• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    It is a jewelry object (1), for example, ring, clock, decorative items or jewelry item, such as jewelry or gem (cabochon), shown as part of a piece of jewelry, with a base body (5), the material essentially comprises stone, wood or mother of pearl, characterized in that a fiber-reinforced reinforcing layer (10) for increasing the strength of the base body (5) is arranged on at least part of the base body (5).
    公开号:CH705867B1
    申请号:CH00672/13
    申请日:2010-09-30
    公开日:2017-08-15
    发明作者:Schild-Kessler Beat
    申请人:Schild-Kessler Beat;
    IPC主号:
    专利说明:

    Description: The invention relates to a jewelery object according to the preamble of patent claim 1 and claim 7 and to an arrangement of such a jewelery object and a remnant piece according to the preamble of patent claim 15.
    The use of jewelry dates back to the beginnings of humanity. Jewelery objects, e.g. Stone rings, sculptures and decorated sculptures have long been known and come in a variety of forms.
    A problem of jewelry objects made of stone, wood or mother of pearl is, for example, compared to jewelry objects made of metal, that they are very fragile and shock sensitive. For example, simply dropping it onto a hard floor can easily damage or even destroy a stone jewelry object.
    The invention has for its object to show a jewelry object with a body whose material comprises essentially stone, wood or mother of pearl, which is better protected against damage from bumps and other mechanical effects.
    This object is achieved by a jewelry object according to claim 1 and a jewelry object according to claim 7.
    In particular, the object is achieved by a jewelry object, executed as a piece of jewelry such as a ring, clock or decorative items or executed as part of a piece of jewelry such as a jewelry or gemstone (cabochon), with a body whose material is essentially stone , Wood or mother of pearl, wherein on at least a part of the base body, a fiber-reinforced reinforcing layer is arranged to increase the strength of the base body.
    The fiber-reinforced reinforcing layer may comprise, for example, carbon fibers and / or glass fibers and / or organic fibers.
    An essential point of the invention is that the strength of the jewelry object is significantly increased by a fiber-reinforced reinforcing layer comprising, for example, carbon and / or glass fibers and / or organic fibers. An advantage of this is that such a jewelery object has an increased resistance to breakage and shock, so that it is not easily broken or damaged, for example, when dropped on a hard ground. Another advantage is that the thickness of the main body can be reduced and thus material can be saved, since the fiber-reinforced reinforcing layer contributes significantly to the dimensional stability and strength of the jewelry object. In addition, with the invention substantially filigree stone, wood or mother of pearl structures can be realized, as it is possible in the prior art. Such filigree stone, wood or mother of pearl structures allow the use of stone, wood or mother of pearl in areas where jewelry objects traditionally do not or rarely include stone, wood or mother of pearl. It is worth noting that the invention is not necessarily limited to a basic body whose material essentially comprises stone, wood or mother of pearl, but instead of stone, wood or mother-of-pearl Other naturally grown materials may be considered, which have a non-reproducible or always present in a modified form basic structure and are also very sensitive to breakage.
    Quite generally, it should be noted that the jewelry object can initially be understood as a classic piece of jewelry that can be worn by humans or animals, the jewelry is present for example as a ring, clock, brooch, amulet, etc. Furthermore, the jewelry object can also be designed in the form of a part of a piece of jewelry. Such decorative elements as parts of a piece of jewelry are, for example, jewelry or gems (cabochons). In that regard, the jewelry object according to the present invention, for example, industrially prefabricated in a larger series, so that it can then be assembled later as part of a piece of jewelry with other elements. Finally, the jewelry object can also be present as a decorative item, such as sculpture, plastic, etc. The overall term jewelry object so a classic piece of jewelry or a classic jewelry or a part of a piece of jewelry or a jewelry or a decorative item should be understood.
    The fiber-reinforced reinforcing layer may be attached to the base body by an adhesive. As a result, the fiber-reinforced reinforcing layer is fixed in a secure manner to the base body in a simple manner.
    In one embodiment, fibers of the fiber reinforced reinforcing layer form part of a matrix. As a result, the strength of the jewelry object is further increased. Another advantage is that fewer fibers are needed, i. Material is saved.
    In a further embodiment, the fibers, in particular the carbon fibers and / or glass fibers and / or organic fibers, form a knitted fabric, woven fabric, roving and / or nonwoven fabric. An advantage of this is that by such a formation of the fibers, the strength of the jewelry object is further increased. Another advantage is also that the placing of the fiber-reinforced reinforcing layer on the base body is facilitated.
    In a further embodiment, the part of the base body, on which the fiber-reinforced reinforcing layer is arranged, comprises a part of an inner surface of the base body. As a result, the appearance of the jewelry object, when worn as a jewelry on the body, is not substantially altered since the fiber reinforced reinforcement layer is substantially invisible during wear of the jewelry article. In addition, less material is required for the fiber-reinforced reinforcing layer.
    In a preferred embodiment, the fiber-reinforced reinforcing layer is transparent, so that embodiments are possible in which the fiber-reinforced reinforcing layer must be arranged in a freely visible area or should.
    The inventive object is also by a jewelry object, such as a ring, clock, brooch, amulet or decorative items, such as sculpture or plastic, or designed as part of a piece of jewelry such as a jewelry or gemstone (cabochon), with a Solved basic body whose material comprises essentially stone, wood or mother of pearl, in particular with one or more of the features mentioned above, wherein on at least a portion of the base body, a metal structure, in particular a metal layer, a metal, in particular silver, gold or in individual cases also an alloy applied by electroplating. An advantage of this is that such a jewelery object has an increased resistance to breakage and shock, so that it is not easily broken or damaged, for example, when dropped on a hard ground. A further advantage is that the thickness of the base body can be reduced and consequently material can be saved, since the fiber-reinforced reinforcing layer contributes substantially to the dimensional stability and strength of the jewelry object. By using the electroplating technique, the metal structure is applied to the base body in a technically simple manner.
    In a preferred embodiment, the metal structure is applied to the base body, wherein the coated base body is retained even in the later use of the jewelry object, that is not about representing a core, which is then removed by electroplating after growing metal. In addition, according to a further preferred aspect of the present invention, the coated base remains at least partially visible.
    Another interesting aspect of the "growth" of metal by electroplating on a jewelry object is also to be seen in the fact that metals can be deposited in much higher degrees of purity. While in cast metal, such as cast silver or gold, the degree of purity varies (18 karat gold: 75% gold, remainder silver), much more pure compositions are deposited galvanically. Alloys are not processed by electroplating or only in exceptional cases.
    Unlike cast metals, the "grown up" by electroplating metal structures are characterized by a fairly high hardness. While cast 24 karat gold hardly ever or never comes into use because of its high softness, can be deposited by electroplating readily gold with such a high degree of purity, at the same time a much higher hardness is achieved, ie the existing disadvantages in the casting process, namely Softness of the cast material, to be avoided. A fiber-reinforced reinforcing layer for a jewelery object comprising carbon fibers or glass fibers can be galvanically provided with a coating, for example to laminate the fiber-reinforced reinforcing layer. However, a galvanic coating is in a thickness range of 0.02 mm or less.
    By contrast, with the sidelined aspect of the present invention according to claim 7, a real structure formation or structural shaping is claimed by electroplating, so according to this sibling aspect of the present invention, namely the growth of a real metal structure, in particular only from thicknesses above 0.2 mm or significantly above. The metal structure according to the invention is also characterized in particular by the fact that the layer thickness is not necessarily approximately uniform, but-if necessary by post-processing-structures are formed, as forms to which no "layer thickness" can be assigned.
    In any case, the metal structure may have a thickness of over 0.2 mm and at least 2 mm or above, in particular between 1 mm and 1.8 mm, particularly preferably of about 1.5 mm. By such a thickness of the metal structure, the strength of the jewelry object is significantly increased.
    In a further embodiment, the part of the base body, on which the metal structure is arranged, comprises a part of an inner surface of the base body. As a result, the appearance of the jewelery object is substantially unchanged when the jewelery object is worn, since the fiber-reinforced reinforcing layer is substantially invisible during the wearing of the jewelery object. In addition, less material is required for the metal structure.
    Between the metal structure and the base body, an electrically conductive paint can be arranged. In this way, the metal structure can be applied particularly easily with electroplating on the base body.
    Between the metal structure and the base body, a fiber-reinforced reinforcing layer comprising carbon fibers and / or glass fibers can be arranged to increase the strength of the jewelry object. As a result, the fracture and impact resistance of the jewelry object is further increased.
    In another embodiment, the metal structure substantially covers the fiber-reinforced reinforcing layer. One advantage of this is that the fiber-reinforced reinforcing layer is substantially protected from external influences that could damage the fiber-reinforced reinforcing layer. Another advantage of this is that the fiber-reinforced reinforcing layer is substantially invisible. In addition, contact of the fiber-reinforced reinforcing layer with the human skin is inhibited, whereby a possibly caused by the glass fibers in the fiber-reinforced Ar tion layer irritation of the skin at the points where the jewelry object is in direct contact with the human skin is prevented.
    The fiber reinforced reinforcing layer may be attached to the body by an adhesive. As a result, the fiber-reinforced reinforcing layer is secured in a simple manner to the base body in a simple manner.
    In another embodiment, the metal structure has a relation to the part of the base body to which it is arranged on a different surface geometry, so gives in a possible embodiment of the jewelry object a non-predetermined by the main body forest. In this way, the metal structure not only fulfills the function of increasing the strength of the jewelry object, but the determination of the geometry or the appearance of the jewelry object can be changed by the metal structure. This leads to an easier changeability of the appearance of the jewelry object, since metal is generally easier to work with than, for example, stone or mother-of-pearl. In addition, surface geometries or overall structures of the jewelery object can thereby be produced which are not technically achievable with a surface of the jewelery object (only) made of stone, wood or mother-of-pearl.
    Furthermore, this is an arrangement of a jewelry object, such as a ring or a clock, which is essentially made of a portion of a piece of raw material, in particular a piece of raw stone, and a remainder piece, which consists essentially of the or the remaining parts of the Raw material piece is disclosed, wherein the remaining piece is designed as a support and / or receiving frame for the jewelry object. As a result, material costs for the storage and / or presentation of the jewelry object can be saved, since in addition to the raw material piece largely no further materials are needed. Also, this saves material costs for the transport of the jewelry object, since the remainder of the jewelry object protects against damage during transport.
    In one embodiment, the remnant encloses the jewelry object at least partially so that the jewelry object is located at the location where the portion of the piece of raw material from which the jewelry object was substantially made. This greatly simplifies the presentation of the jewelry object. In addition, the protection of the jewelry object from damage during transport is further increased.
    Preferred embodiments will be apparent from the dependent claims. The invention will be explained in more detail with reference to drawings of exemplary embodiments. Show here
    1 shows a side view of a jewelery object according to the invention in the form of a stone ring;
    FIG. 2 shows a plan view of the rear side of a jewelery object according to the invention in the form of a stone clock; FIG.
    3 shows a side view of a stone ring according to the invention with a metal structure along the line III-III from FIG. 4;
    Fig. 4 is a plan view of the stone ring taken along the line IV-IV of Fig. 3;
    5 shows a schematic view of the inner surface of a jewelery object according to the invention;
    6 shows a further interior view of the inner surface of a jewelery object according to the invention;
    7 shows a side view of a stone ring according to the invention with a metal structure;
    FIG. 8 is a perspective view of the stone ring of FIG. 7; FIG.
    9 shows a cross-sectional view of a stone ring according to the invention;
    Fig. 10 shows an arrangement of a jewelery object and a remnant piece;
    Fig. 11 shows an embodiment for illustrating a fiber-reinforced jewelry or gemstone (e.g., cabochon);
    Fig. 12 is a cross-sectional view of one embodiment of a ring;
    Fig. 13 is a cross-sectional view of one embodiment of a ring; and Fig. 14 is a schematic view of an embodiment of a cup.
    In the following description, the same reference numerals are used for identical and equivalent parts.
    Fig. 1 shows a side view of an inventive jewelery object in the form of a stone ring with a fiber reinforced reinforcing layer 10. The jewelry object may alternatively, for example, a ring, a pair of glasses, a watch, a brooch, a chain, an earring or another type of Be jewelry. Preferably, the jewelry object is a jewelry object that is worn on the human (or animal) body.
    The jewelery object 1 or the stone ring comprises a main body 5. The material of the main body 5 essentially comprises stone, wood or mother of pearl. The stone can be natural stone, stoneware, artificial stone or concrete. Other types of stone are also usable. The basic body S can also be coated with a lacquer or a coating.
    On the inner surface 45 of the main body 5, i. on the outer edge of the finger hole 30, a fiber-reinforced reinforcing layer 10 is arranged. The fiber-reinforced reinforcing layer 10 is connected to the base body 5 by means of an adhesive, for example. Other types of attachment such as e.g. Screws, nails etc. can be used. The fiber-reinforced reinforcing layer 10 has a uniform thickness, so that the finger hole 30 of the stone ring has a ring shape which runs coaxially to the annular shape of the base body 5. However, it is also possible that the fiber-reinforced reinforcing layer 10 has an uneven thickness.
    The fiber-reinforced reinforcing layer 10 comprises carbon fibers and / or glass fibers. The carbon fibers and / or glass fibers may be in the form of a knitted fabric, a woven fabric, a roving and / or a nonwoven fabric. Also, the fiber reinforced reinforcing layer 10 may be part of a matrix, i. a composite material.
    The fiber-reinforced reinforcing layer 10 is arranged on an inner surface 45 of the base body 5, that when wearing the ring on a finger (or on a toe), the fiber-reinforced reinforcing layer 10 is hardly or not visible.
    2 shows a plan view of the underside of an inventive stone clock. The jewelery object 1 or the stone clock comprises two bracelets 60, which consist of individual bracelet elements 62, which are each connected to each other. Between the two bracelets 60 of the main body of the main body 5 is arranged on the front side of the clock time is read and on the back of a fiber-reinforced reinforcing layer 10 is arranged. The fiber-reinforced reinforcing layer 10 is circular in FIG. 2 and is arranged coaxially with the circular main body 5 and does not completely cover the circular main body 5. However, it is also possible that the fiber-reinforced reinforcing layer 10 completely covers the main body 5. Also possible are other forms of the fiber-reinforced reinforcing layer, such as e.g. a rectangular, elliptical, etc. The basic body parts 5 of the individual bracelet elements 62 of the stone clock 1 are also each reinforced by a fiber-reinforced reinforcing layer 10. Also, the fiber reinforced reinforcing layers 10 of the individual bracelet members 62 do not completely cover each other in width, while completely covering the bracelet member 62 in the direction along the bracelet 60, respectively. The bracelet elements 62 are mutually movable perpendicular to the plane in Fig. 2, so that the bracelets 60 can be placed to carry the stone clock 1 around the wrist.
    3 shows a side view of a jewelery object 1 according to the invention in the form of a stone ring along the line III-III of FIG. 4. The jewelery object 1 or the stone ring comprises a base body 5 which is not visible in FIG. In the middle of the jewelery object 1 is the finger hole 30, through which a finger for carrying the jewelery object 1 can be guided. On the invisible base body 5, a metal structure 20 is applied, which essentially determines the surface geometry or overall structure of the jewelery object 1 or ring. The main body 5 has a deviating surface geometry. Realizable, however, is an embodiment in which the base body 5, not visible in FIG. 3, has the same shape as the ring as a whole. On the main body 5, a fiber-reinforced reinforcing layer 10 may be arranged. The fiber-reinforced reinforcing layer 10 may be located on the inner and / or outer surface of the main body 5 or on parts of these surfaces.
    Fig. 4 shows a plan view of the jewelery object 1 along the line IV-IV of Fig. 3. In Fig. 4, the metal structure 20 can be seen, which has two opposite parallel boundaries and two concave boundaries on the other two opposite sides. The jewelry object 1 or the ring may also include a gemstone not shown here.
    FIG. 5 shows a section of the inner surface 45 of a stone ring 1 according to the invention. On the inner surface 45 of the jewelery object 1 or the stone ring, a fiber-reinforced reinforcing layer 10 is arranged on the base body 5. The fiber-reinforced reinforcing layer 10 covers approximately half the width of the inner surface 45 of the base body 5.
    In Fig. 6, a further section of the inner surface 45 of the stone ring is shown, wherein on the fiber-reinforced reinforcing layer 10, a metal structure 20 has been applied. The metal structure 20 completely covers the fiber-reinforced reinforcing layer 10. The metal structure 20 covers about two-thirds of the inner surface 45 of the main body 5. However, it is also possible for the metal layer 20 to completely cover the inner surface 45 of the main body 5. It is also possible that the shape of the metal layer 20 and / or the fiber reinforced reinforcing layer 10 changes over the annular course of the stone ring, for example, in some places wider than at other locations, or that parts of the inner surface 45 of the stone ring over the entire width are not covered by the metal layer 20 and / or the fiber reinforced reinforcing layer 10.
    The metal structure 20 in FIG. 6 is a metal layer. This metal layer comprises in particular silver and / or gold. The metal layer 20 may be made of a single metal or a metal alloy. As metals all kinds of metals are conceivable. Preferably, a metal or metal alloy is used which is easily machinable. The metal structure 20 or metal layer is applied by electroplating. This technique is well known to those skilled in the art and will therefore not be described further here.
    Fig. 7 shows a side view and Fig. 8 is a perspective view of another inventive stone ring 1. The stone ring 1 comprises a base body 5. On the base body 5, a metal structure 20 is arranged. The metal structure 20 essentially determines the surface geometry or overall structure of the stone ring 1. The main body 5 is essentially free in the ring hole 30 and protrudes from the metal structure 20 at the upper end of the stone ring 1 or projects out of it. The metal structure 20 has a substantially cuboidal outer shape. The metal structure 20 covers the main body 5, which consists of stone, to a large extent. The thickness of the metal structure 20 is about 1.5 mm. Other thicknesses, such as between 0.5 mm and 2 mm, in particular between 1 mm and 1.8 mm, are executable. The shape of the main body 5 in FIGS. 7 and 8 is essentially oval.
    On the base body 5, a fiber-reinforced reinforcing layer 10 may be arranged. The fiber-reinforced reinforcing layer 10 may be located on the inner and / or outer surface of the main body 5 or on parts of these surfaces.
    Fig. 9 shows a cross section through an inventive stone ring 1. On the base body 5 of the stone ring, a fiber-reinforced reinforcing layer 10 is arranged. The fiber-reinforced reinforcing layer 10 covers a large part of the inner surface 45 of the base body 5. On the inner surface 45 of the base body 5 and on the fiber-reinforced reinforcing layer 10, a metal structure 20 is applied or arranged. The metal structure 20 completely covers the fiber-reinforced reinforcing layer 10 and the inner surface 45 of the main body 5.
    Fig. 10 shows an arrangement of a stone ring 1 and a remnant piece 50. The stone ring 1 is made of a part of a stone raw material piece. The stone ring 1 is detached from a larger annular piece of raw material. The stone ring 1 is arranged for presentation purposes and / or for transport purposes such that the parts or remainders of the stone raw material piece, which remain after the detachment of the ring 1 from the stone tube material piece, a carrier 52 and a receiving frame 54 for the jewelry object 1 and Forming a stone ring. In Fig. 10, the stone ring 1 is disposed at the position where the part of the stone raw material piece from which it is made was located.
    In Fig. 10 is located in the middle of an annular portion of the remainder piece 50 as a carrier 52 of the stone ring 1. Around the stone ring around another annular portion of the remnant piece 50 is arranged as a receiving frame 54. The receiving frame 54 encloses the stone ring 1 in the drawing plane of FIG. 10 completely. In an alternative embodiment, it is also possible that the stone ring is only partially enclosed. Such an arrangement saves material since the piece of raw material is used for presentation, which would otherwise be recoverable only as waste. Furthermore, an embodiment is possible in which the remnant piece 50 surrounds the stone ring 1 completely spatially. Likewise, by enclosing the stone ring 1 of the stone ring 1, in particular during transport, protected from damage by mechanical effects. This reduces the effort and material costs for the presentation of the stone ring and for transport.
    In Fig. 11 an embodiment of a gemstone, e.g. designed as a cabochon, illustrated. The jewelery object 1 here also has a main body 5, which may be formed, for example, hemispherical and has a fiber-reinforced reinforcing layer 10. The main body 5 may be formed of stone, wood or mother of pearl.
    FIG. 12 illustrates a cross-sectional view of an embodiment of a jewelery object 1 designed as a stone ring. The base body 5 made of stone is held here in a conically tapered socket, which is preferably grown by a metal structure 20, but preferably not necessarily galvanically according to another aspect of the present invention. For further reinforcement, the main body 5 is reinforced on its side facing the metal structure 20 with a fiber-reinforced reinforcing layer 10.
    In Fig. 13, yet another alternative embodiment for a captured in a metal structure stone ring is illustrated. Trained as a stone ring jewelry object 1 also includes a base body 5 made of stone, which is held in a metal structure 20 which forms an undercut, positively. The metal structure 20 according to another aspect of the present invention may be galvanically grown on the base body S or otherwise secured to the base body 5. Again, the base body 5 is provided on its metal structure 20 facing the rear side with a fiber-reinforced reinforcing layer.
    In Fig. 14 is illustrated as a jewel 1, a goblet, which is partially formed of stone. Specifically, in the goblet illustrated here, the half-shell designed to receive, for example, a liquid, is formed entirely of stone. In contrast, a foot which adjoins this half-shell consists of a metal structure 20 which is reinforced on its invisible inner side with a fiber-reinforced reinforcing layer 10.
    It should be noted at this point that all parts described above taken alone and in any combination, in particular the details shown in the drawings, are claimed as essential to the invention. Variations thereof are familiar to the person skilled in the art.
    LIST OF REFERENCES [0052] 1 jewelery object (stone ring or stone clock)
    权利要求:
    Claims (16)
    [1]
    5 base body 10 fiber-reinforced reinforcing layer 20 metal structure (metal layer) 30 finger hole 45 inner surface 50 remaining piece 52 carrier 54 receiving frame 60 bracelet 62 bracelet element Patent claims
    1. jewelry object (1), designed as a piece of jewelry such as a ring, clock, brooch, amulet or as a decorative item, such as sculpture or plastic, or executed as part of a piece of jewelry such as a jewelry or gemstone, for example, cabochon, with a Base body (5) made of substantially natural material, such as stone, wood or mother of pearl, characterized in that on at least a part of the base body (5) a fiber-reinforced reinforcing layer (10) for increasing the strength of the base body (5) is arranged.
    [2]
    2. jewelery object (1) according to claim 1, characterized in that the reinforcing layer (10) on the base body (5) is fixed by an adhesive.
    [3]
    3. jewelery object (1) according to one of the preceding claims, characterized in that the fiber-reinforced reinforcing layer (10) comprises carbon fibers and / or glass fibers and / or organic fibers and the carbon fibers and / or glass fibers and / or organic fibers of the reinforcing layer (10) form part of a matrix.
    [4]
    4. jewelery object (1) according to any one of the preceding claims, characterized in that the carbon fibers and / or glass fibers and / or organic fibers form a knitted fabric, woven fabric, roving and / or nonwoven fabric.
    [5]
    5. jewelery object (1) according to any one of the preceding claims, characterized in that the part of the base body (5) on which the fiber-reinforced reinforcing layer (10) is arranged, a part of an inner surface (45) of the base body (5).
    [6]
    6. jewelery object (1) according to any one of the preceding claims, characterized in that the fiber-reinforced reinforcing layer (10) is transparent.
    [7]
    7. Jewelery object (1), for example, ring, clock, fallow, amulet or decorative items, such as sculpture or plastic, or jewelry or gemstone, for example, cabochon, with a base body (5), the material essentially comprises stone, wood or mother of pearl , characterized in that on at least part of the base body (5) a metal structure (20), in particular a metal layer which comprises a metal, in particular silver, or a metal alloy, is applied by electroplating.
    [8]
    8. jewelery object (1) according to claim 7, characterized in that the metal structure (20) has a thickness of at least 0.2 mm, preferably a thickness between 0.2 mm and 2 mm, in particular between 1 mm and 1.8 mm, particularly preferably of about 1.5 mm.
    [9]
    9. jewelery object (1) according to claim 7 or 8, characterized in that the part of the base body (5) on which the metal structure (20) is arranged, a part of an inner surface (45) of the base body (5).
    [10]
    10. jewelery object (1) according to one of claims 7 to 9, characterized in that between the metal structure (20) and the base body (5) an electrically conductive paint is arranged.
    [11]
    11. jewelery object (1) according to one of claims 7 to 10, characterized in that between the metal structure (20) and the base body (5) a fiber-reinforced reinforcing layer (10) for increasing the strength of the jewelery object (1) is arranged.
    [12]
    12. Jewelery object (1) according to claim 11, characterized in that the metal structure (20) substantially covers the fiber-reinforced reinforcing layer (10).
    [13]
    13. jewelery object (1) according to claim 11 or 12, characterized in that the fiber-reinforced reinforcing layer (10) on the base body (5) is fixed by an adhesive.
    [14]
    14. Jewelery object (1) according to any one of claims 7 to 13, characterized in that the metal structure (20) has a relative to the part of the base body (5) on which they arranged deviating surface geometry.
    [15]
    15. Arrangement with a jewelry object (1), for example a ring or a clock, according to one of claims 1 to 14, which is essentially made of a part of a piece of raw material, in particular a piece of raw stone, and a remnant piece (50) which in the Substantially consisting of the remaining part or parts of the raw material piece remaining after the jewelery object (1) has been removed from the raw material piece, characterized in that the remainder piece (50) is used as a carrier (52) and / or receiving frame (54) for the jewelery object ( 1) is formed.
    [16]
    16. The arrangement according to claim 15, characterized in that the remnant piece (50) encloses the jewelry object (1) at least partially, so that the jewelry object (1) is arranged at the location where the part of the raw material piece was, from which the jewelry object (1) was essentially made.
    类似技术:
    公开号 | 公开日 | 专利标题
    DE4317113C2|1995-09-21|Trinket
    EP3258809B1|2019-06-26|Jewelry element and production method
    DE112010005917B4|2018-03-22|Jewelery object and arrangement of a jewelery object and a remnant piece
    DE202010008676U1|2010-11-25|Jewelery object and arrangement of a jewelery object and a remnant piece
    DE202010008275U1|2010-11-18|Surface element, in particular dial of a clock or decorative element
    DE102013104625B4|2020-12-24|Magnetic clasp and jewelry item
    EP3427607A1|2019-01-16|Ornament implant for decorative items and/or equipment and support item with an ornament implant
    EP1654951A2|2006-05-10|Jewelry article
    DE202008000365U1|2008-03-20|Holding part and jewelery part as well as jewelery system
    DE202008014316U1|2009-01-22|Jewelry Shoulder
    DE4423311A1|1996-01-04|Spectacle frame with element supporting eye lenses
    DE4200501A1|1993-07-15|EAR PLUG
    DE202009003810U1|2009-05-28|Jewel with a carrier
    DE212013000296U1|2016-01-13|Jewelry
    DE202008012556U1|2008-12-04|finger ring
    DE102018007257A1|2020-03-19|Decorative element
    DE20309707U1|2004-11-04|Multiple-section piece of jewelry consists of several decorative elements connected by magnetic systems, and chain
    DE202010016848U1|2011-03-03|Multi-part jewelry item
    DE202016000179U1|2016-01-26|Magnetic wiper part for jewelery magnetic clasps
    DE7004593U|1970-08-27|MOUNTING ELEMENT, IN PARTICULAR FOR ATTACHING TO FINGER RINGS OR. DGL.
    DE202013104417U1|2013-10-11|Jewelery element with a jewelry object
    DE2161192A1|1973-06-14|JEWELERY ITEMS
    DE202015101573U1|2015-04-20|Commodity with gemstone
    DE1066778B|1959-10-08|Gem setting
    DE102008035187A1|2010-02-11|Jewelry / decorative element
    同族专利:
    公开号 | 公开日
    DE112010005917B4|2018-03-22|
    WO2012041382A1|2012-04-05|
    DE112010005917A5|2013-07-25|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    GB1278583A|1968-08-23|1972-06-21|Sidney William Eaves|Improvements in or relating to decorative sheet material|
    WO1982000574A1|1980-08-14|1982-03-04|J Robertson|Decorative articles|
    FR2680727B1|1991-09-04|1993-12-24|Philippe Rosnoblet|HIGH-END CARBON / GOLD COMPOSITE MATERIALS.|
    US5328588A|1993-03-19|1994-07-12|Samuel Hopkins|Method of inlaying metals in non-conductive materials|
    DE29604026U1|1996-02-23|1996-06-13|Carbontec Gmbh|Commodity with an essentially areal extension|
    GB2338715B|1998-06-24|2003-03-19|Hang Fung Jewellery Co Ltd|A method of depositing a metal on an article|
    DE19909642C1|1999-03-05|2000-04-20|Daimler Chrysler Ag|Making three dimensional vehicular cladding, applies clear sheet to block of frangible e.g. stone or crystalline decorative material, followed by separation with thin frangible layer, followed by shaping and injection-molding|
    GB9908498D0|1999-04-15|1999-06-09|Thayer Andrew R|Improvements in or relating to jewellery or the like|
    DE50100877D1|2000-03-22|2003-12-04|Werner Dreier|Thermoverformbares verbundmaterial|NZ706072A|2013-03-08|2018-12-21|Xyleco Inc|Equipment protecting enclosures|
    法律状态:
    2015-04-30| NV| New agent|Representative=s name: MB AND ISLER AG, CH |
    2016-08-31| NV| New agent|Representative=s name: FELBER AND PARTNER AG, CH |
    2016-11-15| AZW| Rejection (application)|
    优先权:
    申请号 | 申请日 | 专利标题
    PCT/EP2010/064586|WO2012041382A1|2010-09-30|2010-09-30|Jewelry object and arrangement of a jewelry object and a remaining piece|
    [返回顶部]