Closure mechanism for jewelry

Abstract

A jewelry clasp includes a lower arm and an upper arm that are hingedly joined to each other at one respective ends thereof. A locking pin is provided adjacent a second end of the upper arm and the locking pin extends toward the respective second end of the lower arm and locked inside a locking receptacle formed adjacent a second distal end of the lower arm. The locking receptacle contains two spring wires that extend transversely to the direction of the locking receptacle, the spring wires being spaced from each other at a distance slightly smaller than the diametrical size of a pin head of the locking pin. The clasp can be used as a general jewelry closure device.

Claims

1. A jewelry closure device, comprising: a first arm and a second arm, coupled to each other by a hinge; a locking pin depending from the first arm, the locking pin comprising at a distal end thereof a pin head; a locking receptacle formed on the second arm, the locking receptacle containing therein at least one spring wire configured to resiliently deflect when the pin head of the locking pin is pushed into the locking receptacle, allowing the locking pin to move past the at least one spring wire so as to positively lock the first arm and the second arm to each other; and wherein the at least one spring wire comprises first and second spring wires extending substantially parallel to each other in the locking receptacle and spaced apart at a distance less than a diametrical size associated with the pin head.

2. The jewelry closure of claim 1, wherein the at least one spring wire is pre-cast in the second arm at the time of its fabrication.

3. A jewelry clasp, comprising: a lower arm and an upper arm, hingedly joined to each other at a first respective end thereof; a locking pin provided adjacent a second end of the upper arm, and extending toward a respective second end of the lower arm, the locking pin comprising at a distal end thereof a pin head; a locking receptacle formed adjacent the second end of the lower arm, the locking receptacle containing therein at least one spring wire configured to resiliently deflect when the pin head of the locking pin is pushed into the locking receptacle, allowing the locking pin to move past the at least one spring wire so as to positively lock the second respective ends of the lower arm and the upper arm to each other; and wherein the at least one spring wire comprises first and second spring wires extending substantially parallel to each other in the locking receptacle and spaced apart at a distance less than a diametrical size associated with the pin head.

4. The jewelry clasp of claim 3, wherein the pin head is spherically shaped.

5. The jewelry clasp of claim 4, including a holding strip attached at one end thereof to an underside of the upper arm and having a free distal end with a pin opening therein, and said locking pin passing through said pin opening.

6. The jewelry clasp of claim 3, wherein the lower arm and the upper arm have respective, curved outer surfaces.

7. The jewelry clasp of claim 3, further including a jewelry ornament attached to the locking pin.

8. The jewelry clasp of claim 7, wherein the jewelry ornament is located between the holding strip and the underside of the upper arm.

9. The jewelry clasp of claim 7, wherein the jewelry ornament comprises a jewelry charm.

10. The jewelry clasp of claim 3, wherein each of the lower arm and the upper arm comprises a respective hinge and including a common hinge pin passing through and hingedly connecting the lower arm and the upper arm.

11. The jewelry clasp of claim 3, wherein an interior space is defined between the lower arm, the upper arm and the locking pin and for the passage therethrough and for removeably receiving a jewelry piece.

12. The jewelry clasp of claim 11, wherein the jewelry piece comprises one of a jewelry charm, a jewelry necklace, a jewelry bracelet, and a jewelry pendant.

13. The jewelry clasp of claim 3, wherein the locking pin is threadedly attached to the upper arm.

14. The jewelry clasp of claim 3, wherein the locking pin is attached to the upper arm via a pin cap.

15. The jewelry clasp of claim 3, wherein the at least one spring wire has a diameter size equal to or smaller than 0.5 mm.

16. The jewelry clasp of claim 3, wherein the at least one spring wire is pre-cast in the second arm at the time of its fabrication.

17. A jewelry closure device, comprising: a first arm and a second arm; a locking pin depending from the first arm, the locking pin comprising at a distal end thereof a pin head; and a locking receptacle formed on the second arm, the locking receptacle containing therein at least one spring wire configured to resiliently deflect when the pin head of the locking pin is pushed into the locking receptacle, allowing the locking pin to move past the at least one spring wire so as to positively lock the first arm and the second arm to each other, wherein the at least one spring wire has a diameter size equal to or smaller than 0.5 mm.

18. The jewelry closure of claim 17, wherein the at least one spring wire has a diameter size in the range 0.25 mm to 0.5 mm.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) FIG. 1 is a perspective showing the jewelry closure mechanism of the present invention, formed as a clasp.

(2) FIG. 2 is another perspective of the invention, showing the jewelry clasp in an opened position.

(3) FIGS. 3a, 3b and 3c provide an exploded, disassembled and perspective depiction of the components of the jewelry clasp of FIG. 1.

(4) FIG. 4 provides a side-view of the jewelry clasp of FIG. 1.

(5) FIG. 5 is a perspective showing jewelry ornaments or pieces used with the clasp of the present invention.

(6) FIG. 6 is a diagrammatic depiction of the basic concept of the invention, formed as a general purpose closure piece for jewelry.

DETAILED DESCRIPTION OF EMBODIMENTS OF THE INVENTION

(7) With initial reference to FIGS. 1, 3a and 3b, the primary components of the overall jewelry clasp 10 include a base arm 12, a swinging upper arm 30, both hingedly interconnected at one side thereof by a hinge 36. The opposed distal ends of the base arm 12 and the upper arm 30 are closeable by a locking mechanism 40.

(8) A glance at FIG. 5 enables appreciating one mode of use of the jewelry clasp 10, in which a chain or a bracelet component 80 can be easily placed between the closeable arms of the jewelry clasp and locked therein. In addition, the jewelry clasp 10 can permanently (or removeably) hold a jewelry charm 70 that has a ring 72 that is secured by the locking pin 41.

(9) More specifically, as can be seen in the disassembled drawings in FIGS. 3a, 3b and 3c, the base arm 12 comprises a body 14, curved on the outside toward the hinge 36 and provided with a cylindrically shaped hinge piece 16 with a bolt hole 18. A through-going opening 20 at the distal end of the base arm 12 is designed to receive the bulbous or spherical locking pin head 44 (of the upper arm 30) which pin head is sized to have a width-wise extending diameter 46 that just barely fits through the opening 20. The sidewise-penetrating orifices 22 are spaced relative to each other by a distance d (FIG. 3c), which distance is just slightly smaller than the diameter of the pin head 44. The orifices 22 receive a pair of pins or wires 24.

(10) Turning to FIG. 3a, the upper clasp arm 30 has an outer curved surface 32, and at one distal end thereof the hinge components 34, both containing a through-going hinge orifices 37, and being spaced from each other by the thickness of the hinge component 16 of the base arm 12. When the hinge components of the upper and lower clasp arms are assembled and a pin 37 is passed there-through, these arms hingedly swing relatively to each other as illustrated in FIG. 2.

(11) In FIG. 3a, at the openable end of the jewelry clasp, the pin 41 is passed through an opening 54 in the arcuate charm holder 50, which holder 50 is affixed to the bottom surface of the upper arm 30, at 52. The pin passes through another opening (not shown) in the upper arm and secured with a cap 42. The holding ring 72 of the charm 70 can be inserted into the space between the charm holder 50 and the upper arm 32 at the time that the pin 41 is attached, or at any time. For example, the pin opening (not shown) can be a threaded opening and the pin 41 might have a threaded end (opposite to its locking pin 44) so it can be threaded into the upper arm 32. Alternatively, cap 42 might contain the internal threads and the diameter of the opening might be slightly smaller than the diameter of the pin 41, to fix the position of the pin 41 relative to the upper arm 32.

(12) In everyday use, the charm 72 might be permanently affixed to the locking pin 41 as shown in FIG. 5, and this assembly, consisting of the charm 70 and the jewelry clasp 10, can be attached to the chain 80 or to a bracelet or the like. In fact, in the case of a bracelet, many such charms can be hung on a wrist bracelet, a necklace and the like.

(13) Preferably, the wires 24 extending in the locking opening 20 have their ends immovably secured in the orifices 22 to prevent their sliding inside the orifices and are made of material different than gold, for example stainless wire, that has the strength and resiliency (even at very low wire thicknesses) to withstand the repeated flexing during closing (and opening) of the clasp. Similarly, the locking pin 41 can similarly be made from material other than gold to assure that the bulbous locking pin 44 will not wear down over many years of use. These components do not normally come in contact with the human skin and therefore do not present issues of skin sensitiveness and the like.

(14) The jewelry locking clasp described above can also be used as an earring piece, in which case the locking pin 41 would likely be made of gold, while the wires 24 can be still made of stainless steel, without causing any discomfort or rashes in people having very sensitive ears, etc.

(15) With reference to FIG. 2, when the clasp 10 is used as a general purpose closure device, a chain or necklace 5 has one end thereof attached to one of the two arms while an opposite end of the chain 5 has a ring 7 with an opening large enough so that it can be placed over the locking receptacle with the bulb 44 passing through the ring 7 and allowing the bracelet or necklace 5 or the like to be worn around ones wrist or as a necklace that is worn around one's neck.

(16) While the invention has been described relative to the resilient pins 24 extending into the locking receptacle by being inserted through orifices 22, in fact, the wires 24 may be placed into a (lost wax) mold, in such a way that the wires 24 are precast together with the material of the lower arm 12 so that they are permanently in place and do not require special assembly, which saves on cost and may contribute to improving the overall aesthetics of the closure device.

(17) As can be appreciated from the side view of FIG. 4, the jewelry clasp 10 is dimensioned in such a way that merely pressing together the two arms 12, 30 will cause the locking pin 41 to pass through the locking opening 20, snap closing behind the retaining wires 24, without any looseness as the distal end of the charm holder 50 provides a counterforce in the opening direction. The clasp 10 is easily openable by merely pressing on the locking head 44, which will cause the overall pin 41 to snap open, once the locking bulb 44 has passed the halfway point between the wires 24.

(18) The clasp mechanism concept of the present invention utilizes a single closure, with little risk of this clasp opening accidentally, owing to the very strong positive locking force exerted by the wires 24, which disposes of the need for a double closure mechanism, e.g. a safety bar or the like being swung around the main closing mechanism.

(19) With reference to FIG. 6, when used as a general jewelry closure device 80, the invention can be described as consisting of first and second arms 80,82 where the piece 82 carries the aforementioned locking pin 41 and the other arm 80 has the locking receptacle 20 which supports the spring wires 24, as previously described. The overall closure device 80 can be made in extremely small, millimeter sized dimensions. The arms 80,82 have respective attachment rings 84,86. As previously noted, the spring wires can be fabricated of steel wire 0.5 mm in diameter and even at smaller diameters, for example 0.25 mm steel wire. Any other hard, high-temperature resistant metal, such as titanium, palladium, platinum and the like may be used.

(20) Although the present invention has been described in relation to particular embodiments thereof, many other variations and modifications and other uses will become apparent to those skilled in the art. It is preferred, therefore, that the present invention be limited not by the specific disclosure herein, but only by the appended claims.