Magnetic clasp for jewelry
09808053 ยท 2017-11-07
Assignee
Inventors
Cpc classification
A44C5/2071
HUMAN NECESSITIES
A44C5/2085
HUMAN NECESSITIES
International classification
Abstract
A magnetic clasp for jewelry has a first and a second coupling part each having a magnet and an abutment surface which are pulled against one another by a magnetic force of attraction when closed. The two coupling parts each have a fastening element for fastening jewelry and predefine a pulling direction when closed. The first coupling part defines a receptacle for the second coupling part to engage when the clasp is closed. The second coupling part has an undercut which forms an interlock acting against the pulling direction. The abutment surfaces are at an incline to the pulling direction and the first coupling part forms a sliding surface which, when the clasp is closed and pressure acts on the second coupling part oppositely to the pulling direction, allows a displacement of the second coupling part relative to the first coupling part, thus opening the clasp.
Claims
1. A magnetic clasp for jewelry, said magnetic clasp comprising: a first and a second coupling part each having a magnet and an abutment surface; wherein the abutment surfaces of the first and second coupling parts are pulled against one another by a magnetic force of attraction when the clasp is closed; wherein the first and second coupling parts each have a fastening element for fastening to the jewelry and, when the clasp is closed, the fastening elements define a pulling direction of the clasp; wherein the first coupling part has walls which rise upwardly on opposite sides of the abutment surface of the first coupling part and define a receptacle in which the second coupling part engages when the clasp is closed; wherein the second coupling part has an undercut which, together with the receptacle of the first coupling part, forms an interlock acting against the pulling direction; wherein the abutment surfaces are arranged at an incline to the pulling direction and the first coupling part forms a sliding surface which, when the clasp is closed and pressure acts on the second coupling part in a direction opposite to the pulling direction, allows a displacement of the second coupling part relative to the first coupling part, thus opening the clasp; and wherein the first coupling part has an opening arranged opposite the fastening element of said first coupling part and between the walls rising on the opposite sides of the abutment surface, wherein the opening, when the clasp is closed, is filled by the second coupling part and widens upwardly.
2. The magnetic clasp according to claim 1, wherein each of the walls rising on the opposite sides of the abutment surface of the first coupling part includes a step, wherein the steps partially define a boundary of the opening.
3. The magnetic clasp according to claim 1, wherein the second coupling part, when the clasp is closed, rests, via two support surfaces between which the fastening element of the second coupling part is arranged as seen in the pulling direction, on the walls of the first coupling part.
4. The magnetic clasp according to claim 1, wherein the undercut in the second coupling part is formed by two stop surfaces between which the fastening element of the second coupling part is arranged as aligned in the pulling direction, wherein the two stop surfaces are arranged at an acute angle to the abutment surface of the second coupling part.
5. The magnetic clasp according to claim 4, wherein the support surfaces border the stop surfaces and run transversely thereto.
6. The magnetic clasp according to claim 1, wherein the abutment surface of the second coupling part widens from its end facing away from the fastening element of the second coupling part.
7. The magnetic clasp according to claim 1, wherein the abutment surface of the second coupling part borders, on opposite side edges, side surfaces of the second coupling part, wherein each side surface is at an angle less than 270 degrees relative to the abutment surface but more than 180 degrees relative to the abutment surface.
8. The magnetic clasp according to claim 1, wherein the abutment surface of the second coupling part borders an outer surface of the clasp at its end facing away from the fastening element of the second coupling part.
9. The magnetic clasp according to claim 1, wherein the walls of the first coupling part are arcuately rounded.
10. A magnetic clasp for jewelry, said magnetic clasp comprising: a first coupling part having a first magnet, a first abutment surface and a first fastening element; a second coupling part having a second magnet, a second abutment surface and a second fastening element; wherein the first and second abutment surfaces of the first and second coupling parts are pulled against one another by the first and second magnets when the clasp is closed; wherein the first and second fastening element are each configured to fasten to the jewelry, wherein when the clasp is closed the first and second fastening elements define a pulling direction of the clasp; wherein the first coupling part has walls which rise and widen upwardly on opposite sides of the first abutment surface and define an opening arranged opposite the first fastening element, wherein when the clasp is closed the opening is filled by the second coupling part; wherein the second coupling part has an undercut which, together with the receptacle of the first coupling part, forms an interlock acting against the pulling direction when the clasp is closed; and wherein the first and second abutment surfaces are arranged at an incline to the pulling direction and together form a sliding surface which, when the clasp is closed and pressure acts on the second coupling part in a direction opposite to the pulling direction, allows a displacement of the second coupling part relative to the first coupling part, thus opening the clasp.
11. The magnetic clasp according to claim 10, wherein when the clasp is closed the first and second coupling parts form an outside surface comprising a sphere.
Description
BRIEF DESCRIPTION OF THE DRAWINGS
(1) Further details and advantages of the invention will be explained on the basis of an illustrative embodiment of the invention with reference to the accompanying drawings, in which:
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DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS
(10) The magnetic clasp illustrated in
(11) The coupling parts 10, 20 each comprise a magnet 11, 21 and an abutment surface 12, 22. When the clasp is closed, the abutment surfaces 12, 22 of the two coupling parts 10, 20 bear against one another and are pulled against one another by a magnetic force of attraction. The abutment surfaces can be formed as an upper side of the magnets or as a flat surface which borders the magnets. In the embodiment shown the magnets 11, 21 are arranged in a flush manner in blind bores and each form an abutment surface 12, 22 with a surface surrounding the blind bore.
(12) The first coupling part 10 has a fastening element 13 and the second coupling part 20 has a fastening element 23 for fastening to an item of jewelry, for example a necklace. The fastening elements 13, 23, when the clasp is closed, define a pulling direction in which the clasp is loaded. The fastening elements 13, 23 can be formed for example as an eyelet or pin.
(13) The first coupling part 10 has walls 14, which rise upwardly on opposite sides of the abutment surface 12 of the first coupling part 10 and define a receptacle, in which the second coupling part 20 engages in an interlocking manner when the clasp is closed. Between these walls 14, the first coupling part 10 has an opening opposite the fastening element 13 of said coupling part, which opening, when the clasp is closed, is filled by the second coupling part 20 and widens upwardly in a stepped manner. The walls 14 rising on opposite sides of the abutment surface 12 each specifically form a step 14a. When the clasp is closed, the second coupling part 20 rests, via two support surfaces 24 between which the fastening element 23 of the second coupling part 20 is arranged as viewed in the pulling direction, on the portions of the walls 14 of the first coupling part 10 forming this step 14a.
(14) The abutment surfaces 12, 22 of the two coupling parts 10, 20 are arranged at an incline to the pulling direction. A vector perpendicular to the flat abutment surfaces 10, 20 may encloses an angle between 30 and 60 with the pulling direction. The first coupling part 10 forms a sliding guide via its walls 14, which sliding guide, when the clasp is closed and the second coupling part 20 is pushed in a direction opposite to the pulling direction, enables a displacement of the second coupling part 20 relative to the first coupling part 10. Pushing on the second coupling part 20 against the pulling direction thus causes the abutment surfaces 12, 22 of the two coupling parts 10, 20 to slide along one another and thus opens the clasp.
(15) When the clasp is closed, the second coupling part 20 is secured in the receptacle of the first coupling part 10 by an interlock acting in the pulling direction. The second coupling part 20 for this purpose has an undercut which together with the receptacle in the first coupling part 10 forms an interlock acting against the pulling direction. The undercut in the second coupling part 20 is formed by two stop surfaces 25, between which, as considered in the pulling direction, the fastening element 23 of the second coupling part 20 is arranged. The two stop surfaces 25 are arranged at an acute angle to the abutment surface 22 of the second coupling part 20, e.g. at an angle between 80 and 40, for example 70 to 50. When the clasp is subjected to tensile load caused by pulling, the stop surfaces 25 are pressed against the portions of the walls 14 of the first coupling part 10 bordering the opening.
(16) The two stop surfaces 25 may end at a distance from the abutment surface 22. By way of example, the stop surfaces 25 can each be connected to the abutment surface 22 via a surface 26 which runs at an incline to the abutment surface 22 or is rounded.
(17) The stop surfaces 25 can border support surfaces 24 which, when the clasp is closed, rest on portions of the walls 14 of the first coupling part 10, for example on the wall portions 14a forming a step or shoulder. In the embodiment shown, the fastening part 23 of the second coupling part 20 is arranged between the two support surfaces 24 as considered in the pulling direction. The support surfaces 24 are arranged transversely to the stop surfaces 25, for example at an angle between 80 and 100. The support surfaces 24 can be arranged perpendicularly to the stop surfaces 25.
(18) The abutment surface 22 of the second coupling part borders sloping side surfaces 28 on opposite side edges. The side surfaces 28 can be arranged at an incline to the abutment surface 22. For example the side surfaces 28 may each enclose an angle between 95 and 130 with the abutment surface 22. The width of the second coupling part 20, as measured from one side surface 28 to the opposite side surface 28, then increases with increasing distance from the abutment surface 22. This form of the second coupling part 20 makes it easier to insert said coupling part into the receptacle in the first coupling part 10. The abutment surface 22 of the second coupling part 20, at its end facing away from the fastening element 23 of the second coupling part 20, borders an outer surface 27 of the clasp and of the second coupling part 20.
(19) The abutment surface 22 of the second coupling part 20 can widen towards its end facing away from the fastening element 23 of the second coupling part 20. This is advantageous when the two coupling parts 10, 20 supplement one another to form a sphere, as in the illustrated embodiment. The walls 14 of the first coupling part 10 have an arcuately rounded edge when the closed clasp has the form of a pearl.
LIST OF REFERENCE SIGNS
(20) 10 first coupling part 11 magnet 12 abutment surface 13 fastening element 14 wall 14a step-forming wall portion 20 second coupling part 21 magnet 22 abutment surface 23 fastening element 24 support surface 25 stop surface 26 surface 27 outer surface 28 side surface