Implementations of the present invention relate to jewelry, in particular customizable jewelry.
Jewelry wearers often purchase a wide range of rings, bracelets, or the like to provide a large variety of options for accenting an appearance. Of course, buying large amounts of jewelry can create cost and storage issues. The user may find this difficulty particularly problematic when the only difference among many of the jewelry items is found in just a portion of the ring or bracelet. For example, several rings may have different decorative elements, such as a mounted jewel or pattern, but similar base designs. In other cases, sometimes a person's physical dimensions, such as ring finger size, may change over time or in particular environments. This change can make the person's favorite jewelry item, in the form of a ring or bracelet, either too loose or too tight. The only option for the user in that case might be to take the jewelry to a dealer for resizing, or to remount the decorative element onto another base.
Conventional attempts to solve such problems involve options for interchanging decorative features of jewelry. In particular, the interchangeable jewelry market is becoming increasingly popular as jewelry wearers seek for a more cost effective means of accessorizing. Due to the wide variety of jewelry styles a user can presently purchase, a user might choose a particular jewel that matches a mood or outfit in order to match a certain desired aesthetic. In particular, it is common for users to change jewelry just to suit a particular outfit. One type of interchangeable jewelry system allows wearers to invest in a few base jewelry pieces (e.g., a ring, necklace, or bracelet) that have a cavity wherein a wearer can interchange different designs of jewels or charms. In such a system, the wearer need only purchase the interchangeable jewels or charms to have a diverse jewelry collection.
Such interchangeable jewelry systems, however, generally only require the wearer to press the jewel or charm into the cavity with their finger to secure it within the base jewelry piece, and lift it to remove the jewel or charm. Such an easy exchange creates the risk that the jewel or charm may not be completely secure within the cavity, and may fall out without the knowledge of the wearer. Even when this risk is accounted for with a detent-based locking mechanism, the wearer may be required to use a generic tool to remove the jewel or charm. Such tools tend to be universal to all jewels and charms used with that jewelry system. The tools add no additional design element to the jewelry collection, and add little extra security. Wearers of interchangeable jewelry may desire a level of security and customization for their jewelry that is not met with current methods employed by the given interchangeable jewelry system.
Accordingly, there are a number of difficulties in conventional jewelry, particularly where a wearer desires a high degree of customization.
Implementations of the present invention comprise systems, kits, methods, and apparatus configured to enable users to easily replace decorative features of a jewelry item. In at least one implementation, an interchangeable jewelry system can include a base having a recessed surround, a charm configured to fit within the recessed surround of the base, and a key configured to remove the charm from the recessed surround of the base. The decorative features can be easily secured into a jewelry base to provide a secure attachment that provides the jewelry item with a high-end appearance, and that does not readily appear to be removable.
In one implementation, an interchangeable key for use with an interchangeable jewelry system can include a first gripping element, a jewelry release element, and a stop element. The first gripping element and the jewelry release element can both be sized and configured to fit within a post recess of a jewelry base that receives a removable charm. In such an implementation, the user can remove the charm by inserting the key from the bottom of the jewelry base to release the charm. The user can then depress another, different decorative feature into the jewelry base in such a way that the overall jewelry item again has an appearance of permanence and high quality.
In one implementation, an interchangeable jewelry kit can include a jewelry base, one or more interchangeable charms, and one or more keys. The jewelry base can comprise a recessed surround and a post recess extending through the base. The one or more interchangeable charms can fit in the recessed surround of the jewelry base to be secured thereto. A manufacturer can configure the one or more keys so that a user can insert a key through the post recess of the base and separate a specific charm, or a specific group of charms, from the recessed surround of the jewelry base.
Additional features and advantages of exemplary implementations of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by the practice of such exemplary implementations. The features and advantages of such implementations may be realized and obtained by means of the instruments and combinations particularly pointed out in the appended claims. These and other features will become more fully apparent from the following description and appended claims, or may be learned by the practice of such exemplary implementations as set forth hereinafter.
In order to describe the manner in which the above recited and other advantages and features of the invention can be obtained, a more particular description of the invention briefly described above will be rendered by reference to specific embodiments thereof, which are illustrated in the appended drawings. Understanding that these drawings depict only typical embodiments of the invention and are not therefore to be considered to be limiting of its scope, the invention will be described and explained with additional specificity and detail through the use of the accompanying drawings in which:
Implementations of the present invention comprise systems, kits, methods, and apparatus configured to enable users to easily replace decorative features of a jewelry item. In at least one implementation, an interchangeable jewelry system can include a base having a recessed surround, a charm configured to fit within the recessed surround of the base, and a key configured to remove the charm from the recessed surround of the base. The decorative features can be easily secured into a jewelry base to provide a secure attachment that provides the jewelry item with a high-end appearance, and that does not readily appear to be removable.
In one implementation, an interchangeable key for use with an interchangeable jewelry system can include a first gripping element, a jewelry release element, and a stop element. The first gripping element and the jewelry release element can both be sized and configured to fit within a post recess of a jewelry base that receives a removable charm. In such an implementation, the user can remove the charm by inserting the key from the bottom of the jewelry base to release the charm. The user can then depress another, different decorative feature into the jewelry base in such a way that the overall jewelry item again has an appearance of permanence and high quality.
In one implementation, an interchangeable jewelry kit can include a jewelry base, one or more interchangeable charms, and one or more keys. The jewelry base can comprise a recessed surround and a post recess extending through the base. The one or more interchangeable charms can fit in the recessed surround of the jewelry base to be secured thereto. A manufacturer can configure the one or more keys so that a user can insert a key through the post recess of the base and separate a specific charm, or a specific group of charms, from the recessed surround of the jewelry base.
Accordingly, one will appreciate in view of the present specification and claims that implementations of the invention enable users to easily and securely interchange jewels in a secure and seamless manner. In particular, implementations of the present invention provide users with a wide range of customizations that, in at least one respect, enable a user to easily customize the visible parts of a jewelry item without requiring complete replacement of the jewelry item.
Referring now to the figures,
One will appreciate that the base 105 and charm can also take several basic forms. For example, in addition to the foregoing square shapes of
In addition, while
Referring back to the figures,
Along these lines,
For example, a manufacturer can form a base 105 in which the side walls are about 0.8 mm thick. This implementation can include a charm 110 and/or base 105 width/length D1 of about 16 mm so that an inner length/width D2 is about 14.4 mm. In this implementation, the manufacturer can form the post recess 120 with a diameter D5 of about 5.5 mm. In any of the implementations described herein, the manufacturer can form the base 105 so that an inner wall height D6 is about 1.5 mm and an inner circular feature 310 surrounding the post recess 120 has a diameter of about 12 mm. A manufacturer can form the charm 110 to include a complimentary circular feature on the bottom face of the charm 110 to correspond in shape with the inner circular feature 310 of the base 105. The inner circular feature 310 can be toroidal, conical, dome shaped, or the like.
One can also appreciate that a manufacturer can form the base 105 and/or charm 110 into other shapes, such as circular, as described above. In one circular implementation of the base 105, a manufacturer can form the base 105 with an outer diameter of about 14 mm, a wall thickness of about 1 mm, and a post recess diameter of about 5 mm. In another circular implementation, the manufacturer can form the base to have a post recess diameter of about 5.5 mm. In yet another circular implementation, the manufacturer can form the base 110 to have an outer diameter of 32 mm, an inner diameter of about 30 mm, a wall thickness of about 1 mm, and a post recess diameter of about 9 mm. In this embodiment, the base 110 can have an inner wall height of about 2.5 mm.
Of course, one will appreciate that different sizes and dimensions are possible with any of the implementations described herein without departing from the spirit of the invention.
Turning now to the other side of the base 105,
In this implementation, a user can insert the charm 110 into the recessed surround 115 of the base 105 so that the post 205 resides within the post recess 120. Various surfaces of the base 105 and charm 110 can contact each other to create a friction fit that holds the charm 110 and base 105 together. For example, an interface 405 between the edge 210 of the charm 110 and an inner wall surface 410 of the base 105 can provide at least part of the friction that holds the base 105 and charm 110 together. Also, friction between the post 205 and post recess 120 contacting one another can help secure the charm 110 to the base 105. The user can secure the charm 110 and base 105 together by simply pressing them towards one another with the user's fingers.
The implementations of the jewelry system 100 described herein, including the implementation shown in
In some implementations, a manufacturer can include one or more detents on various surfaces of the base 105 and charm 110 to increase the surface area in contact between the charm 110 and base 105. Detents can include grooves on the various surfaces of the base 105 and charm 110 where the manufacturer can add or remove material from the surfaces. For example,
A manufacturer can form the pins 325 using a flexible material, such as rubber, plastic, or other elastomeric material, so that the pins 325 flex downward when a user inserts the post 205 into the post recess 120. Once the user fully inserts the post 205 into the post recess 120, a space forms between the post 205 and post recess 205 that allows the pins 325 to flex back into their original position. To this end,
The pins 325 illustrated in
Also for example, in some embodiments, a manufacturer can remove material from the inner wall surface 410 of the base 105 to form a grooved detent. The manufacturer can add a ridge of material to the edge 210 of the charm 110 to form a detent on the charm 110 that corresponds in position with the detent on the base 105 when a user pushes the base 105 and charm 110 together.
A manufacturer can also form one or more detents, whether grooves formed by removing material or ridges formed by adding material, to the post 205 and post recess 120. Thus, when depressed by the user, the charm 110 detents (not shown) can expand into detents of the base 105, and thus help secure the charm 110 along with any other connection mechanisms illustrated or understood from the specification and figures herein. In one or more implementations, a manufacturer can create detents in the form of rings of material (not shown) extruding from the inner wall surface 410 of the base 105 and the edge 210 of the charm 110. One will appreciate that a manufacturer can add any number of features similar to detents, including the grooves and ridges described herein, as well as other features that aid in holding the charm 110 and base together 105 via friction.
As a result, in one or more implementations, a user cannot overcome the friction force holding the charm 110 and base 105 together by simply pulling the charm 110 and base 105 apart using fingers. Similarly, the user may not be able to grip the charm 110 and base 105 well enough once the user secures the charm 110 and base 105 together to create the force necessary to separate them. To this end, the interchangeable jewelry system 100, and various implementations of the system described herein, can include a key 500a that a user employs to separate the charm 110 and base 105.
Along these lines,
The key 500a can include various features in multiple implementations described herein. For example,
In one or more implementations, such as the implementation illustrated in
In addition, one will appreciate that the gauge and thickness of the first gripping element 510 and/or release element 520 can vary as needed to correspond to the wide variety of potential circumference dimensions of the post recess 120 of the bases 105 described herein. For example, the first gripping element 510 and/or release element 520 can be the same size, or can be any one of the following sizes of 2.6 mm, 4.5 mm, 5 mm, 5.5 mm, 9 mm, or 9.5 mm, or just less than that to fit within the 3 mm, 5 mm, 5.5 mm and/or 9 mm, 9.5 mm post recesses 120 shown or described herein. The first gripping element 510 and/or release element 520 can have a cross-sectional shape similar to the shape of the post recess 120 in the base 105 so that a user can insert the release element 520 and/or first gripping element 510 through the post recess 120.
Accordingly, one will appreciate that a wide variety of alternate implementations are possible within the spirit and scope of the present invention. For example, the gauge and thickness of the first gripping element 510 and/or release element 520 can vary as needed to correspond to the wide variety of potential circumference dimensions of the post recess 120 of the base 105. For example, the gripping element 510 and/or release element 520 can be the same size, or can be any one of the following sizes of 5 mm, 5.5 mm, 9 mm, or 9.5 mm, or just less than that to fit within the 5 mm, 5.5 mm and/or 9 mm, 9.5 mm cavities/recesses shown or described above.
In the illustrated implementation, the stop element 530 comprises an approximately oval design. A manufacturer can form stop elements 530 in other key designs that are other shapes, such as round, square, rectangular, or otherwise polygonal or irregularly shaped, so long as the stop element 530 the key 500b from inserting through the base 105 beyond the stop element 530 once the user releases the charm 110 from the base 105. The stop element 530 can protect the user from jamming fingers into the base 105 when pushing the charm 110 away with the key 500b.
In one or more implementations, a manufacturer can form a key with no stop element 530. In one implementation, a manufacturer can form a key with no second gripping element 515. Further along these lines, different key designs for use in accordance with implementations of the present invention can include, among other things, a wide variety of style elements. As shown in
In addition, one will appreciate that elements of the present invention can be used as a kit. In one implementation, for example, a kit for customizing jewelry can comprise one or more jewelry elements, each of which comprises a form of a base 105 and a plurality of charms 110. In one implementation, the kit comprises a base 105 and charms 110 that are squared, or alternatively only those that are rounded. In additional or alternative implementations, the kits comprise a mixture of squared and rounded versions of the base and charms. In still further implementations, the kit comprises one or more keys of differing possible designs such as those shown in
Additionally,
The present invention may be embodied in other specific forms without departing from its spirit or essential characteristics. The described embodiments are to be considered in all respects only as illustrative and not restrictive. The scope of the invention is, therefore, indicated by the appended claims rather than by the foregoing description. All changes which come within the meaning and range of equivalency of the claims are to be embraced within their scope.
The present application is a continuation of U.S. application Ser. No. 15/745,676, filed Jan. 17, 2018, which is a 35 U.S.C. § 371 National Stage of PCT Application No. PCT/US2017/064945, filed Dec. 6, 2017, which claims the benefit of U.S. application Ser. No. 15/932,446, filed on Dec. 6, 2016. The entire content of each of the aforementioned patent applications is incorporated herein by reference.
Number | Date | Country | |
---|---|---|---|
Parent | 15745676 | Jan 2018 | US |
Child | 16723906 | US | |
Parent | 15932446 | Dec 2016 | US |
Child | 15745676 | US |