The present invention relates in general to a jewelry clasp and pertains, more particularly, to an improved jewelry clasp that enables opposed swivel action as ready release of the jewelry clasp.
There are a variety of different types of jewelry clasps that exist in the prior art. However, there still remains a need for a jewelry clasp that provides opposed swivel action while still enabling a ready release and securing at the jewelry clasp.
The following are some examples of prior art jewelry clasps. U.S. Pat. No. 7,503,187 to Richardson describes a clasp for releasably fastening two objects but does not provide opposed end connections nor opposed swiveling. U.S. Pat. No. 6,481,069 to Cheng describes a jewelry clasp used to secure a jewelry piece to an individual. In this patent the clasp includes a female part attached to one end of the piece of jewelry that has a latch pivotally mounted within a recess on the female part. This clasp does not provide for the opposed end swiveling action nor the single release arrangement as in accordance with the present invention. U.S. Pat. No. 5,653,009 to Kassardjian describes a claps for connecting the ends of a jewelry member but the connections are not at opposed ends and there is not provided the swiveling action as in accordance with the present invention. U.S. Pat. No. 7,966,704 to Yurman describes a jewelry clasp with a release member but does not have opposed end swiveling.
Accordingly, it is an object of the present invention to provide an improved jewelry clasp and one that in particular enables swiveling action at both ends of the clasp.
Another object of the present invention is to provide an improved jewelry clasp including a release button feature that is readily accessible and that enables ready release of one side of the clasp as well as ready re-engagement.
To accomplish the foregoing and other objects, features and advantages of the present invention there is provided a clasp for releasably holding opposed ends of an elongated filament element. The clasp includes a housing including opposed sides each having a receiving port for accommodating respective opposed ends of the elongated filament element, and an open center chamber; a slide member received in the open center chamber of the housing, including opposed walls that each have a locking aperture, having an open center passage, and an end actuation button having locked and released positions; a locking disc engaged between the slide member and housing; a spring disposed within the open center passage of the slide member and positioned between the locking disc and the end actuation button; said spring constructed and arranged to bias the slide member and end actuation button to the locked position.
In accordance with other aspects of the present invention the receiving ports are each circular ports and the housing has an annular shape; the open chamber has internal opposed flat surfaces, and the slide member also has opposed flat surfaces meant to engage with the flat surfaces within the open chamber so that the slide member is rotationally fixed; the respective flat surfaces are arranged to align the locking apertures of the slide member with respective receiving ports of the housing; each locking aperture has an enlarged portion and contiguous smaller portion; wherein, in the released position, the actuation button is positioned so that the end of an elongated filament element is aligned with the enlarged portion of the locking aperture; wherein, in the locked position, the actuation button is positioned so that the end of an elongated filament element is aligned with the smaller portion of the locking aperture; each elongated filament element end has an end annular slot; wherein, in both locked and released positions, one of the elongated filament element ends is locked by means of engagement of the locking disc with the annular slot of the one elongated filament element end; wherein, in the released position, the other end of the elongated filament element is positioned so that the end of an elongated filament element is aligned with the enlarged portion of the locking aperture and free of locking by the slide member; wherein, in the locked position, the other end of the elongated filament element is positioned so that the end of an elongated filament element is aligned with the smaller portion of the locking aperture and thus locked by engagement with the smaller portion of the locking aperture of the slide member; the locking disc includes a head disc for engagement with the housing and a locking leg member extending from the locking disc and for engagement with the one end of the elongated filament element; each locking aperture has an enlarged portion and contiguous smaller portion; wherein, in the released position, the actuation button is positioned so that the end of an elongated filament element is aligned with the enlarged portion of the locking aperture; wherein, in the locked position, the actuation button is positioned so that the end of an elongated filament element is aligned with the smaller portion of the locking aperture; and wherein the locking leg member includes a forked leg construction extending toward a base of the housing and the actuation button.
In accordance with the present invention there is also provided a clasp for releasably holding and in combination with opposed ends of an elongated filament element, with each end of the elongated filament element having an end annular slot for locking. The clasp includes a housing including opposed sides each having a receiving port for accommodating respective opposed ends of the elongated filament element, and an open center chamber; a slide member received in the open center chamber of the housing, including opposed walls that each have a locking aperture, having an open center passage, and an end actuation button having locked and released positions; said locking aperture for selective engagement with one of said annular slots; a spring disposed within the open center passage of the slide member and positioned for biasing the end actuation button; and said spring constructed and arranged to bias the slide member and end actuation button to the locked position.
In accordance with still other aspects of the present invention including a locking disc engaged between the slide member and housing; wherein each locking aperture has an enlarged portion and contiguous smaller portion, wherein, in the released position, the other end of the elongated filament element is positioned so that the end of an elongated filament element is aligned with the enlarged portion of the locking aperture and free of locking by the slide member, and wherein, in the locked position, the other end of the elongated filament element is positioned so that the end of an elongated filament element is aligned with the smaller portion of the locking aperture and thus locked by engagement with the smaller portion of the locking aperture of the slide member; wherein, in both locked and released positions, one of the elongated filament element ends is locked by means of engagement of the locking disc with the annular slot of the one elongated filament element end.
It should be understood that the drawings are provided for the purpose of illustration only and are not intended to define the limits of the disclosure. The foregoing and other objects and advantages of the embodiments described herein will become apparent with reference to the following detailed description when taken in conjunction with the accompanying drawings in which:
The present invention relates to a clasp that is for releasably holding opposed ends of an elongated chain or cord. In, for example,
In the embodiment that is described herein, the filament element is in the form of a chain having links 23. However, many other different forms of a filament element may be employed. Also illustrated in the drawings are the enlarged ends 21. One of these ends 21 is cylindrical in form and the other end 21 may have a spiral groove. This spiral groove is used for the purpose of accommodating a charm base that can be screwed onto the grooved end once that end is released from the clasp housing 10.
The filament ends, in addition to the enlarged portion 21, also include a smaller shaft 22 having an annular groove 24. This arrangement is used for locking the filament ends with the housing 10 of the clasp. This locking and releasing arrangement is discussed in further detail in connection with other figures described herein such as in
The clasp C that is described herein includes a housing 10 that is generally cylindrical in shape having opposed sides with a receiving port 12. Refer, for example, to the exploded perspective view of
Referring now to
With respect to the construction of the housing 10, it is noted that the receiving ports 12 are illustrated as substantially circular in shape while the housing itself has a generally annular shape. The open center chamber 14 is provided with internal opposed flat surfaces 15. These surfaces are used in combination with the configuration of the slide member 30, to register the slide member 30 with the housing 10 in the position where the receiving ports 12 essentially align with the locking apertures 34. For this purpose, the slide member 30 also has opposed flat surfaces 35 that are meant to engage with the flat surfaces 15 within the open chamber so that there is proper alignment of the slide member with the housing and so that the slide member is essentially rotationally fixed in position while being maintained slidable within the housing. Thus, these respective flat surfaces on the slide member and housing are arranged to align the locking apertures of the slide member with the respective receiving ports of the housing.
With respect to each of the locking apertures, it is noted that it has a somewhat pear-shaped configuration with contiguous circular portions including an enlarged portion 34A and a smaller portion 34B. In the released position, the actuation button 31 is positioned so that the end of an elongated filament element is aligned with the enlarged portion of the locking aperture enabling release of the elongated filament from the clasp. On the other hand, in the lock position the actuation button 31 is positioned so that the end of the elongated filament element is aligned with the smaller portion of the locking aperture thus locking the elongated filament element in position.
As indicated previously, the elongated filament element has at each end a locking slot 24. Thus, for the end of the elongated filament element that is to be released, it is positioned so that, in the released position, the end of the elongated filament element is aligned with the enlarged portion of the locking aperture and thus releasable from the housing. On the other hand, in the lock position, the elongated filament element is positioned so that the end thereof is aligned with the smaller portion of the locking aperture and thus locked by engagement with the smaller portion of the locking aperture in the annular slot 24.
With respect to the locking disc 50, it may be considered as including a substantially circular head disc 32. This is for engagement with the housing 10. The locking disc further includes a locking leg member 54 extending from the head disc and for engagement with one end of the elongated filament element. The locking leg member includes a forked leg construction providing a U-shaped opening. The locking leg member extends from the head disc toward a base of the housing and toward the actuation button. The leg member 54 engages the slot 24 to maintain a fixed and substantially permanent coupling of that end of the elongated filament element with the housing 10.
Reference is now again made to the perspective view of
After the slide member 30 is in position, in the construction of the clasp, the spring 40 and locking disc 50 are then inserted into the position such as illustrated in
On the right-hand side of the housing illustrated in
Reference is now made to the cross-sectional view of
Having now described certain embodiments of the present invention, it should be apparent to those skilled in the art that numerous other embodiments and modifications thereof are contemplated as falling within the scope of the present invention. For example, in
Number | Name | Date | Kind |
---|---|---|---|
4358876 | Colognori | Nov 1982 | A |
4958420 | Bunz | Sep 1990 | A |
5642558 | Bodkin, Sr. | Jul 1997 | A |
5653009 | Kassardjian | Aug 1997 | A |
6349453 | Nicoletti et al. | Feb 2002 | B1 |
6481069 | Cheng | Nov 2002 | B1 |
6804868 | Fox | Oct 2004 | B2 |
7353665 | Richardson | Apr 2008 | B2 |
7503187 | Richardson | Mar 2009 | B2 |
7966704 | Yurman et al. | Jun 2011 | B2 |
Number | Date | Country |
---|---|---|
4323673 | Jan 1995 | DE |