
[0023] The installation position of the snap-fit sleeve 9 is defined, which allows the connection port 17 to be tightly pressed against the silicone pad 7, resulting in better waterproofing.
[0024] like Figure 1 As shown, a key buckle 18 is provided between the hanging piece 1 and the hanging ring 2. The hook end of the key buckle 18 is connected to the hanging piece 1, and the circular end of the key buckle 18 is connected to the hanging ring 2.
[0025] The keychain 18 has a hook-on structure on one end and a ring on the other end, which can be easily disassembled during use.
Claims
1. A high-swinging-performance quick-detachable magnetic hanging rope data line, comprising a hanging piece (1), a hanging ring (2) connected with the hanging piece (1), a clamping assembly connected with the hanging ring (2), and a data line (3) connected with the clamping assembly, the clamping assembly is provided with two groups and clamps two ends of the data line (3) respectively, characterized in that: The snap-fit assembly includes a snap-fit cylinder (4), a cover plate (5) at one end of the snap-fit cylinder (4), a fixing ring (6) on the cover plate (5), a silicone pad (7) inside the snap-fit cylinder (4), a snap-fit groove (8) at the other end of the snap-fit cylinder (4), snap-fit sleeves (9) respectively fitted and fixed at both ends of the data cable (3), and snap-fit posts (10) on the outer periphery of the snap-fit sleeves (9); the snap-fit sleeves (9) are adapted to the snap-fit cylinder (4) and the snap-fit sleeves (9) are inserted into the snap-fit cylinder (4); the snap-fit posts (10) are adapted to the snap-fit groove (8) and the snap-fit posts (10) are inserted into the snap-fit groove (8); the snap-fit groove (8) is a through groove structure that penetrates the wall of the snap-fit cylinder (4); and the fixing ring (6) is connected to the hanging ring (2). 2. The high-oscillation performance quick detachable magnetic data line of claim 1, wherein: The snap-fit groove (8) includes a vertical groove (11), a horizontal groove (12) communicating with the bottom of the vertical groove (11), and a groove (13) communicating with the horizontal groove (12). The vertical groove (11) is arranged along the length direction of the snap-fit cylinder (4), and the horizontal groove (12) is arranged along the radial direction of the snap-fit cylinder (4). One end of the horizontal groove (12) is connected to the bottom of the vertical groove (11), and the groove (13) is arranged on the side of the other end of the horizontal groove (12) facing the data line (3). The dimensions of the vertical groove (11), the horizontal groove (12) and the groove (13) are adapted to the snap-fit post (10).
3. The high-oscillation performance quick detachable magnetic data line of claim 1, wherein: The cover plate (5) is provided with a first water leakage hole (14), and the silicone pad (7) is provided with a second water leakage hole (15) corresponding to the first water leakage hole (14).
4. The high-oscillation performance quick detachable magnetic data line of claim 1, wherein: The data cable (3) includes a cable body (16) and connection ports (17) located at both ends of the cable body (16). The snap-fit sleeve (9) is fitted and fixed at the connection position of the cable body (16) and the connection port (17). The end of the connection port (17) is pressed against the silicone pad (7).
5. A lanyard-type magnetic data cable with high swing performance and quick detachment as described in claim 1, characterized in that: A key buckle (18) is provided between the hanging piece (1) and the hanging ring (2). The hook end of the key buckle (18) is connected to the hanging piece (1), and the ring end of the key buckle (18) is connected to the hanging ring (2).