Magnetic hanging rope

The magnetic lanyard design utilizes the magnetic attraction of the clasp to quickly connect and disconnect the lanyard from the suspended object, solving the problem of inconvenient operation of existing lanyards and providing a variety of convenient wearing methods.

CN224483210UActive Publication Date: 2026-07-14OSMARTRADING (SHENZHEN) CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
OSMARTRADING (SHENZHEN) CO LTD
Filing Date
2025-09-26
Publication Date
2026-07-14

AI Technical Summary

Technical Problem

Existing lanyard products are inconvenient to operate, especially for users with large or inflexible fingers, and the limited wearing method makes them inconvenient to use in certain scenarios.

Method used

Featuring a magnetic lanyard design, the magnetic clasp allows for quick connection and separation between the lanyard and the object being hung. A second magnetic clasp makes it easy to remove from the body, providing multiple wearing options.

Benefits of technology

It enables easy connection and separation between the rope and the suspended object, enhancing the convenience and applicability of operation, and is suitable for various wearing scenarios.

✦ Generated by Eureka AI based on patent content.

Smart Images

  • Figure CN224483210U_ABST
    Figure CN224483210U_ABST
Patent Text Reader

Abstract

A magnetic hanging rope comprises a rope body, a first magnetic buckle connected to the rope body, the first magnetic buckle comprising a first male buckle and a first female buckle, the first male buckle and the first female buckle being lockable together and separable, the first male buckle being provided with a first magnetic part, the first female buckle being provided with a second magnetic part, the first magnetic part and the second magnetic part being attracted to each other in a locking direction to enable the first male buckle and the first female buckle to be quickly locked together, one of the first male buckle and the first female buckle being connected to the rope body, and the other being used to connect a hanging object; in use, the hanging object can be connected to the rope body by quick locking of the first male buckle and the first female buckle, and the hanging object can be separated from the rope body by separation of the first male buckle and the first female buckle. The magnetic hanging rope has the characteristics of novel structure and practical function, and has strong practicability, and is suitable for popularization.
Need to check novelty before this filing date? Find Prior Art

Description

Technical Field

[0001] This utility model relates to the field of lanyards, and in particular to a magnetic lanyard. Background Technology

[0002] Among the lanyard products commonly found on the market today, the vast majority use lobster clips as the core component connecting the fastener and the lanyard. Structurally, the lobster clip itself is relatively small, while the operating part used to open and close the lanyard—usually a flexible metal clip or a press-type protrusion—is even smaller, typically only the size of a fingernail or even smaller. This design presents significant inconvenience in actual use: when a user needs to remove an item from the lanyard, they must precisely pinch or press that tiny releasing mechanism with their fingers to unlock and separate the fastener from the lanyard. For adult men with larger fingers, elderly people with less flexible joints, or users wearing gloves in low-temperature outdoor environments, this difficulty is further increased. They often need to repeatedly adjust their finger positions and concentrate to complete the task, sometimes even requiring the assistance of another hand. This not only wastes time but can also lead to items accidentally slipping due to improper operation.

[0003] At the same time, existing lanyards also have significant limitations in terms of wearing methods. From a product design perspective, almost all lanyards default to supporting only one method of use: "wearing and removing the lanyard over the head." However, this single wearing method can be particularly cumbersome in many practical scenarios: for example, when users are wearing heavy coats, turtlenecks, or accessories such as scarves or helmets, the space around the head is significantly compressed, or the surrounding environment is crowded (such as on a subway during commutes or in a busy office area). In these situations, it is difficult to smoothly complete the "raising the lanyard over the head" wearing action, which not only affects efficiency but may also lead to collisions with surrounding people, causing unnecessary embarrassment or safety hazards. Utility Model Content

[0004] The present invention aims to solve the above problems by providing a lanyard that facilitates the connection and separation of the rope from the suspended object and allows the user to easily remove the lanyard from their body.

[0005] To address the aforementioned problems, this utility model provides a magnetic lanyard, comprising a lanyard body with a first magnetic buckle connected to it. The first magnetic buckle includes a first male buckle and a first female buckle, which can be locked together and detached. The first male buckle is provided with a first magnetic element, and the first female buckle is provided with a second magnetic element. The first magnetic element and the second magnetic element attract each other in the locking direction so that the first male buckle and the first female buckle can be quickly locked together. One of the first male buckle and the first female buckle is connected to the lanyard body, and the other is used to connect to a suspended object.

[0006] In use, the suspended object can be connected to the rope by quickly engaging the first male buckle and the first female buckle, and the suspended object can be detached from the rope by separating the first male buckle and the first female buckle.

[0007] Furthermore, a first loop is connected between the rope and the first magnetic buckle, and the first end and the second end of the rope are connected to the first loop, forming a closure between the rope and the first loop; one of the first male buckle and the first female buckle is connected to the first loop.

[0008] Furthermore, the magnetic lanyard also includes a second loop, wherein the one of the first male buckle and the first female buckle that is not connected to the first loop is connected to the second loop.

[0009] Furthermore, the magnetic lanyard also includes a fixing member, which is connected to the second loop. The fixing member is thin and can be clamped between the mobile phone and the mobile phone case, and partially protrudes from the through hole of the mobile phone case to suspend the mobile phone on the lanyard.

[0010] Furthermore, in some instances, the first male buckle is provided with a first connecting portion, the first female buckle is provided with a second connecting portion, and one of the first ring and the second ring is connected to the first connecting portion, while the other is connected to the second connecting portion.

[0011] Furthermore, the first female buckle is provided with a first unlocking part for unlocking operations. The first unlocking part can disengage the first male buckle from the first female buckle and separate them.

[0012] Furthermore, the first male buckle has a protruding latch, and the first female buckle has a lock hole into which the latch can be inserted. A locking member is provided in the first female buckle to lock the latch. The latch is cylindrical and has a circumferentially arranged lock groove. When the latch is inserted into the lock hole, the locking member engages with the lock groove, thereby locking the first female buckle and the first male buckle together. The first female buckle can rotate relative to the latch.

[0013] Furthermore, the rope body is also provided with a second magnetic buckle, which includes a second male buckle and a second female buckle. The second male buckle and the second female buckle can be locked together and can be separated. The second male buckle is connected to the third end of the rope body, and the second female buckle is connected to the fourth end of the rope body.

[0014] Furthermore, the second male buckle is provided with a third magnetic element, and the second female buckle is provided with a fourth magnetic element. The third magnetic element and the fourth magnetic element attract each other in the locking direction of the second male buckle and the second female buckle, so that the second male buckle and the second female buckle can be quickly locked together.

[0015] Furthermore, the second female buckle is provided with a second unlocking part for unlocking operations. The second male buckle can be disengaged from the second female buckle and separated through the second unlocking part.

[0016] The beneficial contribution of this utility model lies in its effective solution to the aforementioned problems. This utility model utilizes a first magnetic snap to connect the rope and the suspended object. The connection / separation of the rope and the suspended object is achieved through the locking / unlocking of the first male and female snaps. The principle of mutual attraction between magnets makes the connection between the rope and the suspended object simpler and faster. The first unlocking part on the first magnetic snap makes the separation of the rope and the suspended object even more convenient and simple. Furthermore, this utility model adds a second magnetic snap to the rope, allowing users to directly unlock the second magnetic snap to open the lanyard and remove it from their body, making it even more convenient. This utility model's magnetic lanyard has the characteristics of novel structure and practical function, and it is highly practical and should be widely promoted. Attached Figure Description

[0017] Figure 1 This is a schematic diagram of the overall structure of the magnetic lanyard.

[0018] Figure 2 This is a structural diagram of the first male buckle and the first female buckle.

[0019] Figure 3 This is a cross-sectional view of the structure in the first magnetic snap closed state.

[0020] Explanation of reference numerals in the attached drawings: rope body 10, first loop 20, second loop 30, first magnetic buckle 40, first male buckle 41, first connecting part 411, locking tongue 412, locking groove 4121, first magnetic element 413, first female buckle 42, second connecting part 421, lock hole 422, locking element 423, locking part 4231, second magnetic element 424, fifth magnetic element 425, first release part 426, fixing element 50, third connecting part 51, second magnetic buckle 60. Detailed Implementation

[0021] The following embodiments are further explanations and supplements to the present invention and do not constitute any limitation on the present invention.

[0022] like Figures 1-3As shown, a magnetic lanyard includes a rope body 10, to which a first magnetic buckle 40 is connected. The first magnetic buckle 40 includes a first male buckle 41 and a first female buckle 42, which can be locked together and detached. The first male buckle 41 is provided with a first magnetic element 413, and the first female buckle 42 is provided with a second magnetic element 424. The first magnetic element 413 and the second magnetic element 424 attract each other in the locking direction so that the first male buckle 41 and the first female buckle 42 can be quickly locked together. One of the first male buckle 41 and the first female buckle 42 is connected to the rope body 10, and the other is used to connect a hanging object. In use, the hanging object can be connected to the rope body 10 by the quick locking of the first male buckle 41 and the first female buckle 42, and the hanging object can be detached from the rope body 10 by separating the first male buckle 41 and the first female buckle 42. The hanging object can be a mobile phone, work ID, etc.

[0023] In some embodiments, the rope 10 is directly connected to the first magnetic buckle 40. For example, the first male buckle 41 or the first female buckle 42 of the first magnetic buckle 40 is provided with a through hole, and the rope 10 is directly connected to the through hole so that the rope 10 is connected to the first magnetic buckle 40.

[0024] Furthermore, in some embodiments, a first loop 20 is connected between the rope 10 and the first magnetic buckle 40, with the first end and the second end of the rope 10 connected to the first loop 20, forming a closure between the rope 10 and the first loop 20; one of the first male buckle 41 and the first female buckle 42 is connected to the first loop 20. The shape of the first loop 20 can be circular, elliptical, etc., and the shape is not limited. In this embodiment, the first loop 20 is circular.

[0025] Furthermore, in some embodiments, the magnetic lanyard further includes a second loop 30, wherein the one of the first male buckle 41 and the first female buckle 42 that is not connected to the first loop 20 is connected to the second loop 30. The second loop 30 can be circular, elliptical, etc., and its shape is not limited. In this embodiment, the second loop 30 is circular.

[0026] Furthermore, the magnetic lanyard also includes a fixing member 50, which is connected to the second ring 30. The fixing member 50 is thin and can be clamped between the phone and the phone case, partially protruding from the through hole of the phone case to suspend the phone on the lanyard 10. Further, to facilitate the connection between the fixing member 50 and the second ring 30, the fixing member 50 is provided with a third connecting part 51, which is connected to the second ring 30. The shape and material of the third connecting part 51 are not limited and can be used in any reasonable way. For example, the third connecting part 51 can be formed by a flat band fixed at both ends to the fixing member 50, or by a metal ring, etc., without limitation. The part protruding from the through hole of the phone case is the third connecting part 51. For clamping between the phone and the phone case, the fixing member 50 is usually T-shaped, with one part clamped between the phone and the phone case but unable to pass through the through hole of the phone case, and the other part passing through the through hole of the phone case and connecting to the second ring 30.

[0027] Furthermore, to facilitate the separation of the fastener 50 from the rope 10 and the protrusion of the third connecting portion 51 through the through hole in the phone case, in some embodiments, the second ring 30 is an openable structure. In this example, the second ring 30 is an O-ring snap fastener, which can be opened to pass through other holes or channels. In other embodiments, both the first ring 20 and the second ring 30 are openable O-ring snap fasteners.

[0028] Furthermore, the first male buckle 41 is provided with a first connecting portion 411, and the first female buckle 42 is provided with a second connecting portion 421. One of the first ring 20 and the second ring 30 is connected to the first connecting portion 411, and the other is connected to the second connecting portion 421. Furthermore, the first connecting portion 411 on the first male buckle 41 can be either movable or fixed, without limitation. The second connecting portion 421 on the first female buckle 42 can also be either movable or fixed, without limitation. Furthermore, in this example, the second connecting portion 421 is a movable, rotatable structure, meaning that the second connecting portion 421 can rotate 360 ​​degrees relative to the first female buckle 42. Regardless of how the mobile phone or other item fixed to the fastener 50 moves or rotates, the rope 10 will not become tangled.

[0029] Furthermore, the first connecting portion 411 and the second connecting portion 421 are respectively provided with through holes for the first ring 20 and the second ring 30 to pass through and connect with each other.

[0030] Furthermore, to achieve the locking of the first male buckle 41 and the first female buckle 42, in some embodiments, the first male buckle 41 is provided with a protruding latch 412, the first magnetic element 413 is disposed within the latch 412, the first female buckle 42 is provided with a lock hole 422 into which the latch 412 can be inserted, the second magnetic element 424 is disposed between the lock hole 422 and the surface of the first female buckle 42, and a locking element 423 is provided within the first female buckle 42 to lock the latch 412. The latch 412 is cylindrical and has a circumferentially arranged lock groove 4121. The locking element 423 has a locking part 4231, the shape and size of which match the lock groove 4121. When the latch 412 is inserted into the lock hole 422, the locking member 423 engages with the lock groove 4121, thereby locking the first female buckle 42 and the first male buckle 41 together, and the first female buckle 42 can rotate relative to the latch 412. Specifically, the locking member 423 is provided with a fifth magnetic member 425. The fifth magnetic member 425 can interact with the second magnetic member 424 and / or the first magnetic member 413 through magnetic force, thereby actuating the locking member 423 to lock the first male buckle 41 when the first male buckle 41 and the first female buckle 42 are inserted. In other words, when the latch 412 is inserted into the lock hole 422, the fifth magnetic member 425 can interact with the second magnetic member 424 and / or the first magnetic member 413 through magnetic force, thereby actuating the locking part 4231 to lock in the lock groove 4121, thereby locking the first male buckle 41 and the first female buckle 42 together. There are multiple designs for the locking of the first male buckle 41 and the first female buckle 42.

[0031] Option 1: The fifth magnetic element 425 attracts the first magnetic element 413 and repels the second magnetic element 424, with the magnetic attraction between the fifth magnetic element 425 and the first magnetic element 413 being greater than the magnetic repulsion between the fifth magnetic element 425 and the second magnetic element 424. When the first male buckle 41 and the first female buckle 42 are separated, the locking element 423 moves away from the lock hole 422 under the magnetic repulsion between the second magnetic element 424 and the fifth magnetic element 425, and is not within the range of the lock hole 422. When the first male buckle 41 and the first female buckle 42 are brought closer together along the locking direction, the magnetic attraction between the first magnetic element 413 and the second magnetic element 424 will cause the locking tongue 412 of the first male buckle 41 to be aligned with the lock hole 422 of the first female buckle 42 and inserted. Since the locking part 4231 is outside the range of the lock hole 422, the bolt 412 can directly enter the lock hole 422 without pushing the locking part 4231 during insertion, which is particularly beneficial for the insertion of the first male buckle 41 into the first female buckle 42. When the bolt 412 enters the lock hole 422, the first magnetic element 413 and the fifth magnetic element 425 attract each other. The attraction between them will overcome the repulsive force between the second magnetic element 424 and the fifth magnetic element 425 and attract the fifth magnetic element 425 to move towards the bolt 412, thereby causing the locking part 4231 to move towards the bolt 412 and engage in the locking groove 4121 of the bolt 412, thus locking the first male buckle 41 and the first female buckle 42 together.

[0032] Option 2: The fifth magnetic element 425 repels the first magnetic element 413 and attracts the second magnetic element 424, with the magnetic attraction between the fifth magnetic element 425 and the second magnetic element 424 being greater than the magnetic repulsion between the fifth magnetic element 425 and the first magnetic element 413. When the first male buckle 41 and the first female buckle 42 are brought close together along the locking direction, the magnetic attraction between the first magnetic element 413 and the second magnetic element 424 causes the locking tongue 412 of the first male buckle 41 to align with the locking hole 422 of the first female buckle 42 and be inserted. Because the magnetic attraction between the fifth magnetic element 425 and the second magnetic element 424 is greater than the magnetic repulsion between the fifth magnetic element 425 and the first magnetic element 413, the locking part 4231 can still engage with the locking groove 4121 of the locking tongue 412, thereby locking the first male buckle 41 and the first female buckle 42 together.

[0033] The design of the first magnetic clasp 40 is not limited to the two schemes mentioned above. This example adopts the scheme described in Scheme 1.

[0034] Furthermore, to facilitate the unlocking of the first male buckle 41 and the first female buckle 42, in some embodiments, the first female buckle 42 is provided with a first release part 426. The first release part 426 is used for unlocking operations, allowing the first male buckle 41 and the first female buckle 42 to disengage and separate. In this embodiment, the locking member 423 is provided with a pull hole, which can easily accommodate a pull ring or pull cord. When the pull ring or pull cord is pulled outward, the locking part 4231 moves away from the lock hole 422, exiting the lock groove 4121 of the lock tongue 412, thereby allowing the first male buckle 41 and the first female buckle 42 to separate and unlock.

[0035] To facilitate the user's removal of the magnetic lanyard from their body, in some examples, the lanyard 10 is further equipped with a second magnetic buckle 60. The second magnetic buckle 60 includes a second male buckle and a second female buckle, which can be locked together and detached. The second male buckle is connected to the third end of the lanyard 10, and the second female buckle is connected to the fourth end of the lanyard 10. Thus, the body 10 itself can be connected via the second magnetic buckle 60. Further, the second male buckle has a first connecting hole, through which it connects to the third end of the lanyard 10; the second female buckle has a second connecting hole, through which it connects to the fourth end of the lanyard 10. The third end of the lanyard 10, after not passing through the first connecting hole, is folded backward, forming a double-strand lanyard 10 with the portion of the third end of the lanyard 10 that does not pass through the first connecting hole, and the double-strand lanyard 10 is connected together. The fourth end of the rope 10, after passing through the second connecting hole, is folded backward to form a double-strand rope 10 with the portion of the fourth end of the rope 10 that does not pass through the second connecting hole, and the double-strand rope 10 is connected together. Furthermore, the connection between the first end of the rope 10 and the first loop 20, and the connection between the second end of the rope 10 and the first loop 20, both employ the method described for the double-strand rope 10. Furthermore, the connection method of the double-strand rope 10 can be a fixed connection such as adhesive or sewing, or a movable connection; the specific connection method is not limited. The connection methods of the four double-strand ropes 10 at the first, second, third, and fourth ends of the rope 10 can be the same, different, or partially the same. In this example, the connection method used is a sewn fixed connection.

[0036] Furthermore, to enable the second male and second female buckles to lock quickly, the second male buckle is provided with a third magnetic element, and the second female buckle is provided with a fourth magnetic element. The third and fourth magnetic elements attract each other in the locking direction of the second male and second female buckles, allowing them to lock quickly. The locking design of the second magnetic buckle 60 can adopt one of the aforementioned two schemes or other designs, without limitation. In this example, the second magnetic buckle 60 adopts the first scheme, consistent with the design of the first magnetic buckle 40.

[0037] Furthermore, to facilitate unlocking of the second male buckle and the second female buckle, the second female buckle is provided with a second release part for unlocking operations. The second release part allows the second male buckle and the second female buckle to disengage and separate. The structure and principle of the second release part can be the same as or different from the first release part 426, and are not limited thereto. In this example, the structure and principle of the second release part are the same as the first release part 426.

[0038] In use, users can hang objects, such as mobile phones, on the lanyard 10 and quickly take them out and put them on using the first magnetic buckle 40; in addition, users can also directly open the lanyard 10 using the second magnetic buckle 60 to take them out and put them on. Users can use it flexibly according to their actual needs.

[0039] Although the present invention has been disclosed through the above embodiments, the scope of the present invention is not limited thereto. Without departing from the concept of the present invention, the above components can be replaced by similar or equivalent elements known to those skilled in the art.

Claims

1. A magnetic lanyard, comprising a lanyard body (10), characterized in that, A first magnetic buckle (40) is connected to the rope (10). The first magnetic buckle (40) includes a first male buckle (41) and a first female buckle (42). The first male buckle (41) and the first female buckle (42) can be locked together and can be separated. The first male buckle (41) is provided with a first magnetic element (413), and the first female buckle (42) is provided with a second magnetic element (424). The first magnetic element (413) and the second magnetic element (424) attract each other in the locking direction so that the first male buckle (41) and the first female buckle (42) can be quickly locked together. One of the first male buckle (41) and the first female buckle (42) is connected to the rope (10), and the other is used to connect to the suspended object. In use, the suspended object can be connected to the rope body (10) by quickly locking the first male buckle (41) and the first female buckle (42), and the suspended object can be separated from the rope body (10) by separating the first male buckle (41) and the first female buckle (42).

2. The magnetic lanyard as described in claim 1, characterized in that, A first loop (20) is connected between the rope (10) and the first magnetic buckle (40). The first and second ends of the rope (10) are connected to the first loop (20), and the rope (10) and the first loop (20) form a closure; one of the first male buckle (41) and the first female buckle (42) is connected to the first loop (20).

3. The magnetic lanyard as described in claim 2, characterized in that, It also includes a second ring (30), wherein the first male buckle (41) and the first female buckle (42) that are not connected to the first ring (20) are connected to the second ring (30).

4. As described in claim 3, characterized in that, It also includes a fastener (50) connected to the second ring (30), the fastener (50) being thin and able to be clamped between the mobile phone and the phone case and partially protruding from the through hole of the phone case to suspend the mobile phone on the rope (10).

5. A magnetic lanyard as described in claim 3, characterized in that, The first male buckle (41) is provided with a first connecting part (411), the first female buckle (42) is provided with a second connecting part (421), one of the first ring (20) and the second ring (30) is connected to the first connecting part (411), and the other is connected to the second connecting part (421).

6. A magnetic lanyard as described in claim 1, characterized in that, The first female buckle (42) is provided with a first unlocking part (426) for unlocking operation. The first male buckle (41) and the first female buckle (42) can be disengaged and separated by the first unlocking part (426).

7. A magnetic lanyard as described in claim 1, characterized in that, The first male buckle (41) has a protruding latch (412), and the first female buckle (42) has a lock hole (422) into which the latch (412) can be inserted. A locking member (423) is provided in the first female buckle (42) to lock the latch (412). The latch (412) is cylindrical and has a circumferentially arranged lock groove (4121). When the latch (412) is inserted into the lock hole (422), the locking member (423) and the lock groove (4121) are engaged, so that the first female buckle (42) and the first male buckle (41) are locked together, and the first female buckle (42) can rotate relative to the latch (412).

8. A magnetic lanyard as described in claim 1, characterized in that, The rope (10) is also provided with a second magnetic buckle (60), which includes a second male buckle and a second female buckle. The second male buckle and the second female buckle can be locked together and can be separated. The second male buckle is connected to the third end of the rope (10), and the second female buckle is connected to the fourth end of the rope (10).

9. A magnetic lanyard as described in claim 8, characterized in that, The second male buckle is provided with a third magnetic element, and the second female buckle is provided with a fourth magnetic element. The third magnetic element and the fourth magnetic element attract each other in the locking direction of the second male buckle and the second female buckle, so that the second male buckle and the second female buckle can be quickly locked together.

10. A magnetic lanyard as described in claim 9, characterized in that, The second female buckle is provided with a second release part for unlocking operations. The second release part can disengage the second male buckle from the second female buckle and separate them.