The present invention relates generally to jewelry articles, and more particularly to jewelry articles having magnetic elements and having interchangeable and/or movable settings.
The desirability of having jewelry articles, such as rings, pendants, earrings, bracelets, or broaches, with interchangeable settings has long been evident in the art. Being interchangeable, the setting can be matched to other articles of jewelry, clothing, or accessories. In my co-pending U.S. patent application Ser. No. 09/982,662, entitled “Decorative Articles with Interchangeable Settings,” I disclose interchangeable modules, which attach to decorative articles using mechanical structures. In the present application, however, jewelry articles having magnetic elements are disclosed. In one aspect of the present invention, the magnetic elements are used to magnetically couple portions of the jewelry article together to hold an interchangeable setting. In another aspect of the present invention, the magnetic elements are used to magnetically suspend a movable setting on a jewelry article.
Jewelry articles having magnets are disclosed in the art. For example, U.S. Pat. Nos. 4,059,971; 4,195,492; 4,424,689; 4,912,944; 4,982,581; 5,193,360; 5,283,966; 5,806,346; 6,101,843; and 6,305,192 and U.S. patent application publications Ser. Nos. 2001/0052245 and 2002/0073732 disclose articles of jewelry having magnets.
In one example, U.S. Pat. No. 5,353,608 to Berkowitz discloses a jewelry device having a setting member and a pair of hoops. The setting member has first and second display objects in opposite facing directions. The pair of hoops is pivotably connected to the setting member. The hoops can be rotated in opposite directions above and below the setting member to either display the first or second objects. When lying adjacent one another, the hoops are held together by a magnets at the bottom of the hoops. The setting is permanently and pivotally connected to the hoops. The hinged connections between the hoops and the setting member are difficult to manufacture and difficult to disguise on the jewelry article, which decreases the aesthetic value. In addition, the setting member can hold only two display objects, which limits the use of the jewelry article with other decorative articles.
In another example, U.S. Pat. No. 4,052,864 to Hofsaess discloses a jewelry article having a perpendicular mounting stem. A pendulum member is rotatable on the stem and has at least one pair of oppositely disposed magnets radially mounted thereto. A platform having various decorative elements is disposed above the pendulum and is freely rotatable about the mounting stem. The platform also includes a pair of magnets, which are radially aligned with the magnets of the pendulum. The identical magnetic pole of each pair of magnets and is juxtaposed, one above the other, causing a repulsing rotational action therebetween. To achieve the rotation, the platform and pendulum require complex bearing structures on the mounting stem.
The present invention is directed to overcoming, or at least reducing the effects of, one or more of the problems set forth above.
Jewelry articles having magnetic elements and interchangeable settings are disclosed. In one aspect, the jewelry articles include magnetically coupling body portions and interchangeable settings. The body portions magnetically couple together to hold the interchangeable settings. For example, the body portions can magnetically couple together using rare earth magnets to form a composite ring. Preferably, at least one of the body portions is rotatable to tangentially break the magnetic coupling between the body portions to interchange the setting.
In another aspect of the present invention, magnetic elements are used to magnetically suspend a movable setting on a jewelry article. An longitudinal member has at least one end connected to the jewelry article. The setting is movably disposed on the longitudinal member. A first magnetic element adjacent an end of the longitudinal member magnetically repels a second magnetic element on the setting.
The foregoing summary is not intended to summarize each potential embodiment or every aspect of the invention disclosed herein.
The foregoing summary, preferred embodiments, and other aspects of the present invention will be best understood with reference to a detailed description of specific embodiments of the invention, which follows, when read in conjunction with the accompanying drawings, in which:
While the invention is susceptible to various modifications and alternative forms, specific embodiments have been shown by way of example in the drawings and will be described in detail herein. However, it should be understood that the invention is not intended to be limited to the particular forms disclosed. Rather, the invention is to cover all modifications, equivalents, and alternatives falling within the scope of the invention as defined by the appended claims.
Referring to
The body portions 20a and 20b are substantially identical. As will become evident below, however, the body portions 20a and 20b need not be strictly identical. The body portions 20a and 20b can be composed of a suitable material, such as a precious metal, and can be formed by methods known in the art, such as machining, casting, soldering, or a combination thereof.
The first and second body portions 20a and 20b magnetically couple together to hold the interchangeable setting 40. In the present embodiment, the first and second body portions 20a and 20b magnetically couple together to form a composite ring 10. Thus, an opening 23a and 23b is defined in each of the body portions 20a and 20b to receive a finger of a person wearing the ring 10. However, one of ordinary skill in the art will appreciate that the body portions 20a and 20b according to the teachings of the present invention can be applied to other jewelry articles, such as earrings, bracelets, broaches, or pendants.
Each of the body portions 20a and 20b has a coupling side 22a and 22b and has a holding portion or mounting areas 24a and one not shown. In this and other embodiment, the holding portions 24a and one not shown define negative areas in the body portions, although this is not strictly necessary as will be evident herein. The coupling sides 22a and 22b are complimentary to one another and magnetically couple together, as will be discussed in more detail below. Preferably, the outside surfaces of the ring 10 adjacent the coupling sides 22a and 22b are machined and polished to substantially hide the mating, adjacent edges of the body portions 20a and 20b.
The interchangeable setting 40 is capable of being positioned in the mounting areas 24a and one not shown and held therein, as will be discussed in more detail below. In the present embodiment, the interchangeable setting 40 defines a sphere. As will become evident below, however, interchangeable settings according to the teachings of the present invention can have a number of shapes or forms, including interchangeable settings having other radial surfaces or having rectilinear surfaces.
Referring now to
At least one of the magnetic elements, for example element 30, is a permanent magnet. The permanent magnet can be, but is not limited to, a ferrite magnet, an alnico magnet, a rare earth-neodymium magnet, a rare earth-samarium cobalt magnet, or a sintered neodymium-iron-boron compound. The required dimensions and magnetic force for the magnetic elements depends on a number of variables, including the dimensions and weights of the jewelry article and interchangeable setting and a predetermined force to uncouple the magnetic element, for example. Determining the required dimensions and magnetic force for the magnetic elements on such variables falls within the ability of one having ordinary skill in the art.
The other magnetic element, for example element 32, can be substantially similar to the first magnetic element 30 and can have the same polarity as the first magnetic element 30. Alternatively, it will be appreciated that the second magnetic element 32 can include a piece of ferromagnetic material intended to mate with a permanent magnet on the other body portion (not shown). The magnetic elements 30 and 32, including permanent magnets or ferromagnetic materials, can be affixed with epoxy into holes formed in the coupling side 22 of the body portion 20. It will be appreciated that the magnetic elements 30 and 32 need not be strictly located between the finger opening 23 and the mounting area 24 as shown, although this location is preferable as it provides suitable space for the placement of the elements 30 and 32 in the material of the body portion 20. Furthermore, an additional magnetic element 33 can be located adjacent the finger opening 23, as shown in FIG. 2.
For the composite ring 10 of the present embodiment, both magnetic elements 30 and 32 are preferably rare earth-neodymium magnets, which provide substantially powerful magnetic fields relative to their size. For illustrative purposes only, the gross dimensions of the composite ring 10 can be about 1¼-inch by ⅞-inch by ¼-inch, although it is understood that these dimensions can be varied and do not limit the present invention in any way. The magnets 30 and 32 are disc-shaped, having an approximate diameter of 4.8-mm and a thickness of about 1.6-mm. The magnetic elements 30 and 32 preferably have the same polarity adjacent the mounting side 22 and mate with the opposing polarity of rare earth-neodymium magnets on the other body portion.
The mounting area 24 receives a portion of the interchangeable setting (not shown in
Referring to
As best shown in
To form the composite ring 10, the interchangeable setting 40 is first positioned in one of the mounting areas 24a from the direction of the coupling side 22a. The setting 40 is thereby held in the mounting area 24a in all directions except towards the coupling side 22a. The body portions 20a and 20b are then coupled in direction A. The magnetic elements 30a, 30b and others not shown on the respective coupling surfaces 22a and 22b are aligned and magnetically couple. The mounting areas 24a and 24b therefore positively hold the interchangeable setting 40 to the coupled body portions 20a and 20b.
The first magnetic element 30a has a first polarity. The opposing magnetic element 30b, if also a magnet, has a second polarity opposite the first polarity so that the elements 30a and 30b can magnetically couple when positioned adjacent one another. Alternatively, one of the magnetic elements, for example 30a, can be a magnet, while the other element 30b can simply be material of the body portion 20b if the body portion is of sufficient magnetic permeability. Alternatively, the other element 30b can be a magnetically permeable material embedded in the body portion 20b.
Referring to
Rotation of the second body portion 20b tangentially breaks the magnetic engagement between the magnetic elements 30a, 30b and 32a, 32b. With the magnetic engagement broken, the body portions 20a and 20b can be separated, freeing the setting 40 from the complimentary mounting areas 24a and 24b. Rotation of the second body portion 20b occurs about the setting 40 held in the mounting area 24b. The center 28 of the mounting area 24b defines an axis of rotation C that substantially aligns with a central axis or center of the interchangeable setting 40. Because the setting 40 is spherical in the present embodiment, the axis of rotation C passes through the center 48 of the spherical setting 40. Once uncoupled, another interchangeable setting (not shown) having a different composition or aesthetic appearance, for example, can be positioned in the mounting areas 24a and 24b and held by the magnetically coupled body portions 20a and 20b.
Referring to
The interchangeable setting 50 includes a mounting portion 51 and a decorative portion 56. The mounting portion 51 is a partial disc having a first mounting side 52 and a second mounting side 54. As best shown in
As in the embodiment of
To form the jewelry article 10, the first mounting side 52 of the interchangeable setting 50 is first positioned in the mounting area 24a of the first body portion 20a from the direction of the coupling side 22a. As shown in
In the present embodiment, either one or both of the body portions 20a and 20b is capable of rotating about the disc 51 of the setting in direction B to break the magnetic coupling of the elements 30a, 30b and those not shown. Rotation of the body portion 20 tangentially breaks the magnetic engagement between the magnetic elements 30a, 30b and those not shown. With the magnetic engagement broken, the body portions 20a and 20b can be separated, freeing the mounting sides 52 and 54 of the disc 51 from the complimentary mounting areas 24a and 24b.
Rotation of the body portion 20 occurs about an axis of rotation C where the center 58 of the disc 51 substantially aligns with the centers of the mounting areas 24. Because the setting 50 includes the disc 51 connected to a larger decorative portion 56 in the present embodiment, a necessary amount of space 55 on the cylindrical surface 53 of the disc 51 is required between the edges of the open top 27 of the body portion and the decorative portion 56. The space 55 allows the body portion 20 to rotate in direction B about axis C enough to break magnetic engagement of the elements (not shown) without the top of the body portion 20 interfering with the decorative portion 56 of the setting 50.
When the jewelry article 12 is worn, external contact of the decorative portion 56 could cause the disc 51 to tilt within the mounting areas 24a and 24b and pry the body portions 20a and 20b apart, which would be undesirable. In this and other embodiments, it will be appreciated that the decorative portion 56 can define a low profile extending beyond the coupled body portions 20a and 20b. The decorative portion 56 can also have contact with outer surfaces of the body portions 20a and 20b, which will not interfere with the coupling and uncoupling thereof and which can prevent tilting of the setting 50. For example, in
Referring to
The interchangeable setting 60 includes a first mounting portion 62, a second mounting portion 64, a decorative portion 66. The first mounting portion 62 forms a disc structure. Being disc-shaped, the disc portion 62 has a cylindrical surface 63 defined by a radius R from a center 68. A circumferential dimension of the cylindrical surface 63 of the disc portion 62 is at least greater than half of a circle. The decorative portion 66 is attached to the top of the disc portion 62 and can have any particular shape. The second mounting portion 64 forms a rectilinear structure, such as the T-shaped structure illustrated. Having the T-shape can prevent the setting from rotating about an axis within the second mounting area, which can prevent the setting from tilting within the second mounting area 24b and prying the body portions 20a and 20b apart due to external contact.
To form the jewelry article 14, one of the mounting portions, for example the disc portion 62, of the interchangeable setting 50 is first positioned in the holding portion or mounting area 24a of the first body portion 20a from the direction of the coupling side 22a. As best shown in
Once coupled, the magnetic elements 30a, 30b and those not shown on the respective coupling surfaces 22a and 22b magnetically couple. The mounting areas 24a and 24b therefore positively hold the interchangeable setting 50. In the present embodiment, the first body portion 20a is rotatable about the disc portion 62 of the setting 60. Being rectilinear, the rectilinear portion 64 and the second mounting area 24b do not allow the second body portion 20b to rotate. The body portions 20a and 20b are uncoupled by rotating the first body portion 20a about center axis C. Rotation of the first body portion 20a tangentially breaks the magnetic coupling of the magnetic elements.
As best shown in
Referring to
As discussed in previous embodiments, the interchangeable settings according to the present invention preferably include at least one mounting side having a surface defined by a radius, such as a radial, spherical, or cylindrical surface, that allows for a body portion of the jewelry article to rotate thererabout. In the present embodiment of
To form the jewelry article 16, one of the mounting ends, for example the first end 72, is positioned in the mounting area 24a of the first body portion 20a from the direction of the coupling side 22a. As best shown in
In the present embodiment, neither of the body portions 20a and 20b is rotatable. The body portions 20a and 20b are uncoupled in a reverse of direction A. This operation of uncoupling is not preferred, because breaking the coupling between the magnetic elements 30a, 30b, and those not shown in the reverse of direction A requires more force than breaking the coupling tangentially as discussed above with reference to previous embodiments. To facilitate uncoupling the body portions 20a and 20b in the reverse of direction A, each body portion 20a and 20b can include a groove 21a and 21b permitting a person to separate the body portions 20a and 20b with a fingernail or the like. The grooves 21a and 21b can be decorative to disguise their function.
Referring to
The interchangeable setting 80 includes a mounting portion 81 connected to a decorative portion 86. As discussed in previous embodiments, the interchangeable settings according to the present invention include mounting portions having positive structures, and the body portions have holding portions defining negative areas. In the present embodiment of
To form the jewelry article 18, the projecting structure 28b can be inserted into the second mounting area 84 from the direction of the coupling side 22a. The second body portion 20b can then be positioned adjacent the first body portion 20a in direction A so that the flat structure 28b is positioned adjacent the mounting surface 82. To uncouple the body portions 20a and 20b in the present embodiment, the first body portion 20a is rotatable about the mounting portion 81 installed in the holding area 24a. The rotation tangentially breaks the magnetic coupling between the magnetic elements 30a and 30b on the body portions 20a and 20b. To allow for rotation of the first body portion 20a, sufficient clearances are needed between the holding portion 24a and the mounting portion 81 and between the first body portion 20a and the decorative portion 86.
Referring to
The first body portion 120a defines a coupling surface 122a, which is recessed and forms a rim 123a around the bezel 120a. A holding portion or mounting area 124a is defined in the coupling surface 122a. The mounting area 124a receives a portion of the interchangeable setting 140 therein, as described below. A first pair of magnetic elements 130a and 130b are disposed in the coupling surface 122a and adjacent the mounting area 124a. The second body portion or bezel cap 120b has a coupling surface 122b with magnetic elements 130b and 132b disposed therein. The bezel cap 120b has a holding portion or mounting area 124b, which is an opening defined in the bezel cap 120b in the present embodiment. The setting 140 defines a sphere in the present embodiment, but this is not strictly necessary, as is evidenced herein. In general, the setting 140 includes a first mounting portion 142, a second mounting portion 144, and a decorative portion 146.
To assemble the jewelry article 100, the first mounting portion 142 of the setting 140 is disposed in the mounting area 124a of the bezel 120a and is positively held therein in all directions except towards the coupling surface 122a. The coupling surface 122b of the bezel cap 120b is then positioned adjacent the coupling surface 122a in direction A. The decorative portion 146 of the setting 140 is positioned through the mounting opening 124b for display, and the mounting opening 124b engages the second mounting portion 144 of the setting 140. The decorative portion 146 has a dimension less than a dimension D2 of the mounting opening 124b, and the second mounting portion 144 has a dimension greater than the dimension D2 of the mounting opening 124b. The bezel cap 120b is held to the bezel 120a by the mating of the first and second pairs of magnet elements 130a, 130b and 132a, 132b. When attached, the cap 120b holds the interchangeable setting 140 onto the bezel 120a.
Preferably, the decorative portion 146 of the setting defines a low profile above the bezel cap 120b to prevent inadvertent uncoupling of the cap 120b and bezel 120a. In addition, the edge 123b of the cap 120b is preferably flush with the rim 123a of the bezel 120a. In a preferred embodiment, the cap 120b is removed from the bezel 120a by rotating the cap 120b in direction B to tangentially break the magnetic coupling of the magnetic elements 130a, 130b and 132a, 132b. Thus, the rim 123a, edge 123b, opening 124b, and second mounting portion 144 each define radii from a center C of rotation.
Once uncoupled, a new setting (not shown) having a different shape or aesthetic quality can then be held with the magnetically coupling bezel 120a and cap 120b. In addition, the cap 120b can include decorative elements, such as inlays or embossed surfaces, in which case the cap 120b can also be interchanged with a new cap (not shown) having a different aesthetic characteristic. The setting 140 and the cap 120b can also be used with other jewelry articles (not shown). Therefore, the present invention enables a person to form numerous combinations of interchangeable elements to compose jewelry articles with different aesthetic characteristics.
In an alternative aspect to the present embodiment, the coupling surface 122a can define a cavity (not shown) for holding miscellaneous items. For example, the cavity may hold medication. The bezel cap 120b can be interchangeable and can have a setting (not shown) permanently attached thereto. The cap 120b can magnetically couple to the first body portion to hold the miscellaneous items in the cavity.
Referring to
The second mounting portion 154 defines a shoulder 157 with the first mounting portion 152 and defines a cylindrical surface 158 with the decorative portion 156. The shoulder 157 engages the bezel cap 120b of
Referring to
In the present embodiment, the setting 160 defines a bullet shape having a first mounting portion 162, a second mounting portion 164, and a decorative portion 166. As shown in
Assembly of the jewelry article 100 is substantially similar to that described above with reference to FIG. 8A. Once assembled, the mounting opening 124b engages the second mounting portion 164 of the setting 160, and the bezel cap 120b is held to the bezel 120a by the mating of the first and second pairs of magnet elements 130a, 130b and 132a, 132b.
In this embodiment, the cap 120b is removed from the bezel 120a by inserting an instrument 128 through a passage 126 defined adjacent the mounting area 124a. With the instrument 128, the setting 160 and the cap 120b are pushed away from the mounting area 124a and bezel 120a to break the magnetic coupling of the magnetic elements 130a, 130b and 132a, 132b. With the cap 120b removed in this manner, the rim 123a, edge 123b, opening 124b, and second mounting portion 164 can have any particular shape and need not be circular.
Referring to
To allow the decorative portion 176 to be positioned through the mounting area 124b of the bezel cap 120b of
As evidenced by the jewelry articles 10, 12, 14, 16, 18, 100, 102 and the settings 40, 50, 60, 70, 80, 140, 150, 160, and 170 of
Referring to
A first magnetic element 230 is attached to the distal end 224 of the axial member 220. Attachment of the first magnetic element 230 to the distal end 224 can be achieved using a number of methods known in the art. For example, the magnetic element 230 can be a rare earth magnet held by a plurality of prongs 225 attached to the distal end 224. The first magnetic element 230 has a specific polarity facing the axial member 220.
The setting 240 is movably disposed on the axial member 220. For example, the setting 240 defines a bore 242 having the axial member 220 disposed therethrough. One end of the setting 240 has a second magnetic element 232 with a polarity opposing that of the first magnetic element 230 on the distal end 224 of the axial member 220. For example, the second magnetic element 232 can be a rare earth magnet affixed with epoxy in a hole in the end of the setting 240. The first and second magnetic elements 230 and 232 magnetically repel one another when in proximity, and the weight of the setting 240 tends to force the magnetic elements 230 and 232 in proximity. The opposing polarities of the magnets elements 230 and 232 act to suspend the setting 240 on the axial member 220 and allow the setting 240 to move or oscillate along the axial member 220 in response to external movements and gravity.
Referring to
A first magnetic element 273 is attached adjacent the first end 272 of the longitudinal member 270. A second magnetic 275 element is attached adjacent the second end 274 of the longitudinal member 270. The magnetic elements 273 and 275 can be attached to the portions 262 and 264 of the body 260 or can be attached to the longitudinal member 270. The setting 280 is movably disposed on the longitudinal member 270. For example, the setting 280 can define a bore 282 having the longitudinal member 270 disposed therethrough. Besides being straight, the longitudinal member 270 can define a radius of curvature (not shown), in which case the bore 282 can also define an equivalent radius of curvature.
The sides of the setting 280 include magnetic elements 283 and 285. The magnetic elements 273 and 275 adjacent the ends of the longitudinal member 270 magnetically repel the magnetic elements 283 and 285 on the setting 280 when in proximity. The opposing polarities of the magnetic elements 272, 283, 275, and 285 allow the setting 280 to move or oscillate along the longitudinal member 270 in response to external movements.
With the benefit of the present disclosure, one of ordinary skill in the art of jewelry design will recognize that the present invention is applicable to jewelry articles other than the embodiment of rings and earrings explicitly illustrated herein. For example, the present invention is applicable to other embodiments of jewelry articles other than those explicitly illustrated herein, including but not limited to bracelets, chokers, necklaces, earrings, broaches, or pendants.
For example, instead of forming a composite ring, the magnetically coupling body portions of the present invention could form a composite, bracelet, a composite earring, or a composite choker. For example, instead of forming a bezel for a ring, the magnetically coupling body portions of the present invention could form a pendant for use with a necklace, form a bezel of an earring, or form a broach for use with a pin. One of ordinary skill in the are would find it a routine undertaking to modify the illustrated embodiments of the present invention to be used for these types of jewelry articles. For example, instead of having a movable setting on a ring or an earring, a bracelet or pendant can include a movable setting as disclosed herein.
While the invention has been described with reference to the preferred embodiments, obvious modifications and alterations are possible by those skilled in the related art. Therefore, it is intended that the invention include all such modifications and alterations to the full extent that they come within the scope of the following claims or the equivalents thereof.
This is a divisional of application Ser. No. 10/252,316, filed Sep. 23, 2002, now U.S. Pat. No. 6,715,315 to which priority is claimed and which is incorporated herein by reference in its entirety.
Number | Name | Date | Kind |
---|---|---|---|
2961796 | Davis | Nov 1960 | A |
4052864 | Hofsaess | Oct 1977 | A |
4295832 | Karell | Oct 1981 | A |
5913707 | Roman et al. | Jun 1999 | A |
6116982 | Roman et al. | Sep 2000 | A |
Number | Date | Country | |
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20040079111 A1 | Apr 2004 | US |
Number | Date | Country | |
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Parent | 10252316 | Sep 2002 | US |
Child | 10684929 | US |