Example embodiments of the systems and methods of magnetic clasping disclosed herein include a a self-aligning interlocking magnetic clasp. When the two halves are placed within close proximity of each other, the magnetic attraction of the magnets within the clasps orient the parts, and the mechanic
Example embodiments of the systems and methods of magnetic clasping disclosed herein include a a self-aligning interlocking magnetic clasp. When the two halves are placed within close proximity of each other, the magnetic attraction of the magnets within the clasps orient the parts, and the mechanical features of a key, a keyway and a sliding face align. These features hold the two clasps together with the opposed sliding faces coincident and the keys and keyways interlocked, forming a bead shape, for example, with a hole through the middle.
대표청구항▼
1. A connection system comprising: a clasp, comprising: a first magnet with a first polarity at a mating surface of the clasp;a second magnet with a second opposite polarity at the mating surface of the clasp;a keyway in the mating surface of the clasp, the keyway extending across the mating surface
1. A connection system comprising: a clasp, comprising: a first magnet with a first polarity at a mating surface of the clasp;a second magnet with a second opposite polarity at the mating surface of the clasp;a keyway in the mating surface of the clasp, the keyway extending across the mating surface from one side to the other; anda key in the mating surface, the key matched to the keyway, wherein the first and second magnets are located between the key and the keyway,wherein the key and keyway control a direction of separation of the clasp along a line parallel to a line that passes through a center of both the first and second magnets. 2. The connection system of claim 1, further comprising a second clasp to form a mated pair, each clasp of the mated pair of clasps being substantially identical. 3. The connection system of claim 1, wherein a key midpoint plane and a keyway midpoint plane are parallel planes. 4. The connection system of claim 3, wherein the mating surface is configured at a forty-five-degree angle between the parallel midpoint planes. 5. The connection system of claim 3, further comprising a connection means, the connection means configured to be perpendicular to the parallel midpoint planes. 6. The connection system of claim 5, wherein the connection means comprises a connection port, a stringing means, a looper means, and a crimping means. 7. The connection system of claim 1, wherein at least one end of the mating surface is chamfered. 8. The connection system of claim 1, wherein at least one side of the key is not parallel to the opposing side of the key. 9. A method of connecting, comprising: providing a pair of clasps, each clasp comprising: a first magnet with a first polarity at a mating surface of the clasp;a second magnet with a second opposite polarity at the mating surface of the clasp;a keyway in the mating surface of the clasp, the keyway extending across the mating surface from one side to the other; anda key in the mating surface, the key matched to the keyway, wherein the first and second magnets are located between the key and the keyway,wherein the key and keyway control a direction of separation of the clasp along a line parallel to a line that passes through a center of both the first and second magnets; andconnecting the mating surface of a first clasp of the pair of clasps with the mating surface of a second clasp of the pair of clasps. 10. The method of claim 9, wherein each clasp of the pair of clasps is substantially identical. 11. The method of claim 9, wherein a key midpoint plane and a keyway midpoint plane are parallel planes. 12. The method of claim 11, wherein the mating surface is configured at a forty-five-degree angle between the parallel midpoint planes. 13. A connection system, comprising: at least one pair of clasps, each clasp of the pair of clasps comprising: a keyway in a mating surface of the clasp, the keyway extending across the mating surface from one side to the other;a key in the mating surface, the key matched to the keyway;a first magnet with a first polarity at the mating surface; anda second magnet with a second opposite polarity at the mating surface, wherein the first and second magnets are located between the key and the keyway,wherein the key and keyway control a direction of separation of the clasp along a line parallel to a line that passes through a center of both the first and second magnets; anda connection means connected to or through an outer surface of each clasp of the pair of clasps, the outer surface of the clasp different from the mating surface, the clasps configured to connect in a self-aligning manner. 14. The connection system of claim 13, wherein each clasp of the pair of clasps is substantially identical. 15. The connection system of claim 13, wherein matings of the key and key way of each clasp of the pair of clasps controls the motion of the sliding perpendicular to the magnetic field of the first and second magnets. 16. The connection system of claim 13, wherein a key midpoint plane and a keyway midpoint plane are parallel planes and the mating surface is configured at a forty-five-degree angle between the parallel midpoint planes. 17. The connection system of claim 13, wherein the connection means connects to an outer surface of the clasp, the connection means being perpendicular to parallel midpoint planes of the key and the keyway. 18. The connection system of claim 17, wherein the connection means comprises a connection port, a stringing means, a looper means, and a crimping means.
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이 특허에 인용된 특허 (60)
Riley Yong N. (626 Fairview Dr. Plymouth WI 53073), Apparatus for changeable earring pendents.
Grover Alfred H. (5436 Clark Rd. #27 A Paradise CA 95969) Grover Verna A. (5436 Clark Rd. #27 A Paradise CA 95969), Self-aligning magnetic necklace clasp.
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