Notice is given that the following patent document contains original material subject to copyright protection. The copyright owner has no objection to the facsimile or digital download reproduction of all or part of the patent document, but otherwise reserves all copyrights.
1. Field of the Invention
This invention relates to body jewelry and more particularly to gauged body jewelry.
2. Description of the Related Art
Gauged jewelry is piercing jewelry that requires the insertion of body piercing jewelry into an enlarged orifice formed in a desired location on the body, such as an earlobe, eyebrow or nose septum. A small orifice is formed in the tissue gradually stretched and enlarged by tapered or expanding gauges. After the orifice with the desired diameter is formed, the orifice may be filled with a solid, decorative cylindrical plug or with a cylindrical flesh tunnel with an empty center bore. The center bore enables viewers to see through the earlobe creating a unique, captivating appearance.
Dangle jewelry is large, decorative jewelry that hangs vertically from a body orifice or from a flesh tunnel formed or embedded into an earlobe. A finding is inserted into the orifice or into the flesh tunnel's center bore used to hang a decorative jewelry element. When the upper end of the finding is inserted into the center bore, it can be easily dislodged. In some instances, the upper end of the finding is placed between the skin and the outside surface of the plug or flesh tunnel which can be uncomfortable and cause tissue irrigation and damage.
What is needed is an improved finding for dangle jewelry specifically configured to be easily and securely attached to a flesh tunnel and is attractive and, less prone to being snagged and dislodged.
Disclosed is a finding designed for attaching dangle jewelry to a flesh tunnel. The flesh tunnel is a rigid, cylindrical structure with a center bore and two opposite end openings. The finding comprises a single wire formed or configured into three interconnected sections—an upper flesh tunnel engaging section configured to selectively engage a flesh tunnel, an intermediate earlobe extension section configured to extend downward along front and rear surfaces of the earlobe when the flesh tunnel engaging section is engaged to a flesh tunnel, and a lower biasing section that extends under the earlobe and connects to a decorative jewelry element. The lower biasing section can be easily manipulated by the user to attach and detach the finding from the flesh tunnel. The three above sections are formed symmetrically around the finding's longitudinal axis.
The flesh tunnel engaging section includes two straight posts configured to extend inward through the flesh tunnel's opposite ends and rest inside the flesh tunnel's center bore. The posts are aligned substantially perpendicular to the finding's longitudinal axis and sufficiently rigid to retain their shape to vertically support the finding and a decorative jewelry element from the flesh tunnel. The lengths of the posts are sufficient to be supported by the flesh tunnel and also allow the posts to be forced apart a sufficient distance to allow them to be easily removed from the flesh tunnel.
The intermediate earlobe extension section is configured to extend downward along front and rear surfaces of the earlobe when the two posts are inserted into the flesh tunnel. In one embodiment, the earlobe extension section comprises two legs integral with and perpendicularly aligned with the two posts. The shape and lengths of the legs are sufficient so that the two legs extend slightly below the lower surface of the earlobe. The lower portion of each leg extends or curves inward and converge with the opposite leg near the finding's longitudinal axis and form the lower biasing section.
The lower biasing section is a compression ring formed in the middle section of the wire. The compression ring includes two opposite side elements on opposite sides of the finding's longitudinal axis when attached to the flesh tunnel. The compression ring is located under the earlobe and the side elements are integral with the legs on the opposite sides of the earlobe. In one embodiment, the compression ring is a circular or oval-shaped ring that includes a front arc integral with the leg located adjacent to the rear surface of the earlobe and a rear arc integral with the leg located adjacent to the front surface of the earlobe. The arcs are identical in diameter so that when inward force is applied to them, they compress inward the same distance.
In one embodiment, the lower portions of the two arcs cross form a closed, lower loop centrally aligned with the finding's longitudinal axis. In another embodiment, the lower portions of the two arcs are joined to form a continuous ring structure. A decorative jewelry element is attached to the lower loop or directly to the continuous ring structure.
During use, the finding's two posts are inserted into the flesh tunnel's center bore. The upper portions of the legs press against the outside ends of the flesh tunnel thereby preventing excessive, side-to-side movement of the finding on the flesh tunnel that can cause irritation or discomfort.
The wire is sufficiently rigid and elastic so that the above sections formed in the wire maintained their original shape and orientations during normal use. Because each side element is integral to a leg on the opposite sides of the finding's longitudinal axis, and each leg is integral with the post on the same side of the longitudinal axis, when the two side elements on the compression ring are forced inward, the finding's two posts located inside the flesh tunnel are forced apart allowing them to be easily removed from the center bore. When the no force is applied to the side elements, the posts return to their original longitudinally aligned position. It should also be understood the wire is also sufficiently flexible to allow one end of the wire to be temporarily bent to allow a decorative jewelry element to be attached to the compression ring or the small loop.
Using the above described finding, a piece of dangle jewelry and a method for attaching dangle jewelry to a flesh tunnel are also described.
Referring to the accompanying Figs, there is disclosed dangle jewelry 10 designed to be attached to a rigid flesh tunnel 100 formed or embedded into body tissue 90 (for illustration the body tissue is shown as an earlobe 120 but it should be understood that the flesh tunnel 100 may be formed on other types of body tissues). The flesh tunnel 100 is a cylindrical structure inserted into a gauge orifice formed in the earlobe 120. The flesh tunnel 100 includes a longitudinally aligned a center bore 102 and two end openings 104, 106.
The dangle jewelry 10 includes an adjustable finding 20 designed to selectively attached to the center bore 102 formed on the flesh tunnel 100. During use, the finding 20 acts as an intermediate structure for easily and securely hanging a decorative jewelry element 70 from the flesh tunnel 100.
The adjustable finding 20 includes a single wire 22 bent and configured into at least three interconnected sections—an upper flesh tunnel engaging section 30, an intermediate earlobe extension section 40 and a lower biasing section 50 as shown in
The flesh tunnel engaging section 30 includes the wire's two opposing posts 32, 36 configured to be inserted into the flesh tunnel's two end openings 104, 106. After the finding 20 is formed, the posts 32, 36 are straight and longitudinally aligned to allow the ends 33, 37 and extend inward and are aligned in an end-to-end manner inside the flesh tunnel 100 as shown in
The earlobe extension section 40 includes two legs 42, 46 integrally formed to the posts 32, 36, respectively. The two legs 42, 46 extend downward on the front surface 124 and rear surface 126 of the earlobe 120, respectively. In the embodiment in
The lower biasing section 50 is configured to acts as a compression spring that resists light inward force applied to the opposite side elements 52, 54 on the biasing section 50. The lower biasing section 50 is a compression ring 51 with two opposite side elements 52, 54 on opposite sides of the finding's longitudinal axis 21 when attached to the flesh tunnel 100. Each side element 52, 53 is integral with a leg 42, 46, respectively formed on the opposite side of the earlobe 120. In one embodiment in
In
As shown in
During use, the small loop 62 on the decorative element 70 is attached to the compression ring 51 on the finding 20. As shown in
In the embodiments shown herein, the diameter of the wire is between 5 mm and 1.0 mm and is made of spring-tempered stainless steel (300 series). When the finding 20 is at rest, the legs 42, 46 are approximately 13 mm apart and each post 32, 36 is approximately 6.5 mm in length. In the embodiment shown herein, the closed loop section 50 or small loop 82 are approximately 2 to 20 mm, respectively, in diameter. The overall height or length of the finding 20 is 10 to 30 mm.
When the side elements 52, 54 are pressed inward, the ends 33, 37 of the posts 32, 36, respectively, are forced apart approximately 8 to 15 mm depending on the amount of pressure applied. Typically, the amount of force needed to squeeze the side elements 52, 54 to separate the ends 33, 37 of the posts 32, 36, respectively, is between 0.25 to 0.5 kg.
The flesh gauge 100 is approximately 3/16 to ½ inch in length, 3 to 25 mm in diameter, and the center bore 102 is at least 1 mm larger in diameter than the wire 22 used to make the finding.
The invention includes the adjustable finding 10, 10′ attached to a decorative jewelry element 70, and a method for attaching the decorative jewelry element 70, 80, 80′ respectively, to a flesh tunnel 100 attached to a body tissue, comprising the following steps:
a. selecting a decorative jewelry element 70, 80, 80′ attached to an adjustable finding 20, 20′, respectively, that includes a single wire with two opposing longitudinally aligned posts 32, 36, two opposing legs 40, 44 integral with said posts that extend over the front and rear surfaces of an earlobe with the posts inserted into the opposite ends of a flesh tunnel 100, and a compression ring 51 located below the earlobe with two side elements integral with said legs located on the opposite side of said finding's longitudinal axis when attached to an flesh tunnel 100, said decorative jewelry element 70 being attached to said compression ring, said compression ring acting as a compression ring forcing said posts into said flesh tunnel 100 and when said side elements are pressed inward, said posts move apart inside said flesh tunnel 100 allowing the finding to be detached from said flesh tunnel 100;
b. applying two inward, opposing forces on the outside surfaces of the two legs 42, 44 causing the ends of the posts 32, 36 to sufficiently separate to allow the two posts 32, 36 to be inserted into the opposite ends of a flesh tunnel 100; and
c. releasing the opposing forces on the two side elements 52, 54 enabling the two posts 32, 36 to extend fully into said flesh tunnel 100.
In compliance with the statute, the invention described has been described in language more or less specific as to structural features. It should be understood, however, that the invention is not limited to the specific features shown, since the means and construction shown comprises the preferred embodiments for putting the invention into effect. The invention is therefore claimed in its forms or modifications within the legitimate and valid scope of the amended claims, appropriately interpreted under the doctrine of equivalents.
This utility patent application is based on and claims the filing date benefit of U.S. provisional patent application (Application No. 61/930,874) filed on Jan. 23, 2014.
Number | Date | Country | |
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61930874 | Jan 2014 | US |