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Patent Abstract
Jewelry-forming components of a body member having a first magnetized
portion and a further element associated therewith for magnetically
repelling or attracting and receiving another jewelry-forming component.
A plurality of such components can be magnetically coupled to form
an article of jewelry, generally in the form of a ring, bracelet,
necklace or chain link.
Patent Claims
1. A magnetic jewelry-forming component for preparing a jewelry
article, comprising a body member configured and dimensioned in
an ornamental shape and having a plurality of spaced magnetizable
portions for attractive or repulsive magnetic association with at
least one other magnetic jewelry-forming component, wherein the
body member has a magnetic strength that can be overcome by a person's
hand strength such that the body member and at least one other magnetic
jewelry-forming component can be placed in different positions relative
to each other, and wherein the magnetic field emitted or radiated
by the plurality of magnetized locations is effective at a distance
that is less than that which would be present if the entire component
is magnetized, so that the jewelry component does not have a deleterious
effect on magnetic-sensitive items that are handled by a person
wearing the jewelry component.
2. The jewelry-forming component of claim 1, wherein the plurality
of magnetized locations are symmetrically distributed on the body
member and each have about the same size and shape.
3. The jewelry-forming component of claim 1, which further includes
an adornment of a precious stone, a material having a different
color from that of the body member, indicia, or a part of a character,
pattern or design.
4. The jewelry-forming component of claim 1, wherein the magnetic
field emitted or radiated by the plurality of magnetized locations
is configured in an indicia or other ornamental pattern that is
invisible until revealed by magnetic particles or films.
5. An article of jewelry comprising at least two jewelry-forming
components according to claim 1 wherein the components are magnetically
attracted to each other and can be magnetically joined to form a
portion or all of the article.
6. The jewelry article of claim 5, wherein the plurality of magnetized
locations are arranged so that the components are uniquely engageable
to form the article.
7. The jewelry article of claim 5, wherein each of the at least
two components include between 4 and 40 magnetized locations and
are magnetically aligned in more than two relative positions.
8. The jewelry article of claim 5, wherein the first and second
components have inner and outer faces, and are magnetically coupled
in face to face relation, with the members being capable of being
coupled inner face to inner face or inner face to outer face so
that the components can be changed to provide different appearances
to the jewelry article.
9. The jewelry article of claim 8 wherein each face includes a
flat portion so that the components can be magnetically coupled
by contact of the flat portions.
10. The jewelry article of claim 9 wherein at least one of the
components has adornments on the inner surface that are hidden when
the members are magnetically coupled by contact of the inner faces,
but which adornments are visible when the members are magnetically
coupled by contact of the flat portions.
11. The jewelry article of claim 5 in the form of a ring, bracelet,
necklace or chain link.
12. A jewelry article comprising a continuous loop formed by magnetic
coupling of first and second oppositely magnetized jewelry-forming
components each comprising a body member configured and dimensioned
in an ornamental shape and having a first magnetizable portion for
attractive or repulsive magnetic association with at least one other
magnetic jewelry-forming component and at least one further element
for magnetically coupling to the at least one other magnetic jewelry-forming
component, wherein the body member has a magnetic strength that
can be overcome by a person's hand strength such that the body member
and at least one other magnetic jewelry-forming component can be
placed in different positions relative to each other, and wherein
the further element comprises a second magnetized portion that has
a polarity that is different from that of the at least one other
magnetic jewelry-forming component so that it is magnetically attracted
thereto.
13. The jewelry article of claim 12 wherein at least two jewelry
forming components are provided with magnetized portions that facilitate
retention of the components in spaced relation in a first position,
so that at least one component can be moved with respect to the
other by a user and, when the user releases the moved component,
it automatically returns to the first position.
14. The jewelry article of claim 13 wherein the jewelry forming
components are arranged on an axis so that one can me moved rotationally
with respect to the other.
15. The jewelry article of claim 12 wherein the first and second
body members are at least partially arcuate in shape.
16. The jewelry article of claim 15 wherein the first and second
body members have a C or U shape and are magnetically coupled with
the open areas not adjacent to form a loop to which other articles
can be releasably secured.
17. The jewelry article of claim 16 wherein the loop has a circular,
elliptical or oval shape, and optionally with straight or linear
portions.
18. The jewelry article of claim 17 wherein the first and second
body members each have outer and inner surfaces, and one or both
of the members has one or more adornments on the outer or inner
surface or both surfaces.
19. A jewelry article comprising an interlocked chain which comprises
a plurality of continuous loops according to claim 12, wherein the
loops are interlocked to form the chain.
20. The jewelry article of claim 19 further comprising one or more
charms or adornments securely but releasably attached to one or
more of the loops and optionally including a clasp for opening or
closing the chain for placement on the wearer.
21. The jewelry article of claim 19, wherein at least two jewelry
forming components join to form a clasp, with the movement of the
components from one position to another position signifying the
proper closing of the clasp.
22. A jewelry article comprising at least first and second magnetic
jewelry-forming components, each configured and dimensioned in a
predetermined shape and having a magnetizable portion for repulsive
magnetic association with the other component, wherein the magnetizable
portions repulse each other with a magnetic strength that can be
overcome by a person's hand strength such that the components can
be placed in different positions relative to each other, and the
first component further comprises a retaining structure that prevents
the second component from being completely separated from the first
component when the magnetized portions of the components repulse
each other, such that the magnetic repulsion between the components
enables them to attain a first configuration wherein the second
component is positioned remotely from the first component and a
second configuration wherein the person's hand strength applies
a force to urge the components towards each other, wherein upon
release of the force the components return to the first configuration.
Patent Description
CROSS-REFERENCE TO RELATED APPLICATIONS
[0001] This application is a continuation of International Application
PCT/US2004/010986 filed Apr. 9, 2004, which is a continuation-in-part
of copending U.S. non-provisional application Ser. No. 10/411,619
filed Apr. 10, 2003, and claims the benefit of U.S. provisional
applications 60/473,040 and 60/473,041 each filed May 23, 2003.
The entire content of each application is expressly incorporated
herein by reference thereto.
BACKGROUND ART
[0002] The invention relates to jewelry components that are magnetized
and joined to form new and unusual jewelry articles having heretofore
unknown properties and advantages. In particular, the present invention
relates to jewelry components that are magnetically attractable
to or repulsed by each other so a plurality of such components can
be joined or combined into rings, bracelets, chains, chokers, necklaces,
watchbands or the like, with the magnetic force holding the components
together or apart, as desired. Also, components can be connected
in any one of a number of positional relationships so that the final
jewelry article is self-sizing to the wearer.
[0003] Jewelry articles are generally made of different types of
precious metals and stones and are held together by mechanical linkages
or interconnections. This is of course well known to the skilled
artisans and in common use today. Designers are somewhat limited
by these mechanical connections, and it would be desirable to have
other joining forms for creation of new and unusual jewelry articles.
[0004] The use of magnetic force to join components is known in
the field. Various permanent magnets have been used, and these can
be provided with very strong magnetic fields. They are generally
used to hold two oppositely magnetized components together. Such
permanent magnets are generally made of non-precious metal alloys
and for that reason are not desirable for use in fine jewelry.
[0005] While there have been some attempts at making precious metal
magnets, two problems have been encountered. Many precious metal
magnets do not possess sufficient magnetic strength to secure jewelry
components together. Furthermore, attempts at alloying such metals
to increase their magnetic strength causes further dilution of the
precious metal content of the alloy, thus rendering it less desirable
for use in jewelry components or articles. A magnetized platinum
cobalt alloy is known, but previously has not been deemed to be
suitable for use in jewelry components or articles.
[0006] In addition, highly magnetic jewelry articles can be problematic
in certain situations. Contact of strong magnets with credit cards,
computer disks or other magnetically sensitive materials can cause
damage to such materials. Also, rings, bracelets and necklaces,
if strongly magnetized, are generally located such that they can
easily come in contact with magnetically sensitive materials to
cause damage or loss of information therein.
[0007] Also, when a person wishes to purchase an article of jewelry
to be worn, care must be taken to assure that the size of the piece
is correct. When purchasing an item such as a bracelet or necklace,
the size is selectable from one of a plurality of standard lengths
at the desire of the purchaser. Other items, such as watchbands,
are provided with removable links so that the size can be selected
to conform to the size of the person's wrist. For other items, such
as a ring, the jeweler will usually measure the size of the person's
finger so that the ring can easily slide along the person's finger
into place. It is often difficult to properly size the ring so that
it can be snugly maintained in place as it must also be sufficiently
large to pass over the person's knuckles, especially for people
that have arthritic joints. This means that the ring must be sized
larger to accomplish this and then will be too loose when in the
proper position. Also, the person's finger can change in size over
the years, and a ring that is correctly sized at one time can end
up being incorrectly sized in the future.
[0008] The accommodation of different sizes creates difficulties
for the jewelry manufacturer and seller, in that different sizes
must be made available, or specialized orders must be custom made
to the person's actual or desired dimensions. It would be desirable
to avoid having to carry large inventories of different sized jewelry
articles, as well as to avoid having to make custom sized pieces
for each customer. These problems are now solved by the present
invention.
[0009] It also would be desirable to have magnetically joinable
jewelry components to assist designers in creating new visual appealing
designs or for these components to have magnetic strengths that
are sufficiently strong to securely join jewelry components together.
The present invention now satisfies these needs.
[0010] Also, it would be desirable to have magnetically joinable
jewelry components to assist designers in creating new visual appealing
designs. It is also desirable for these components to have magnetic
strengths that are sufficiently strong to securely join jewelry
components together without emitting or radiating high magnetic
fields that can cause damage to magnetically sensitive materials
or similar items. The present invention now satisfies these needs
and provides other advantages for use in fine and costume jewelry
applications.
SUMMARY OF THE INVENTION
[0011] The present invention relates to a magnetic jewelry-forming
component for preparing a jewelry article. The article comprises
a body member configured and dimensioned in an ornamental shape
and having a first magnetizable portion for attractive or repulsive
magnetic association with at least one other magnetic jewelry-forming
component and at least one further element for magnetically coupling
to the at least one other magnetic jewelry-forming component. Advantageously,
the body member has a magnetic strength that can be overcome by
a person's hand strength such that the body member and at least
one other magnetic jewelry-forming component can be placed in different
positions relative to each other. Also, the further element comprises
(a) a second magnetized portion that has a polarity that is different
from that of the at least one other magnetic jewelry-forming component
so that it is magnetically attracted thereto or (b) a retaining
structure that prevents complete separation of the body member from
the at least one other magnetic jewelry-forming component when the
first magnetized portion of the body member has a polarity that
is the same as that of the at least one other magnetic jewelry-forming
component so that it is magnetically repulsed therefrom. The jewelry-forming
component generally has an ornamental shape that includes a curved
or arcuate surface, an annular configuration or a ring.
[0012] In one embodiment, the body member has at least one female
element associated therewith for magnetically attracting and receiving
a male element of the at least one other magnetic jewelry-forming
component, with the first magnetized portion providing a minimum
magnetic strength that is sufficient to retain the male element
within the female element and a maximum magnetic strength that can
be overcome by a person's hand strength to separate the male and
female elements, such that a plurality of such components can be
magnetically coupled to form an article of jewelry. The body member
can have an arcuate shape with the female element is located at
an end of the arcuate shape, and wherein the female element defines
a cavity having a depth sufficient to receive a male element of
the other jewelry-forming component at different positional relationships
therein.
[0013] Alternatively, the further element can be a male element
that extends away from the female element and is located on the
opposite end of the arcuate shape, with the male element having
a forward end that is magnetically attracted to the first magnetizable
portion of the body member of the at least one other magnetic jewelry-forming
component. The body member then can be at least partially tubular
and with first magnetized portion of the body member being provided
by a magnetized pellet or disk member. Also, the further element
can be female element located on an opposite end of the tubular
body member. Preferably, each female element defines a cavity having
a depth sufficient to receive a male element at different positional
relationships therein, and each female element is magnetized to
attract oppositely polarized male elements.
[0014] Another embodiment of the invention relates to a jewelry
article in the form of a ring, bracelet, anklet, chain, choker,
necklace, or watchband comprising between two and two hundred jewelry-forming
components defined herein. These articles are conveniently formed
by a plurality of female element jewelry-forming components and
a plurality of arcuate components having first and second male ends
which are configured and dimensioned to be received and magnetically
retained in the female elements of adjacent jewelry-forming components.
[0015] In yet another embodiment, the body member has outer and
inner surfaces, the at least one other jewelry-forming component
comprises at least one dimensioning member that is operatively associated
with the body member with the first magnetizable portion of the
body member and the dimensioning member having the same magnetic
polarity so that they repulse each other with a maximum magnetic
strength that can be overcome by a person's hand strength, such
that the magnetic repulsion between the body and dimensioning members
enables the component to attain a first configuration wherein the
dimensioning member is positioned remotely from the body member
and a second configuration wherein the person's hand strength urges
the dimensioning members towards the body member, so that the jewelry
component can be adjusted to conform to the person. The inner surface
of the body member preferably defines a cavity having a depth sufficient
to receive the at least one dimensioning member such that the dimensioning
member fits inside the cavity when urged therein by a person's hand
strength. Alternatively, the dimensioning member is associated with
the body member cavity with a mechanical connection that prevents
complete separation of the at least one dimensioning member from
the body member in the first configuration. The cavity may instead
include a narrowed or partially blocked opening and the mechanical
connection comprises an extension provided on the dimensioning member
that fits through the narrowed opening and includes am end portion
having a size or shape that is larger than the opening so that the
at least one dimensioning member cannot be separated from the body
member.
[0016] The body member of a preferred jewelry-forming component
is configured in the shape of a ring and the at least one dimensioning
member has an arcuate shape that is complementary to a portion of
the ring. When the ring is oval or round, it can include between
two and sixteen dimensioning members. Also, the ring can include
a ramp positioned adjacent a dimensioning member to minimize gaps
between adjacent dimensioning members. An advantage of these type
constructions is that the jewelry article is self-sizing to the
wearer.
[0017] In another embodiment, the further element comprises a plurality
of additional magnetized locations so that the jewelry-forming component
can be magnetically joined to another jewelry-forming component
in one or multiple relative positions, and wherein the magnetic
field emitted or radiated by the plurality of magnetized locations
is effective at a distance that is less than that which would be
present if the entire component is magnetized, so that the jewelry
component does not have a deleterious effect on magnetic-sensitive
items that are handled by a person wearing the jewelry component.
The plurality of magnetized locations may be symmetrically distributed
on the body member and each have about the same size and shape.
[0018] For any of these embodiments, an adornment of a precious
stone, a material having a different color from that of the body
member, indicia, or a part of a character, pattern or design can
be included for further visual effects in the final article. For
example, the magnetic field emitted or radiated by the plurality
of magnetized locations can be configured in an indicia or other
ornamental pattern that is invisible until revealed by magnetic
particles or films. The plurality of magnetized locations can be
arranged so that the components are uniquely engageable to form
the article. Each of the at least two components can include between
4 and 40 magnetized locations and are magnetically aligned in more
than two relative positions. The jewelry article can also magnetically
join these components and their adornments to form a bracelet, brooch,
pin or earring. The jewelry article can also include components
that form a clasp, with the movement of the components from one
position to another position signifying the proper closing of the
clasp.
[0019] The jewelry article can be provided in the form of a continuous
loop by magnetic coupling of first and second oppositely magnetized
jewelry-forming components. For this embodiment, the first and second
magnetized members are preferably at least partially arcuate in
shape. They also can have an inner face so that they can be magnetically
coupled in face to face relation. The first and second magnetized
members advantageously have a C or U shape and are magnetically
coupled so that open areas are not adjacent so that other articles
can be releasably secured to the loop. This way, the loop can be
openable as desired and can be a circular, elliptical or oval shape,
and optionally with straight or linear portions.
[0020] The article may also be provided in the form of a ring comprising
two jewelry-forming components and two arcuate male members that
are magnetically interconnected. The article can also be connected
wherein the male element of one component is magnetically coupled
to the female element of another component. These articles include
between two and two hundred jewelry-forming components connected
end to end. For a ring, at least two to thirty components can be
connected end to end to form the ring.
[0021] For rings, both of the members can include one or more adornments
on the outer or inner surface or both surfaces. If desired, each
outer surface can include a flat portion so that the members can
also be magnetically coupled by contact of the flat portions. This
allows the designer to allow at least one of the members to have
adornments on the inner surface that are hidden when the members
are magnetically coupled by contact of the inner faces, but which
adornments are visible when the members are magnetically coupled
by contact of the flat portions. Other forms include a ring, bracelet,
necklace or chain link.
[0022] A preferred form for the jewelry article is an interlocked
chain which comprises a plurality of continuous loops, wherein the
loops are interlocked to form the chain. Also, one or more charms
or adornments can be securely but releasably attached to one or
more of the loops. The chain can optionally include a clasp for
opening or closing the chain for placement on the wearer.
[0023] The jewelry article can also include a functional part for
opening and closing the continuous configuration to facilitate connection
or removal of the article for wearing. A preferred functional part
is a hinge or clasp. The article can include components that form
a clasp, with the movement of the components from one position to
another position signifying the proper closing of the clasp. The
jewelry article can also include a plurality of magnetized locations
arranged to be offset for providing rotational movement to the components
as they come together to automatically provide a mechanical interlock
of the components.
[0024] When at least two components are used, they can include
adornments so that, when the components can be magnetically joinable
in at least two fixed positions, and the adornments cooperate with
each other to form a first visual arrangement in one position and
at least one other different visual arrangement in another position.
In the article, the at least two components can be configured and
dimensioned to be discontinuous but when magnetically joined are
continuous so that other articles can be releasably added to the
components prior to joining. Alternatively, at least one component
can be fixed on the article while the other component can be magnetically
joined or removed to the at least one component to provide different
enhancements or adornments to the article.
BRIEF DESCRIPTION OF THE DRAWING FIGURES
[0025] Additional features and advantages of the invention are
provided and will become readily apparent from the following detailed
description and accompanying drawing figures, wherein:
[0026] FIG. 1 is a perspective view of a split ring according to
the invention and that is magnetically joined and ready to wear;
[0027] FIG. 2 is a view of the ring of FIG. 1 in a reverse position;
[0028] FIGS. 3 and 4 perspective views of another ring according
to invention to illustrate different magnetically joined positions;
[0029] FIGS. 5A and 5B are front views of two ring inner surfaces
that are separated to illustrate the magnetized areas of each;
[0030] FIGS. 6A and 6B each illustrate a component of a two-component
clasp;
[0031] FIG. 7 is a view of a chain made of C-shaped jewelry components
according to the invention;
[0032] FIG. 8 is an illustration of multiple poles created in a
single ring component by using a multiple pole magnetizing fixture;
[0033] FIG. 9 is an illustration of a ring made of two magnetically
mating jewelry-forming components according to the invention;
[0034] FIG. 10 is an illustration of an example a connection that
is resistant to separation for the components of FIG. 9;
[0035] FIG. 11 is an illustration of a different configuration
of a ring made of four magnetically mating jewelry-forming components
according to the invention, with certain features illustrated in
phantom;
[0036] FIG. 12 is a view of the overall appearance of the ring
of FIG. 11;
[0037] FIG. 13 is a view of a hexagonal shaped ring;
[0038] FIGS. 14A and 14B are illustrations of a self-sizing ring
based on magnetic attraction of the component parts;
[0039] FIGS. 15A and 15B are illustrations of a self-sizing ring
based on magnetic repulsion of the component parts;
[0040] FIGS. 16A and 16B are illustrations of a first arrangement
for connecting the dimensioning members and body member for the
self-sizing ring of FIGS. 15A and 15B;
[0041] FIG. 17 illustrates a second arrangement for connecting
the dimensioning members and body member for the self-sizing ring
of FIGS. 15A and 15B;
[0042] FIGS. 18A and 188B are illustrations of a third arrangement
for connecting the dimensioning members to the body member of the
self-sizing ring of FIGS. 15A and 15B; and
[0043] FIGS. 19A and 19B are view of a multi-magnet assembly of
circular disc magnets wherein each magnet is polarized on half of
its area.
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS
[0044] The term "loop" is utilized herein to refer to
a final article that has no beginning and no end, i.e., a ring,
oval, polygon or like configuration. This loop can partially or
fully arcuate or can have straight or linear portions therein. It
also can be configured as a tube of any cross sectional configuration.
[0045] FIG. 1 illustrates a typical split finger ring 100 having
two symmetrical ring portions A, B and being in a joined condition.
In this embodiment, the split ring is provided in two portions,
each magnetized with opposing polarities so that the portions are
magnetically attracted to each other. In use, the portions are held
together by magnetic force. Even so, the magnetic strength of the
joined components can be overcome by had force. The components can
be separated much more easily by applying a shearing force rather
than by trying to pull apart the components in directly opposite
directions. For this reason, it is sometimes useful to design a
flange or other retention member that prevents sliding motion for
shearing the parts.
[0046] One particularly useful advantage is the ability of the
ring to take on different external appearances. This feature is
illustrated schematically in FIGS. 3 and 4, which illustrate ring
200 having ring portions C and D. The rings are joined together
by magnetic force in one alignment in FIG. 3 and a different related
alignment in FIG. 4. Inlaid designs 201C, 201D, 202C, 202D, 203C,
202D, etc. are provided along the outer surfaces of the ring portions
C, D, with part of the design appearing on each portion. In the
arrangement shown, the design is an ellipse, half of which is provided
by each ring portion. Of course other arrangements are possible
where a greater or lesser portion of the design is provided by each
ring portion.
[0047] As shown in FIG. 3, the ellipse is aligned, while in FIG.
4, the halves of the ellipse provide the appearance of a meandering
line or a sine wave. Of course other positions can provide different
appearances, such as two "U" shaped portions facing each
other in an offset position wherein one end of each "U"
shaped portion is positioned midway, or otherwise, between the ends
of the other.
[0048] In addition, the ring portions C, D can include precious
stones or other non-metal adornments, illustrated schematically
as 210C, 210D, 211C, 211D, etc. In one position, shown in FIG. 3,
these are aligned while in FIG. 4, they are shown as offset. The
inner side of the ring that is not normally seen when being worn
is shown without any ornamentation, but the same type features described
above can be used to create secret messages or designs therein.
The jeweler is thus able to create a wide variety of different features
in a single ring.
[0049] In addition to the previous designs, the surfaces of the
ring that contact each other for joining can be provided with stones,
inlaid designs, writings or other ornamental features, as disclosed
in Kohl U.S. Pat. No. 5,669,241. As the present ring has no clasp,
the ring portions can be reversed to expose the previously hidden
adornments. These hidden adornments would be similar to what is
provided in a traditional Gimmal or Twin-ring. The reversed ring
portions are shown in FIG. 2, with the adornments being present
on ring faces 220C and 220D. The particular ring thus provides a
dramatically different appearance than when the ring portions are
reversed. Also, although not shown in FIG. 2, the same side inlaid
portions and/or stones would be visible in yet another pattern than
when the ring portions are reversed.
[0050] Of course, any designs, indicia, ornamentation or adornments
can be provided. These can be isolated, interconnected, or otherwise
provided on the ring sides to achieve the desired appearances. In
addition, it is possible for the wearer to purchase different colors
or appearances to thus create many different ring designs to coordinate
with the appropriate clothes worn or social gathering. In this way,
multicolor designs of hearts, flowers, words or the like can be
provided as designed by the user.
[0051] The term "adornment" is used herein to generally
define any item that is added to the jewelry component or article.
This would include stones, stone mountings, or inserts, overlays,
or other attachments of a precious, semi-precious or non-precious
metal or alloy, or of coatings of metal, plastic or elastomers that
are provided upon or with the component or article. The adornment
is preferably permanently attached or joined to the component or
article but it can also be releasably associated with the component
or article, e.g., a charm.
[0052] In another embodiment, one person can wear half the ring,
i.e., one ring portion, while another wears the other half or other
ring portion on an opposite hand. When the people hold hands, the
ring portions attract each other thus signifying the attraction
of one person to the other. It is also possible to prepare a two
piece article, such as a split or cracked heart or pendant, where
each piece has an opposite polarity. Thus, each party can wear one
of the pieces and these pieces would attract and magnetically connect
when brought together. This allows each couple that shares the pieces
to be attracted and mated to the other.
[0053] The embodiment of FIG. 1 also illustrates a split ring in
two portions, each magnetized with a different polarity so that
the portions are magnetically attracted to each other, with the
force of the magnetism contained so that the ring does not provide
magnetic forces that would interfere with magnetic responsive articles
such as computer disks, credit cards, watches and the like. This
can be done by imparting magnetic forces that produce short magnetic
field lines so that the components are attracted to themselves but
without emitting significant field lines.
[0054] To reduce magnetic force, each portion of the ring is not
completely magnetized, but is instead magnetized only in certain
discrete areas. For example, a plurality of alternating magnet pole
segments on the surface can be created, as shown in FIG. 8. When
this ring portion comes into contact with its mate, the opposite
poles will attract and the portions will align themselves to the
opposite pole. This alignment is automatic and imparts relative
motion to the components, which motion can be used to advantage
in providing mechanical interlocking. When the ring portions are
circular in circumference and having mating faces that contact for
magnetic connection, a plurality of spaced magnetized areas are
spaced about the mating surfaces of the rings. The same number of
magnetized areas can be provided on each ring portion, or different
numbers of such areas can be provided so that the ring is only capable
of being positioned in certain ways. In a most preferred embodiment,
as shown, the discrete magnetized areas are equally spaced about
the ring face and the same number of areas are provided on each
ring portion.
[0055] The relative size of the magnetized areas is also taken
into consideration. While the same size areas can be magnetized
for convenience, different size areas can be provided as well. In
general, the larger the size of the magnetized area, the lesser
number of such areas are needed on the ring portion for secure joining.
It is desirable to make the matching magnetized areas of each ring
portion the same size, but this is not critical.
[0056] One reason for making multiple areas of magnetic field is
to obtain relative small but short localized field strengths. These
would provide much weaker overall magnetic strength than if the
entire ring or jewelry object is to be magnetized. Also, the smaller
magnetized areas are more superficial in nature, and the field lines
do not radiate far beyond the object if at all. Thus, the jewelry
has no deleterious affect on watches, credit cards, computer disks
or related items, while still providing magnetic force sufficient
to impart the desired features to the jewelry.
[0057] It should be noted that the magnetic strength of the joined
components can be overcome much more easily by applying a shearing
force rather than by trying to pull apart the components in directly
opposite directions. For this reason, it is sometimes useful to
design a flange or other retention member that prevents sliding
motion for shearing the parts.
[0058] In a useful arrangement for a finger ring, between 6 and
24 equally spaced magnetic poles are provided around each ring portion.
Preferably, 8 to 20 poles are used, with particularly advantageous
effects being obtained with 12 to 16 poles. In general, between
4 and 40 poles can be used. The poles can be provided as shown in
FIG. 8, where the darker areas illustrate the magnetized portions
of the ring and the lighter areas indicate non-magnetized portions.
In that Figure, 12 poles are provided.
[0059] FIG. 5 illustrates two ring portions A, B each provided
with 12 poles, 1, 2, . . . 12. It is possible to rotate one ring
position with regard to the other so that they can be magnetically
joined in any one of twelve relative positions; i.e., where pole
1 on ring portion A is opposite pole 1 on ring portion B, pole 1
on ring portion A is opposite pole 2 of ring portion B, etc. The
wearer of the ring can rotate the ring portions while wearing the
ring to move between these positions. Each time the ring portions
are moved into a subsequent position, the person can feel the sensation
of the ring portions being attracted into the new position with
a tactile, snapping effect. In addition to providing amusement to
the wearer, this discernable sensation provides other advantages
as discussed herein.
[0060] In another embodiment, when the portions are combined as
a two piece article, for example, the split or cracked heart or
pendant mentioned above, the poles can be positioned on these pieces
such that only the true mating piece will form the magnetic connection.
This allows each couple that shares the pieces to be uniquely attracted
and mated only to each other and not to any other portions.
[0061] In yet another embodiment, the multiple poles can be configured
in the component as an indicia or other ornamental pattern that
would be invisible during wearing of the component until and unless
particles or films of magnetizable indicators, e.g., iron filings
or films that are responsive to magnetic fields, come into proximity
with the component. These embodiments indicate the wide range of
utility of the present invention.
[0062] The invention is not limited to rings but can be applied
to many different types of jewelry components of the types disclosed
herein. For example, the magnetic portions can be used to form chain
links, clasps or stone mountings. One portion can be used to magnetically
mount an adornment onto any other portion that forms part of a larger
jewelry article. For example, a bracelet or necklace can be provided
with magnetized portions that can receive other magnetized portions
that carry stones, crystal or contrasting color components or the
like. In this way, the owner of the piece can custom design it for
the occasion by attaching the desired color coordinated stones or
colored portions for example to complement an outfit or signify
the occasion.
[0063] Another advantageous utility of the tactile sensation of
the portions clicking or locking into position is when the portions
are utilized as part of a clasp having no visible means of connection.
The clicking provides an indication of a positive locking of the
parts together so that the user knows that the article has been
properly joined for wearing. In addition, the multiple poles can
be offset so that upon contact of the components, the poles impart
a rotational movement to one component relative to the other, and
this movement can be used to create an automatic mechanical interlock
as the component moves from one position to another. This provides
an even more secure connection and closing of the clasp.
[0064] This feature is illustrated in FIGS. 6A and 6B, where a
specially designed clasp is created from the mating of two components
250, 275. Component 250 has a generally cylindrical head portion
255 and a generally cylindrical male element 260 extending therefrom.
The male element 260 has an L-shaped groove 265 on its exterior
surface. Component 275 has a generally cylindrically shaped body
290 and is of approximately the same external dimension as that
of the head portion 255. Component 275 has an internal bore 280
to receive male element 260 and a pin member 285 that rides in groove
265 of component 250. Face 270 of component 250 is magnetized with
multiple poles, as is the matching face 295 of component 275, except
that these poles are oriented such that they as the pin rides in
the groove when the components are brought together. When the pin
reaches the L-shaped end of the groove, the poles impart a rotation
to the components so that the pin moves into the L-shaped portion
of the groove, thus, automatically and safely locking the components
together. The user can undo the clasp by counter-rotating the components
and then pulling them apart. A wide variety of different mechanical
configurations can be created using this principal and all are covered
by this invention.
[0065] There are numerous ways to provide the plural magnetic locations
on the article. Conventional magnetic materials can be buried or
hidden in gold, silver or other precious metals that are not magnetizable.
In this way, the precious metal would provide the desired appearance
of the piece while the hidden magnetized material would provide
the desired magnetic pole.
[0066] A less complex way to achieve this result is to utilize
a magnetizable precious metal, such as POLARIUM.RTM. as described
herein. This alloy can simply be magnetized in the desired locations
using the appropriate fixtures as is known to the skilled magnetist.
[0067] Other magnetizable precious metal alloys can also be used
if desired. In all cases, the magnetic strength of the alloy must
be sufficiently high to provide secure magnetic joining of the components
without generating high magnetic fields that would affect magnetic
sensitive components when handled by a wearer of the jewelry. For
example, a person wearing a ring according to the invention can
safely handle credit cards or computer diskettes without damaging
the electronic information therein. A distance of as small as 1/16th
of an inch or less between the article and magnetic sensitive component
is generally sufficient to avoid problems of this type.
[0068] For costume jewelry or other less expensive pieces, any
conventional permanent magnet can instead be used. These can be
visible or hidden, such as by coatings, encapsulation, or encasement,
or as an inlay or by placement into a recess in a jewelry article
or component.
[0069] Another use of the components of the invention is as two
discontinuous members that when joined form a continuous item. For
example, two "U" or "C" shaped members can be
designed to be magnetically joined to form, e.g., a circle or oval.
In this way, a chain can be fastened by interconnecting the first
individual components prior to magnetically joining the second individual
component to complete the loop. In addition, charms or other items
can be easily and removably added or taken away from the links as
desired.
[0070] This is illustrated in FIG. 7, where chain 300 has C-shaped
links 301, 302 magnetically joined together while physically interlocked.
Chains 303, designs 304 or letters 305, can be added to the chain
as desired and are removable if changes need to be made for any
reason.
[0071] FIG. 9 illustrates the most simple construction for a self-sizing
ring according to the invention. The ring 310 is made of two jewelry-forming
components 315, 320. Each component is a semi-circle having a female
element 325, 330 and a male element 335, 340. The inner diameter
of the female element is preferably uniform along its length and
is chosen to be slightly larger than the outer diameter of the correspondingly
configured male element to allow the male element to move freely
into and out of the female element. The interiors of the female
elements are shown in phantom lines. Instead of having uniform diameters
along their lengths, the male member and female member can have
gradually decreasing diameters again configured so that the male
element can move freely into and out of the female element.
[0072] Any cross sectional configuration of the male and female
elements is possible. Although shown as round in the preferred embodiments
of these components, other configurations such as polygonal, elliptical
or combinations thereof. While the male and female components are
preferably of the same configuration, this is not necessary and
any matable configurations can be used. Also, the shape of the outer
surface of these components is unlimited and can be of any desired
shape with or without additional ornamentation, undulations, or
other surface characteristics.
[0073] It is this movement in combination with the magnetic attraction
of the elements that allows the ring to be self-sizing. The movement
of the parts is illustrated in FIG. 9 by arrows. The parts are magnetized
sufficiently so that male and female elements engage and are magnetically
held together. This is easily done by imparting one magnetic force
(i.e., either positive or negative) to the body 345 of the component
behind the female portion, and by imparting the opposite magnetic
force to the male element. Alternatively, one magnetic force can
be imparted to the rear portion 350 of the male element, while the
opposite magnetic force can be imparted to the female element. In
each case, the male and female ends of the components would be attracted
to each other, urging the male element into the female element to
result in a magnetic connection of the components. The ring is simply
and easily formed by simply inserting the male element of each component
into the female element of the other component and allowing the
magnetic attraction to cause the parts to come together and stay
in place.
[0074] In another arrangement, illustrated schematically in cross-section
FIG. 10, a more permanent connection between the components of the
ring or jewelry piece can be achieved by providing the male elements
with a larger head 355 in combination with a crimped or flanged
end 360 at the end of the female element. While this structure allows
the male element to move within the female element, if prevents
the male element from being removed from the female element. Instead
of the crimped or flanged end, a pin, screw or the like could simply
be provided near the opening of the female element so that, after
the male element head is inserted, the pin or screw can be used
to prevent the head of the male element from being withdrawn from
the female element cavity. Also, the male end can be provided with
a groove and snap ring to provide the larger portion that prevents
removal of the head from the cavity. Other arrangements for achieving
this structure, such as an interlocking design, are well known to
skilled artisans and can alternatively be used if desired.
[0075] In the most compact state of the ring or jewelry piece,
each male element is inserted as far as possible into the female
element. A cavity of finite depth can be used so that the forward
end of the male element stops by abutting the innermost end of the
female element. Alternatively, when a tube or tubular cavity is
used as the female element, the rearward portion of the male element
can be provided with a shoulder or other protrusion which will act
as a stop. These define the smallest size of the piece. Of course,
each component can be separated so that a much larger size is provided.
[0076] The ring of FIG. 9 is easily slid onto the wearer's finger
and expanded over the wearer's knuckle with little effort. The force
applied by the user's hands to slide on the ring easily overcomes
the appropriate magnetic force between the male and female elements,
thus allowing the ring to expand. As the ring is slipped onto the
finger of a wearer, the diameter of the finger knuckle, being larger
than the inner diameter of the ring, urges the components away from
each other. After proper placement at the base of the finger, the
magnetic attraction of the male and female elements provides the
smallest size that snugly and comfortably conforms to the base of
the wearer's finger without compressing or squeezing it. Also, by
overcoming the magnetic attraction force, the parts can be slightly
separated to accommodate movement over the knuckles or variations
of finger diameters to easily put on or take off the ring. This
enables the ring to be self-sizing in that it will conform to many
different finger sizes as well as facilitate movement over large
or arthritic knuckles without pain or effort. A snug but comfortable
fit of the ring is provided on the person's finger without having
to measure the finger or select particular predetermined ring sizes
by trial and error sampling.
[0077] "Self-sizing to the wearer" means that the article
of jewelry includes jewelry-forming components that in one configuration
has magnetically attracted elements that provide a minimum circumference,
perimeter or length to the article, but that the elements may be
moved relative to each other so that the article can attain a maximum
circumference, perimeter or length which facilitates placement of
the article around the finger, wrist, ankle, arm, leg, neck or waist
of the wearer. Generally, the magnetically attracted components
can be separated or moved further apart by the hand strength of
the wearer so that a larger size of the article is achieved; and
that after placement on the wearer, the elements are magnetically
attracted to the extent that a smaller or comfortably snug fit of
the article on the wearer is achieved without uncomfortably compressing
or squeezing the body part of the wearer.
[0078] While the drawing figures utilize rings as preferred examples
of jewelry articles that can be made from the magnetic jewelry components
of the invention, the skilled artisan would of course recognize
that other items, such as bracelets, ankle or belly chains, necklaces
or watchbands can be made in the same manner. In those pieces, however,
the parts can be designed with a different curvature and a larger
number of components would be magnetically joined together to make
the piece. As to curvature and overall configuration of the components,
anything from a straight to any appropriately curved configuration
would be acceptable, and the user could select different combinations
depending upon the desired final visual appearance of the article.
[0079] As above, different stones, settings or other decorative
or ornamental elements can be carried by one or more or even by
all of the components. For these types of articles, a clasp or other
closure element is not necessarily required as the parts are retained
in connection due to magnetic force. Of course, there is no reason
why a conventional clasp or other end joining member cannot be used,
if desired, for a particular effect.
[0080] This connection feature is obtained by providing the mating
portions of the components with sufficient magnetic strength so
that the elements try to move as closely together as possible. This
is conveniently achieved by providing a magnetic strength of between
200 and 4500 Gauss depending upon distances between the parts, types,
shapes and sizes of magnets, etc.. As the skilled artisan would
know, this magnetic strength should be sufficiently low that the
elements can be easily separated either by simply sliding the article
over the finger, foot, hand, head, legs or torso of the wearer,
or by using hand strength to pull apart or expand the article. Depending
upon the specific designs utilized, the article can be separated
into the jewelry-forming components or the components can be moved
to different relative positions, thus enabling the article to temporarily
assume an expanded or larger size configuration to facilitate placement
on the wearer.
[0081] As noted above, the magnetized portion of the body member
has a sufficiently high magnetic strength to retain the male member
within the female member to hold the jewelry article together, but
this magnetic strength is not greater than that provided by the
strength of an average person's hands. Thus, the person or wearer
of the article has enough strength to retract or pull apart the
male member at least partially from within the female member. This
enables the size of the article of jewelry to be adjustable to accommodate
placement on the wearer. In some designs, if desired or necessary,
the components can be disassembled to allow cleaning or rearrangement.
Different components can reassembled in a different arrangement,
if desired, or can be interchanged with other components of similar
size to provide a different appearance to the piece, e.g., by providing
different colors, stones or other items to match the clothing or
the wearer or to simply provide a different visual effect to the
piece.
[0082] In a preferred embodiment, the inner surface of the female
element has a relatively uniform circumference so that the male
element can easily move into or out of the female element. This
enables the components to be separated or taken apart for ease of
removal or for cleaning. This construction also facilitates reconnection
of the components in different combination or with different components
to alter or modify the overall appearance of the ring. Although
two components are illustrated in FIG. 9, it is within the skill
of the art to use any reasonable number of components to create
further adjustability to the ring. Depending upon the size of the
components and the desired final size of the ring, anywhere between
two to as many as thirty or more components can be used. These components
can all be of the same size for convenience of manufacture, or one
or more or even all of them can be of different sizes, shapes or
lengths. As above, different stones, settings or other decorative
or ornamental elements can be carried by one or more or even by
all of the components. The components can be combinable in a specific
sequence, with the sizes selected or configured so that only one
connection arrangement is possible, or they can be sized to be interchangeable
to enable the user to change the appearance of the ring by assembling
the components in a different order or arrangement. One of ordinary
skill in the art can devise numerous jewelry arrangements and configurations
now that these jewelry-forming components have been developed.
[0083] In another preferred embodiment, a four-part ring 400 can
be made in a slightly different way, as illustrated in FIG. 11,
where two dual female elements 380, 385 can be connected to two
dual male elements 390, 395. The male components can be provided
with one type of magnetic force (i.e., positive or negative), while
the female components can be provided with the opposite magnetic
force so that these components may be magnetically coupled as shown.
Alternatively, coupling may be achieved by providing each end of
the female component with a different magnetic polarity and providing
the mating male components with an opposite polarity to that of
the female components.
[0084] Female component 380 is an arcuate tube the entire body
of which is magnetized to one polarity while male component 395
is a solid arcuate rod that is magnetized with an opposite polarity
to that of the female component 380. Male component 390 illustrates
another feature of the invention, namely the use of a hinge 370
that allows the ends 390A, 390B of the male component to move relative
to each other as those ends are slidingly coupled with the female
elements 380, 385. Of course, male elements 390A, 390B would be
magnetized with a polarity that is opposite to that of the female
components 380, 385 so that those parts can be magnetically coupled.
[0085] Female component 385 illustrates an alternative embodiment,
where a magnetized pellet or disk 375 having the opposite polarity
to that of the polarized male components 390B, 395. This pellet
or disk 375 can be inserted in the interior of the tubular female
element 385 and spaced from the ends so that it can provide a magnetic
force that attracts the opposite magnetic force of the male elements
390B, 395. This pellet or disk 375 can vary over a wide range of
sizes and shapes, its only requirement being that it have a sufficient
magnetic strength to attract the forward end of the male element
in the manner described herein. Conveniently a circular disk, reminiscent
of a miniature coin, as shown, is the easy to manufacture and assemble,
and is preferred. This disk 375 can be adhered or otherwise affixed
in place near the center of the cavity of the tubular female component
385 so that it cannot be dislodged or removed. The disk can be fixed
in place using an adhesive, a solder, or a mechanical construction,
such as a press fit, retaining screw or pin etc. In addition, the
arcuate tube female component 385 can retain more than one disk
therein, with each disk placed adjacent the final position of the
male components therein. When a hollow tube is used, the disks can
form the ends of the female cavities and act as a stop to the insertion
of the male components. In the ring of FIG. 11, the male components
are shown as arcuate, but they instead can be bent or straight rods
that are magnetically attracted to the disk and that have an outer
diameter or configuration that is smaller than the diameter of the
tube opening.
[0086] The outer surface of the female element is generally illustrated
as being uniform, but it also can be stepped or tapered as selected
by the designer to achieve the desired visual effect. The taper
presents a smooth transition between the male and female elements.
The same is true for the design of the male element, keeping in
mind that it must be shaped and size fit within the female element.
Also, tapering of the male element can be used to provide a stop
which prevents too great of a contraction of the size of the ring.
Other stop members can be provided, such as pins, collars, stepped
surfaces or the like. This stop member can also be controlled by
the length of the male member and its abutting to the inside end
of the female member. The female and male portions can be configured
in any manner as described above so long as they allow the male
elements to move easily into and out of the female elements. Also,
as described above, the design of the female cavity and male end
can be used to control the minimum size of the jewelry article.
[0087] FIG. 12 illustrates the final ring 400 made of the jewelry-forming
components of FIG. 11. Furthermore, differently adorned, colored
or shaped male or female elements can be provided, so that rings
of different appearance can be formed depending upon the desires
of the user by combining different components. For example, the
male elements can be made of a platinum alloy having a silver or
white color while the female portions can be made of a magnetized
gold colored alloy. Alternatively, different stones can be provided
on different but interchangeable elements so that different appearances
can be made based on the selection of the components to be magnetically
combined in the ring.
[0088] Typical sizes for the jewelry-forming components of the
invention can vary over a wide range. Generally, arcuate shaped
components are used, but the designer has an unlimited selection
of desirable sizes, shapes, colors, etc., depending upon the visual
effects to be achieved, of course limited only by sizes that can
be worn by the wearer without discomfort or injury. As a further
example of this, a hexagonal shaped flattened ring can be provided,
as shown in FIG. 13.
[0089] The components of the invention can be used for many purposes.
For example, a conventional necklace can be provided with a plurality
of components that have oppositely polarized male (or female) elements
extending away from the wearer. Then a plurality of ornamentations,
such as gem or stone settings or metal shapes, e.g., cubes, polygons,
figures, letters or numbers, etc., can be provided with a female
(or male) element of opposite magnetic polarity to that of the male
elements, This allows the user to connect the ornamentations onto
the necklace in a desired manner by magnetically coupling the male
and female elements. This arrangement allows the user to custom
design the necklace for the occasion by adding the desired stones
and other ornamentations, Moreover, since the couplings are not
permanent, the necklace can be rearranged or redesigned as desired
for future uses.
[0090] By including an appropriate post or clasp arrangement on
one of the jewelry-forming component of the invention, the skilled
artisan is able to create a wide range of earring designs from such
components. In addition, one of ordinary skill in the art would
recognize that the components of the invention can be used in combination
with additional functional parts such as hinges, rivets, ball and
socket joints, and other engineered items that allow for motion
between the components. When a ball and socket type joint is used,
the ball and socket can be magnetized with different polarities
so that the can be maintained together in magnetic association.
The final jewelry articles that can be made vary greatly, thus demonstrating
the versatility of the jewelry-forming components of the invention.
[0091] FIGS. 14A and 14B illustrate two self-sizing rings 425,
450 that are based on magnetic attraction. In FIG. 14A, a first
series of links 405 that include a slot 415 are connected to a second
series of links 410 that include a pin 420. The ring of FIG. 14A
is illustrated in its fully expanded position, such as when the
ring would be slipping over the knuckle of a wearer's finger. The
wearer's finger overcomes the force of attraction of the magnets
to move them apart and the slot 415 and pin 420 arrangement provides
the minimum and maximum circumference of the ring. A related design
is illustrated in the ring 450 of FIG. 14B, except that the links
455 are configured in a different interlocking shape and the pins
and slots are not visible to the wearer.
[0092] Additional features of the invention are illustrated in
FIGS. 15-18, which show self-sizing rings based on magnetic repulsion
and constructions for making the same.
[0093] FIGS. 15A and 15B illustrate a self-sizing ring based on
the principle of magnetic repulsion. The ring includes a round body
member 510 and three dimensioning members 530 that are anchored
to the inner surface of the body member 510. If desired, an adornment
in the form of an inlaid band 520 of a different metal can be provided
as an adornment for further enhanced design and appearance of the
ring. The body member 510 and dimensioning members 530 are imparted
with the same magnetic polarity and therefore are magnetically repulsing,
such that, in the ring's natural configuration, the dimensioning
members are positioned as remotely from the body member as the anchor
allows and form a smaller ring inside the inner surface of the body
member. This is shown in FIG. 14B.
[0094] FIG. 14A illustrates the positions of the dimensioning members
when they are urged outwardly and into close proximity with the
inner surface of the body member, such as would occur when the ring
is slipped onto a wearer's finger. This configuration would be obtained
as the ring passes over a knuckle or other enlarged circumference
portion of the wearer's finger.
[0095] Preferably, the dimensioning members 530 are configured
anchored into the ring so that they can separate from the body member
when the ring is not being worn or when the ring is being removed
from the wearer's finger. Of course, when worn, the wearer's finger
acts as an inner stop to prevent such separation, but when otherwise
removed, magnetic force would separate the dimensioning members
from the body member and possibly cause them to be lost. There may
be situations where an anchoring member is not present, so that
the wearer can have the ability to substitute different dimensioning
members to either vary the minimum internal circumference of the
ring or to change colors, designs, etc., so that the ring obtains
a different appearance.
[0096] When an anchoring element is used, the dimensioning members
530 are normally positioned in the most remote location spaced from
the body member 510. This is easily accomplished by providing a
further element on the body member. One configuration is shown in
FIGS. 16A and 16B. This further element is preferably of simple
construction, and can simply be a narrowed opening 550 of the channel
560 that is to receive the dimensioning member 530. In this way,
the dimensioning member 530 can be provided with a post 570 and
enlarged head 580, with the enlarged head 580 being held within
and incapable of passing through the narrowed opening 550 of the
channel. This presents some challenges to the designer to properly
configure an arcuate dimensioning member with an enlarged head that
can slide into a channel of the body member which channel can later
be permanently narrowed to prevent passage therethrough of the head
of the dimensioning member. The final structure, in cross-section,
would be similar to that shown in FIG. 10.
[0097] Another arrangement can include a channel 600 of uniform
cross section in the body member 510 to receive an enlarged head
610 of the dimensioning member 530. After this head 610 is received
in the channel, a bar 630 or other component can be mechanically
inserted, welded or brazed into place along the edge of the channel
to narrow the opening to prevent passage of the enlarged head of
the dimensioning member therethrough to this prevent separation
or removal of the dimensioning member from the body member. A suitable
mechanical connection of the bar 630 is to connect it using one
or more pins or screws 620 that pass through a hole in the body
member and into the bar, as shown in FIG. 17. Although two bars
630 are shown, it is also possible to configure the channel with
only one bar and to cast or machine the other bar as pan integral
part of the body member. This still creates an initial channel opening
that is sufficiently large to enable the enlarged head to pass therethrough
prior to retaining it therein by the application of the bar 630.
[0098] These examples are not intended to be limiting for the invention,
as skilled artisans can easily create additional structures or methods
to accomplish this type connection.
[0099] There is no concern of catching a wearer's finger when sliding
the ring thereon since the dimensioning members are urges away from
the skin as the finger moves in but they do not tightly expand after
the ring is properly seated on the finger. However, these structures
allow the dimensioning members to move away from or towards the
body member while being still connected to the body member.
[0100] The magnetic repulsion between the body member and the dimensioning
members has a maximum strength that can be overcome by a person's
hand strength. Generally, as a skilled artisan would know, a magnetic
strength of between 200 and 4500 Gauss, depending upon distances
between parts, types, shapes, and sizes of magnets, would be sufficiently
low to be overcome by hand strength or by force applied in wearing
the product. Hence, the force applied by the wearer to slide on
the ring easily overcomes the magnetic force between the body member
and the dimensioning members, urging the dimensioning members to
spread out. With the wearer's hand strength urging the dimensioning
members to spread out, the ring attains a different configuration
in which the dimensioning members are moved towards and positioned
closer to the body member.
[0101] The present invention, therefore, enables the ring to effortlessly
expand over the wearer's knuckle and slide onto different finger
sizes. Specifically, as the ring is slipped onto the wearer's finger,
the diameter of the finger knuckle, being larger than the inner
diameter of the ring, urges the dimensioning members to spread out.
Such mobility of the dimensioning members facilitates movement of
the ring over knuckles or different finger diameters so that the
wearer can easily put on or take off the ring. After proper placement
at the base of the finger, the magnetic repulsion provides the smallest
size that snugly and comfortably conforms to the base of the wearer's
finger without compressing or squeezing it. This enables the ring
to be self-sizing in that it conforms to many different finger sizes
and, further, accommodates movement over large or arthritic knuckles
without pain.
[0102] Hence, a jewelry article made with the present invention
is "self-sizing to the wearer," meaning that the article
includes a jewelry-forming component whose magnetically repulsed
elements provide a minimum circumference, perimeter, or length to
the article in one configuration but may move relative to each other
so that the article can attain a maximum circumference, perimeter
or length, thereby facilitating placement of the article around
the finger, wrist, ankle, arm, leg, neck or waist of the wearer.
Generally, the magnetically repulsed elements can be moved towards
each other by the wearer's hand strength so that a larger size of
the article is attained with ease. After placement on the wearer,
the elements are magnetically repulsed to the extent that a smaller,
comfortably snug fit on the wearer is achieved without uncomfortably
compressing or squeezing the wearer.
[0103] In a preferred embodiment, the ring can accommodate three
conventional finger sizes (for example, sizes 5 through 7), so only
about three ring sizes (small, medium, and large) are needed to
accommodate just about any wearer. The invention, therefore, provides
a snug and comfortable fit on the wearer's finger without requiring
extensive measurement or trial and error sampling, and significantly
reduces the inventory of necessary ring sizes that a manufacturer
or seller must carry.
[0104] Typical sizes for the jewelry-forming component of the invention
can vary over a wide range, limited only by sizes that can be worn
by the wearer without discomfort or injury. Depending on the size
of the component and the desired size of the final product, as many
as sixteen dimensioning members may be used. The dimensioning members
may all have the same size for the convenience of manufacture, or
they may have different sizes, shapes, or lengths, as desired for
the final product.
[0105] In one advantageous embodiment, the inner surface of the
body member may define a cavity with a depth sufficient to receive
the dimensioning members, so that the dimensioning members fit inside
the hollow cavity when the jewelry product is worn and the entire
inner surface of the product feels relatively flat and smooth to
the wearer.
[0106] Further, where a gap is created between dimensioning members
as they are pushed towards the body member and spread out, the gap
may be filled with a filler, such as a ramp. A filler can prevent
the wearer's tissues from being caught between dimensioning members,
and a two-sided ramp that rises up to the dimensioning members'
natural position is especially advantageous, because it would allow
smooth transition between different configurations.
[0107] Any magnetizable material can be used in the present invention,
but for fine jewelry the invention preferably utilizes magnetic
precious metal alloys that have magnetic properties and high hardness.
These magnetic precious metal alloys are ideally suited for making
various forms of fine jewelry that provide new and unusual visual
and functional properties. The alloy's magnetic properties enable
the components to either be attracted to or repelled by other components
of different or like polarities. This, in turn, enables the jewelry
designer to create a variety of precious metal pieces with magnetically
connected components. A wide range of new precious metal jewelry
components can now be made with heretofore unknown connections due
to the magnetic properties of the alloys that are used therein.
[0108] Another embodiment is shown in FIGS. 19A and 10B. These
figures show an assembly of three magnets, each of which is polarized
on half its area and the center one of which can be rotated. FIG.
19A shows that the assembly has the magnets aligned in their usual
magnetic association. If, for example, the center magnet is rotated,
by a person's hand strength, then, it can be rotated to the position
shown in FIG. 19B, however, when the hand force on the magnet is
released, the center magnet will return to the normal position in
FIG. 19B. This type assembly can be used for making a clasp or other
device where hand force can be used to open it and the magnet returns
to its usual position after the force is removed.
[0109] The preferred alloys for use in this invention are platinum
based and contain at least about 70% platinum by weight. While amounts
as high as 95% by weight are suitable, the most preferred amount
is between 75 and 80% by weight as these amounts enable the strongest
magnetic properties to be achieved. In order to impart magnetic
properties to these alloys, cobalt is added and the alloy is heat-treated.
The amount of cobalt can range from about 5 to 30% by weight, and
is complementary to the weight of the platinum. As between these
two components, a weight ratio of 70:30 to 95:5 Pt:Co is preferable.
An example of this material is known as POLARWUM.RTM. and is available
from the inventor. This alloy, which is disclosed in US patent application
2003/0215351 A1, is preferred for fine jewelry because it has greater
magnetic power than known magnetic gold alloys.
[0110] Although the invention is shown with a round body member
and arcuate dimensioning members in the preferred embodiment, other
shapes such as polygonal, elliptical or combinations thereof may
be used. The outer surface of the body member can also be varied
in shape and may be ornamented with gem or stone settings, curvature,
undulations, or such other characteristics. Given the flexibility
of the present invention, the designer has an unlimited choice of
sizes, shapes, colors, and decorative or ornamental elements, to
achieve the desired visual or functional effects of the final product.
[0111] Moreover, while the drawings show a ring as a preferred
example of a jewelry article that can be made from the present invention,
a skilled artisan would readily recognize that other items, such
as bracelets, anklets, chokers, necklaces, earrings, or watchbands
can be made in the same manner. The great variety of possible final
jewelry products thus demonstrates the utility and versatility of
the jewelry-forming component of the present invention.
[0112] Of course, various changes and modifications of the preferred
embodiments are apparent to the skilled artisan after viewing this
disclosure. For example, while certain embodiments illustrate two
ring portions, it should be understood that three, four, or more
can be used and fall within the scope of the present invention.
This allows the designer to create multiple portion rings, clasps,
bracelets or necklaces, etc., which portions are attracted to each
other when worn. Also, the ring portions can be concentric, where
one fits into the other, and the outer one has
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