• 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:
    The invention relates to a bracelet and its method of assembly or manufacture, the bracelet comprising a plurality of locked first and second rings which can be displaced in translation relative to one another so that it is possible to operate a transition of the bracelet between a first state and a second state, the bracelet having a diameter of smaller dimension in the first state and a larger diameter in the second state, the bracelet being biased towards the first state.
    公开号:CH711075A2
    申请号:CH00793/15
    申请日:2015-06-03
    公开日:2016-11-15
    发明作者:Modi Nirav
    申请人:Firestar Diamond Inc;
    IPC主号:
    专利说明:

    Area of disclosure
    The present disclosure relates generally to a bracelet, and more particularly, to an elastic bead bracelet comprising a plurality of elements which together form an annular shape having a diameter which is capable of undergoing a transition between a first dimension and a second dimension.
    Description of related techniques
    A bracelet is an ornamental band that is worn on the wrist or on the arm. Sometimes bracelets play a supporting role, for example by wearing a wristwatch or charms. Rigid bracelets, usually made of metal, wood or plastic, are frequently referred to as "bangles". The bracelets are generally sized to have a diameter that is at least as wide as the wrist but narrower than the rest of the hand, so that when worn, the distal portion of the hand tends to slip from the wrist.
    [0003] The human wrist on which a bracelet is frequently worn is the proximal skeletal segment of the human hand. It is usually much narrower than the part of the hand that extends distally from the wrist. Since the wrists are usually narrower than the rest of the hand, various methods have been created for putting a bracelet on a wrist. These include bracelets that open so they can be placed directly on the wrist and closed. They also include bracelets that get longer. For example, some wristbands are made of elastic polymers that can stretch over the distal end of the hand and then return to their contracted state as they arrive on the wrist.
    We still need aesthetic bracelets that are extensible, both to facilitate the establishment of the bracelet on a wrist that to adapt to different dimensions of human wrists.
    ACCURATE OF THE INVENTION
    The present disclosure relates to bangles bracelets and their assembly methods.
    A bracelet may comprise a plurality of first and second rings forming a circumference of the bracelet. The first and second rings may be positioned alternately adjacent to each other and able to be displaced in translation relative to each other, so that a transition of the bracelet can be made between a first state in which the diameter of the bracelet has a first dimension and a second state in which the diameter of the bracelet has a second dimension. The first dimension may be smaller than the second dimension. The first and second rushes may have a curved shape, so that the plurality of first and second rushes, when assembled, forms a closed loop-shaped bracelet. The rushes may comprise connecting rings that are removably coupled to facilitate the grip and handling of the rods during assembly of the bracelet.
    The first and second rings may each be configured to lock with each other so that the first and second rings can form an assembly in which the rods can move in translation relative to each other such so that the length of this assembly is adjustable. In particular, the first and second rushes may each comprise a generally ovular base having a circumference, and a plurality of segment members positioned about the circumference of the base and extending lengthwise from the base. The segmented members may be spaced from each other such that an interval or gap is delimited between the segment members positioned adjacently. The segments of the first ring may be configured to slide between the segments of the second ring and relative thereto by moving in translation through the gaps or spaces delimited between the segments of the second ring. Similarly, the segments of the second ring may be configured to slide between the segments of the first ring and relative thereto by moving in translation through the intervals or spaces defined between the segments of the first ring. In this regard, when the first and second rushes are engaged with each other, the first and second rushes can be compressed in a direction urging them towards each other to reduce the overall length of the assembly. Conversely, when an elongation or stretching force is applied to the rushes to separate them from each other, the total length or circumference of the assembly may be increased to enlarge the diameter of the wristband. This stretching force can make it easier to put the bracelet on the wrist by passing it over the hand.
    A biasing force can solicit the bracelet towards a return to its state of rest or contracted in which the diameter of the bracelet biased to the state of rest or contracted, so that the bracelet can comfortably fit the wrist and being blocked by the person's hand to prevent it from slipping off the wrist. In particular, springs may be functionally coupled to the first and second rings to produce a biasing force to urge the bracelet to its rest state in which the bracelet is in a contracted state. A first cap having a shape corresponding to that of the first ring and a second cap having a shape corresponding to that of the second ring may be functionally coupled or fixed to the first and second rings to facilitate proper positioning of the springs relative to the rods so as to produce an appropriate biasing force.
    [0009] A method of assembling a bracelet may comprise providing a plurality of first and second rings and assembling the rods in an alternating configuration until the assembly of the bracelet is completed, wherein the rushes form a closed loop. In particular, a plurality of first rods and a plurality of second rods may be provided. The first and second rods can be slidably locked with each other by inserting the first elements in the form of segments of the first rods in the intervals delimited between the second elements in the form of segments of the second rods and inserting the second elements in the form of segments of the first rods. shape of segments of the second rushes in the intervals delimited between the first elements in the form of segments of the first rushes. Springs may be operably coupled to the first and second rings to urge the bracelet to its rest state in which the bracelet is in a contracted state.
    The aspects, features and advantages of the present invention which are presented above as well as others will become apparent during the reading of the following description in conjunction with a consultation of the accompanying drawings, in which like reference numerals denote the same elements.
    BRIEF DESCRIPTION OF THE DRAWINGS
    [0011]<tb> Fig. 1 <SEP> is a perspective view of an assembled bracelet comprising a plurality of rods according to the present disclosure;<tb> Fig. 2A <SEP> is a perspective view of a first ring;<tb> Fig. 2B <SEP> is an open perspective perspective view, shortened and inclined of the rod of FIG. 2A as if looking towards line A-A;<tb> Fig. 3 <SEP> is a perspective view of a first cap;<tb> Fig. 4A <SEP> is a perspective view of a second ring;<tb> Fig. 4B <SEP> is a perspective view in open end, shortened and inclined of the rod of FIG. 4A as if looking towards line B-B;<tb> Fig. <SEP> is a perspective view of a second cap;<tb> Fig. 6 <SEP> illustrates a first step in assembling the bracelet of FIG. 1 showing the ring of FIG. 2A with respect to a spring and the first cap of FIG. 3;<tb> Fig. 7 <SEP> illustrates a second step in the assembly of the bracelet of FIG. 1 showing an assembled part comprising the first ring of FIG. 2A with the spring and the first cap placed inside said rod relative to another spring and the second cap of FIG. 5;<tb> Fig. 8 <SEP> illustrates a third step in the assembly of the bracelet of FIG. 1 showing an assembled part comprising the first ring of FIG. 2A and the second ring of FIG. 4A relative to another first ring of FIG. 2A;<tb> Fig. 8A <SEP> is a front view of a partially assembled part of the bracelet of FIG. 1 after the third step of FIG. 8;<tb> Fig. 9A <SEP> illustrates an assembled part of the bracelet after the third step of FIG. 8;<tb> Fig. 9B <SEP> is an enlarged view of the area shown in FIG. 9A illustrating a fourth step in the assembly of the bracelet of FIG. 1;<tb> Fig. 9C <SEP> is a perspective view of a partially assembled portion of the bracelet after the completion of the fourth step of FIG. 9B;<tb> Fig. <SEP> illustrates a fourth step in assembling the bracelet of FIG. 1;<tb> Fig. 11 <SEP> illustrates a fifth step in assembling the bracelet of FIG. 1 showing a second ring as shown in FIG. 4A relative to an assembled part of the bracelet of FIG. 1; and<tb> Fig. 12 <SEP> illustrates the assembled rod of FIG. 1 coupled to a plurality of assembly rings.
    DETAILED DESCRIPTION OF PREFERRED ACHIEVEMENTS
    [0012] Reference is made below in detail to embodiments of the disclosure. Wherever possible, identical or similar reference numerals are used in the drawings and in the description to denote like or similar parts or steps. The drawings are in simplified form and they are not exactly scaled. The word "mating" and similar terms do not necessarily indicate direct and immediate connections; they also designate connections via intermediate elements or devices. Exclusively for the sake of convenience and clarity, terms relating to a direction (up / down, etc.) or relative to a movement (forward / backward, etc.) may be used with respect to the drawings. These terms and similar terms relating to a direction shall not be construed as limiting the scope in any way. It is also understood that other embodiments can be used without departing from the scope of the present invention, and that the detailed description should not be interpreted in a restrictive sense, and that the elements can be positioned differently. , or otherwise indicated in the appended claims without this requiring a written description to that effect.
    Various operations may be described in the form of multiple individual operations performed one after the other, in a manner that may help to understand the embodiments of the present invention; however, the order of the description should not be taken to mean that these operations must necessarily be performed in that order.
    Various embodiments of extensible devices are described herein with reference to FIGS. 1 - 12.
    In FIG. 1 is shown an assembled bracelet 100 comprising a plurality of rods. The bracelet 100 may comprise a plurality of nails or jewels which are in place in recesses or housings 2 formed in the rushes of the bracelet 100. The rushes forming the bracelet 100 may comprise a plurality of first rods 102 (FIG 2A). and a plurality of second rods 104 (Fig. 4A). The bracelet 100 may have a generally circular shape and the first and second rods 102, 104 may have a curvature that conforms to the circumference or perimeter of this shape so that the complete assembly of several rods 102, 104 can produce a bracelet of toroidal or circular shape. The rods 102, 104 may be made of any material suitable for this purpose, including, for example, metal, plastic and / or wood.
    As indicated in FIG. 2A, a first ring 102 may have a generally ovular cylindrical shape and may comprise a plurality of segments 102a-102h (e.g. eight segments) extending from a generally oval shaped base 103 to a proximal end "P" which is closed and at a distal end "D1" which is open (before being coupled to the cap 10a). Segments 102a-102h may be formed by removing strips of material from the surface or circumference of the ovular cylindrical shape. The segments 102a-102h may be generally uniformly spaced from each other and may be generally parallel to each other. Some or all of the segments 102a-102h may have housings 2 formed therein for receiving nails or precious stones, for example. Some or all of the segments 102a-102h may also include one or more recessed portions or holes 4, which may extend across the width of each segment. The holes 4 can reduce the weight and can facilitate the translational movement of the segments 102a-102h relative to the segments of another rod to which the rod 102 is functionally coupled. As shown in Figs. 2A-2B, only the segments 102a and 102b include the holes 4. However, the other segments 102c-102h may also include such holes. The holes 4 can prevent any entrapment of the air which, otherwise, could hinder the displacement in translation or the movement of the rod 102 in the absence of such holes.
    We can better understand the shape and spacing of the segments 102a-102h in FIG. 2B, which is a cutaway perspective view of a portion of the first ring 102. As shown in FIG. 2B, the segments 102a-102h extend radially from the egg base 103 and are spaced from each other substantially equidistantly so that a gap or gap is formed between each pair of adjacent positioned segments 102a. -102h. As indicated optimally in FIG. 2B, eight gaps or spaces may be formed between the segments 102a-102h. The portions of the segments 102a-102h that are closer to the perimeter or outer surface of the ring 102 may be wider than the parts of the segments that are closer to the egg base 103. The segment members 102a and 102b may be be of generally triangular or trapezoidal shape. The segment elements 102c-102h may be generally mushroom-shaped, i.e. with a base section 5a of generally uniform width and an upper section 5b which is generally wider than the base section 5a. .
    As indicated in FIG. 3, a cap 10a may have a shape that corresponds to the shape of the rod 102 so that the cap 10a can be coupled to one end of the rod 102 without blocking or hindering the intervals or spaces delimited between the segments 102a-h of 102. In other words, the cap 10a can be configured to close or close the center of the ring 102 while leaving the possibility or allowing the segments I04a-h of the second ring 104 to move in translation through the spaces or the intervals delimited between the segments 102a-h of the first ring.
    In particular, the cap 10a may have a generally ovular shape with fingers 6a-6h extending from its central portion of ovular shape 3. The fingers 6av6h may be sized and spaced so that each of the fingers 6a-6h can be introduced between and move through the intervals or spaces delimited between segments 102a-102h. Projections 8a-8d may extend from one or more of the fingers 6a-6h, and the projections 8a-8d may be configured for placement in the housings 9a-9d of the rod 102 so that the engaging the projections 8a-8d with the housings 9a-9d obstructs or prevents the continued translational movement of the cap 10a through the rod 102. The projections 8a-8d can snap into place in the housings 9a-9d. In other words, the projections 8a-8d can form a tight fit, a force fit or a friction fit with the housings 9a-9d. The fingers 6b, 6d, 6f, and 6h without projections 8a-d may comprise a lip or flange, each configured for engagement with a segment of the first ring 102 to facilitate retention in place of the cap 10a relative to the rod 102.
    As indicated in FIG. 3, a first projection 8a can extend from the finger 6a of the cap 10a, a second projection 8b can extend from the finger 6c of the cap 10a, a third projection 8c can extend from the finger 6e, and a fourth projection 8d can extend from the finger 6g. Each of these projections 8a-8d can be configured for placement in the housings 8a-8d. Referring again to FIG. 2A, segment 102a may include housing 9a at a distal end of said segment, segment 102g may include housing 9b at a distal end of said segment, segment 102b may include housing 9c at a distal end of said segment, and segment 102d may include the housing 9d at a distal end of said segment.
    As indicated in FIG. 4A, a second ring 104 may have a generally ovular cylindrical shape and may comprise a plurality of segments 104a-104h (e.g., eight segments) extending from a generally oval shaped base 105. Segments 104a-104h may be formed by removing strips of material from the surface or circumference of the ovular cylindrical shape. The segments 104a-104h may be generally uniformly spaced from each other and may be generally parallel to each other. Some or all of the segments may have housings 2 formed therein for receiving nails or precious stones, for example.
    In addition, similarly to the structure of the first ring 102 and the first cap 10a described herein, the segments 104b, 104d, 104g and 104h of the second ring 104 may comprise housings 18a-d respectively which are configured for engagement with and attachment to the fingers 16a-d respectively of a second cap 10b (Fig. 5), for example by spot brazing or welding, to form a one-piece structure such that a displacement of second ring 104 causes a corresponding movement of the second cap 10b.
    We can better understand the shape and spacing of the segments 104a-104h in FIG. 4B, which is a cutaway perspective view of a portion of the first ring 104. As shown in FIG. 4B, the segments 104a-104h may extend radially from the generally ovular base 105, and may be spaced from each other substantially equidistantly so that an interval or gap is formed between each pair of segments positioned adjacent 104a-104h. As indicated optimally in FIG. 4B, an interval or gap may be formed between each pair of adjacent segments 104a-104h such that eight gaps or spaces are delimited between the segments. The portions of the segments 104a-104h that are formed closer to the outer surface or perimeter of the ring 104 may be wider than the portions of the segments that are closer to the ovular base 105. In particular, each of the segments 103a-104h may comprise a base section 11a and an upper portion 11b which is wider than the base section 1a. Adjacent segments 104a and 104h may include a gap "g1" between them, and adjacent segments 104d and 104e may include a gap "g2" between them. The intervals "g1" and "g2" may be configured to receive the generally triangular or trapezoidal segments 102a and 102b of the first ring 102. In addition, the segments 102a-h of the first ring 102 and the segments 104a-h of the second ring 104 may be configured, for example dimensioned and formed, to allow and facilitate the placement of the segments of each of the respective rods 102, 104 in the intervals or spaces of the other ring 102, 104 so that the rods 102 , 104 can be coupled to each other and moved in translation relative to each other.
    A second cap 10b is shown in FIG. 5. The second cap 10b may have a shape that corresponds to the shape of the rod 104 so that the cap 10b can be functionally coupled to one end of the rod 104 without blocking or hindering the placement of the segments 102a-h of the rod 102 to through the gaps or spaces delimited between the segments 104a-h of the rod 104. In particular, the cap 10b may comprise a central portion of generally oval shape 12 and 14a-14h fingers may extend radially from the cap 10b. Projections 16a-d may extend from the fingers 14a, 14c, 14e, and 14g, respectively. The cap 10b can be attached to one end of the second ring 102.
    The first and second rods 102, 104 both have generally hollow interiors in which biasing elements, for example springs 20, can be fixed. The first and second caps 10a, 10b may be fixed, for example by spot brazing, at the intermediate points of the first and second rods 102, 104 respectively, the springs 20 being positioned adjacent each cap 10a, 10b. The springs 20 may be fixed, for example by spot brazing or by fixing elements, to the caps 10a, 10b or to the rods 102, 104 so that a movement of the locked rods 102, 104 relative to each other is prevented. the other may cause tensioning or lengthening of the springs 20 so that the bracelet 100 is biased towards its state of rest or contracted, that is to say, its non-elongated state. Otherwise, when they are assembled with the first and second rods 102 and 104 in an alternating locking configuration, the springs 20 may be free in the space defined between the first caps 10a and the closed ends of the second rods 104 and in the defined space between the second caps 10b and the closed ends of the first rods 102 so that a relative displacement of the first and second rods 102, 104 can compress the springs 20 located between them to resist the relative movement of the first and second rods 102 , 104 in a direction that would lengthen the assembly.
    A method of assembling the bracelet 100 is described below with reference to FIGS. 6-12. Each of the first and second rods 102, 104 may comprise an assembly ring 30 which is coupled to the circumference or perimeter of the rods. The assembly ring 30 can facilitate the gripping or holding rods 102, 104 during assembly of the bracelet 100.
    In FIG. 6, the first ring 102 is shown relative to a spring 20, and a first cap 10b. As indicated by the directional arrow C, the spring 20 is placed in the first ring 102, and as indicated by the directional arrow D, the first cap 10b is then put in place in the first ring 102. The spring 20 can produce a tensioning force so as to resist elongation. A first end 20a of the spring 20 may be attached, for example by brazing, to the base 105 and a second end 20b of the spring 20 may be attached to the cap 10b. As shown in fig. 7, once the spring 20 and the second cap 10b are positioned in the first ring 102, the fingers of the second cap 10b are arranged in the gaps or spaces delimited between the segments 102a-102h so that the second cap 10b can be moved in translation through and along the length of the first ring 102.
    As indicated in FIG. 7, the second ring 104 is then moved in translation along the directional arrow E with respect to the first ring 102 so that the segments 102a-h of the first ring 102 are in place in the gaps or the spaces delimited between the segments. 104a-h of the second ring 104, and that the segments 104a-h of the second ring 104 are in place in the gaps or spaces delimited between the segments 102a-h of the first ring 102. Another spring 20 can then be positioned in the second ring 104 by a displacement in translation of the spring 20 through it as indicated by the directional arrow F, and the second cap 10b can then be put in place in the rod 104 by translational displacement of the cap 10a through that as indicated by the directional arrow G. The cap 10a can then be fixed to the first ring 102 by fixing the projections 8a-8d to the respective housings 9a-9d of the segments corresponding s 102a, 102g, 102b, and 102d, respectively.
    Once this step has been performed, as shown in FIG. 8, the assembled portion 40 of the strap 100 includes the first cap 10a attached to the first ring 102 at the distal end "D1" thereof, the second cap 10b being positioned between the distal end "D1" and the end proximal "PI" of the first ring 102. The second cap 10b is positioned between a first spring 20, which is positioned between the base 103 and the cap 10b, and a second spring 20, which is positioned between the distal end "D1" and the cap 10b. In its rest position, the assembled portion 40 is substantially as shown in FIG. 8. When the first ring 102 is displaced in translation along the directional arrow "X", that is to say out of the second ring 104, the spring 20 which is positioned between the cap 10b and the base 103 of the first ring 102 is compressed and resists movement. The spring 20 which is positioned between the proximal end PI of the first rod 102 and the second cap 10b maintains the relative positioning of the first and second rods 102, 104 in the rest state so that the assembled portion 40 can be coupled. to additional rods during the assembly of the bracelet 100. In particular, the spring 20 which is located between the base 103 and the cap 10b prevents any further translational movement of the rods 102, 104 relative to each other. such that portions of the gaps or gaps between the segments 102a-h and the segments 104a-h of the respective rods 102, 104 remain free for engagement and reception of additional rods.
    Then, as shown in FIG. 8, another first ring 102 can be coupled to the assembled part 40 by translational displacement of the first additional ring 102 in the direction of the arrow H towards the assembled part 40 so that the segments 102a-h of this first ring 102 may engage the segments 104a-h of the second ring 104 of the assembled portion 40. Then, as shown in FIG. 8A, a partially assembled portion 50 of the bracelet 100 is formed. The ends of the portion 50 may be compressed by holding and pressing the ends towards each other as indicated in FIG. 8A.
    Once the portion 50 is in the compressed state, the first cap 10a can be permanently fixed in place, as shown in FIG. 9A. With reference to FIG. 9B, which is an enlarged section of the portion 50, the cap 10a may be attached to one of the first rods 102 by brazing, for example, the projections 8a-d to the respective segments of the first rod 102 to which the corresponding projections are mated. As shown in fig. 9B, the projection 8a is fixed, for example by brazing, in the housing 9d of the segment 102d of the first ring 102. Then, as indicated in FIG. 9C, the first additional ring 102 which has been added in step 8 can be removed to facilitate access to the first cap 10a so as to complete the fixing of the first cap to the first ring 102. In particular, the other fingers, which are free of protrusions 8a-d, namely the fingers 6b, 6d, 6f, and 6h, can be fixed, for example by soldering, to the respective segments of the first ring 102 in which they are in contact. Then, the first additional ring 102 which was introduced in the step described with reference to FIG. 8, and was then removed as shown in FIG. 9C, is once again added to the link or the assembled part (e) of the bracelet. This link or this part partially assembled (e) is shown (e) in FIG. 10 with respect to a spring 20 and a second cap 10b.
    Then, as indicated in FIG. 10, another spring 20 and another second cap 10b may be added to the assembly. In particular, as shown in FIG. 10, the spring 20 is moved in the direction of the arrow I and put in place in the assembly. Similarly, the cap 10b is placed in the assembly by moving in the direction of the arrow J to introduce it into the interior of the assembly. Then, as shown in fig. 11, a second ring 104 is added to the assembly by moving it in translation in the direction of the arrow K so that the second ring 104 can engage with a first ring 102 of the assembly.
    The steps described above in this document are repeated until all the rods 102, 104 forming the bracelet 100 in an alternating configuration form the completed bracelet 100, as shown in FIG. 12. As indicated optimally in FIG. 12, the total number of rods 102, 104 may be equal to thirty (30). However, depending on the size of the rushes, a larger number or a smaller number of rushes can be used. As shown in fig. 13, the alignment of alternating rods 102, 104 can be tested. In particular, when the assembly has been completed as indicated in FIG. 12, each pair of adjacent rods 102, 104 preferably extends approximately to the intermediate point of another pair. The tolerances, for example the alignment and the intervals, between each of the rods 102, 104 can be verified. Then, the assembly rings 30 can be removed, for example by cutting, rods 102, 104 to which they are coupled or attached, and the bracelet 100 is completed.
    In use, a person can enlarge the diameter of the bracelet 100 by pulling the ends of the bracelet 100 so as to lengthen the springs 20 located in the rods 102, 104. The enlargement of the diameter of the bracelet 100 facilitates the setting up the bracelet 100 on the wrist of the person. When the pulling force applied to the bracelet 100 is released, the springs 20 urge the bracelet 100 to return to its initial state of rest. In the rest position, the gaps or spaces between the rods 102, 104 are minimal and the bracelet 100 can have the appearance of a monoblock structure.
    After describing at least one of the preferred embodiments of the present disclosure with reference to the accompanying drawings, it will be apparent to those skilled in the art that the invention is not limited to these specific embodiments, and that various modifications and variations can be made with respect to the system disclosed herein without departing from the scope and spirit of the invention. It follows that the present disclosure is intended to cover the modifications and variations with respect to the present disclosure provided that they fall within the scope of the appended claims and their equivalents.
    权利要求:
    Claims (20)
    [1]
    1. Bracelet, comprising:a plurality of first and second rings forming a circumference of the bracelet, the bracelet having at least one diameter, the first and second rings being positioned alternately adjacent each other, the first and second rods positioned adjacent to each other being displaceable translation from one another so that it is possible to make a transition of the bracelet between a first state in which the diameter has a first dimension and a second state in which the diameter has a second dimension, the second dimension being greater than the first dimension,wherein each of the first rushes has a curved shape and comprises:an ovular base having a circumference; anda plurality of first segment members positioned around the circumference of the base and extending lengthwise from the base, the first segment members being spaced apart from each other around the circumference of the base such that an interval is delimited between the first elements in the form of segments positioned adjacently, andwherein each of the second rushes has a curved shape and comprises:an ovular base having a circumference; anda plurality of second segment members positioned around the circumference of the base and extending lengthwise from the base, the second segment members being spaced apart from each other around the circumference of the base such that an interval is delimited between the second elements in the form of segments positioned adjacently, andwherein each of the first segment members of the first ring is configured for insertion and translational movement through the delimited intervals between the second members as adjacent segments of the second rings, and wherein each of the second members in form. of segments of the second ring is configured for insertion and displacement in translation through the defined intervals between the first elements in the form of adjacent segments of the first rings.
    [2]
    2. Bracelet according to claim 1, further comprising assembly rings which are detachably coupled to each of the first and second rings, each ring being arranged around the perimeter of the rods.
    [3]
    3. Bracelet according to claim 1, further comprising a plurality of springs which are positioned in the first and second rushes, the springs urging the bracelet towards the first diameter and producing a tensioning force resistant to the extension of the bracelet towards the second diameter.
    [4]
    The bracelet of claim 1, further comprising a plurality of first caps which are attached to one end of each first ring, a plurality of second caps which are attached to one end of each second ring, the first cap having a corresponding shape. in the form of the first ring, the second cap having a shape corresponding to the shape of the second ring.
    [5]
    5. Bracelet according to claim 4, wherein a first spring is positioned between the first and second caps, and wherein the spring resists translational movement of the first and second rods relative to each other.
    [6]
    6. Bracelet according to claim 4, wherein a second spring is positioned between the second cap and the base of the first ring.
    [7]
    7. Bracelet according to claim 6, wherein the second spring maintains the second ring approximately at an intermediate point along a length of the first ring when the bracelet is in the first state.
    [8]
    8. Bracelet according to claim 6, wherein the second spring resists translational movement of the first and second rings relative to each other.
    [9]
    The bracelet of claim 4, wherein at least some of the segments of the first ring comprise a first housing, and wherein the first cap comprises at least one protrusion, the protrusion being configured to be securely held in place in the first housing.
    [10]
    The bracelet of claim 1, wherein at least some of the first and second rings comprise a surface comprising second housings.
    [11]
    11. Bracelet according to claim 10, wherein jewels are fixed in the second housing.
    [12]
    12. A method of assembling a bracelet, comprising:providing a plurality of first rushes, each first rim comprising:an ovular base having a circumference;a plurality of first segment members positioned around the circumference of the base and extending lengthwise from the base, the first segment members being spaced apart from each other around the circumference the base such that an interval is delimited between the first elements in the form of segments positioned adjacently;providing a plurality of second rings, each second ring comprising:an ovular base having a circumference; anda plurality of second segment members positioned around the circumference of the base and extending lengthwise from the base, the second segment members being spaced apart from each other around the circumference the base such that an interval is delimited between the second elements in the form of segments positioned adjacently; andlocking the first and second rods slidably with each other by inserting the first elements as segments of the first rods in the intervals defined between the second elements as segments of the second rods and inserting the second elements in the form of segments of the second rushes in the intervals delimited between the first elements in the form of segments of the first rushes.
    [13]
    The method of claim 12, further comprising:providing a plurality of elements in the form of springs;functionally coupling the spring-like elements to the first and second rods such that the spring-like members produce a biasing force urging the first and second rods to a compressed position relative to one another.
    [14]
    The method of claim 12, further comprising:providing a first cap having a shape corresponding to that of the first ring, a second cap corresponding to that of the second ring, and a first element in the form of a spring;the formation of a partial assembly of the bracelet by:placing the element in the form of a spring in one of the first rods;translational displacement of the second cap through said one of the first rods so that it is positioned approximately at an intermediate point of said one of the first rods;translational movement of one of the second rods through said one of the first rods such that the first rod is positioned approximately at an intermediate point one length of the second rod and the second rod is positioned approximately at an intermediate point d a length of the first ring;placing a second spring-like element through the first and second rods so that it contacts the second cap;placing the first cap through the first and second rods so that it contacts the second spring-shaped member such that it is positioned approximately at an intermediate point of said one of the second rods;alternately adding first and second rods to the partial assembly as produced in the step of forming a partial assembly of the bracelet until the assembly is completed so that the bracelet forms a closed loop first and second alternating rushes.
    [15]
    15. The method of claim 14, wherein the first cap is fixed permanently to the first ring.
    [16]
    16. The method of claim 15, wherein the first cap is fixed by spot brazing to the first ring.
    [17]
    17. The method of claim 12, wherein each of the first and second rods comprises an assembly ring removably coupled to a perimeter of the first and second rods, and wherein during the positioning of the first and second rods relative to each other. the others, the first and second rushes are moved by grasping and moving the assembly rings.
    [18]
    18. The method of claim 17, further comprising removing the assembly rings after completing the positioning of the first and second rods in an alternating configuration wherein the first and second rings form a closed loop forming the bracelet.
    [19]
    19. The method of claim 18, wherein housing is formed in surfaces of the first and second rods, and further comprising the attachment of precious stones in the housing.
    [20]
    20. The method of claim 14, wherein the partial assembly is compressed and at least one of the first caps is fixed by spot brazing at an intermediate point along a length of at least one of the first rods.
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    同族专利:
    公开号 | 公开日
    US10292464B2|2019-05-21|
    FR3036023B3|2017-07-21|
    JP2018518204A|2018-07-12|
    FR3036023A3|2016-11-18|
    CN205410005U|2016-08-03|
    DE202015103096U1|2015-07-27|
    WO2016182816A1|2016-11-17|
    US20180132575A1|2018-05-17|
    SG11201706275SA|2017-08-30|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    US4733544A|1987-03-23|1988-03-29|Lonardo Bartholomeo P|Ornamental jewelry member|
    US7055342B2|2001-11-13|2006-06-06|Leon Minassian|Jewelry with hour of day reminder mechanism|
    US7028507B2|2003-04-03|2006-04-18|Broadway Entertainment, Inc.|Article of jewelry|
    US20060004252A1|2004-06-24|2006-01-05|Astala Tonya K|Beaded bracelet for male genitalia|
    EP1731052B1|2005-06-10|2012-11-21|The Swatch Group Management Services AG|Necklace or bracelet with regularly spaced links on a flexible strand|
    ITVI20070001U1|2007-01-12|2008-07-13|Fope S R L|PERFORMED CHAIN FOR ORNAMENTAL OBJECTS|CN108618282A|2018-04-28|2018-10-09|努比亚技术有限公司|It is a kind of can split screen flexible screen bracelet|
    CN110557162A|2018-05-31|2019-12-10|努比亚技术有限公司|Chain link, chain link subassembly and wearing equipment|
    法律状态:
    2018-02-28| PCAR| Change of the address of the representative|Free format text: NEW ADDRESS: AVENUE DES MORGINES 12, 1213 PETIT-LANCY (CH) |
    2018-10-15| AZW| Rejection (application)|
    优先权:
    申请号 | 申请日 | 专利标题
    US201562161151P| true| 2015-05-13|2015-05-13|
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