• 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:
    A binding structure (2) for attaching two structures (??) to each other, said binding structure (2) comprising an elongated body portion (4) having a first end portion (6) and a second end portion (8). A head portion (10, 10’) is provided in the first end portion (6) and in the second end portion (8), wherein said head portion (8) protrudes radially from (at least a portion of the) the body portion (4).
    公开号:DK202000147A1
    申请号:DKP202000147
    申请日:2020-02-05
    公开日:2021-06-17
    发明作者:Clement Ole
    申请人:Cmc Elements Aps;
    IPC主号:
    专利说明:

    DK 2020 00147 A1 1 Binding Structure Field of invention The present invention relates to a binding structure (locking tie) for attaching two structures such as steel reinforcement to each other, wherein said binding structure comprising an elongated body portion having a first end portion and a second end portion. The present invention also relates to a method for locking structures to each other by using a binding structure.
    Prior art In many structural concrete constructions, it is required to use (steel) reinforcement (e.g. rebars) in the associated concrete work. There exists several ways to tie the rebars. Often, the (steel) reinforcement (e.g. rebars) are tied with annealed steel wire, either bought in bulk rolls, or if using a bag tie spinner, in bundles of pre-cut wire pieces with loops formed on both ends. The latter is considered to be easier for novices to use, but somewhat more expensive, the former is often the choice of experience rebar tiers (rodbusters). Attachment of the known attachment structures require, however, application of two arms. Accordingly, it would be desirable to have an alternative binder that can be attached with a single hand.
    Thus, there is a need for a binding structure and a method that enables an easier attachment of reinforcement structures (such as rebars) to each other.
    Summary of the invention The object of the present invention can be achieved by a binding structure as defined in claim 1, by a binding structure assembly as defined in claim 8 and by a method as defined in claim 11. Preferred embodiments are defined in the dependent subclaims, explained in the
    DK 2020 00147 A1 2 following description and illustrated in the accompanying drawings. The object of the present invention can be achieved by a binding structure for attaching two structures to each other, said binding structure comprising an elongated body portion having a first end portion and a second end portion, wherein a head portion is provided in the first end portion and in the second end portion, wherein said head portions protrude radially from, at least a portion of the body portion. Hereby, it is possible to provide a binding structure that enables an easier attachment of reinforcement structures (such as rebars) to each other than the prior art solutions. The binding structure is configured to be used for attaching two or more structures to each other. Such structures may in particular be rebars in a concrete construction. The binding structure comprising an elongated body portion having a first end portion and a second end portion. The elongated body portion may be a structure having a uniform cross section. The cross section of the body portion may have any suitable geometry. In one embodiment, the cross section of the body portion is rectangular.
    In one embodiment, the cross-sectional area of the body portion is circular. In one embodiment, the cross-sectional area of the body portion is oval.
    A head portion is provided in the first end portion and in the second end portion, wherein said head portion protrudes radially from (at least a
    DK 2020 00147 A1 3 portion of the) the body portion. A head portion is defined as a structure having a larger width than the adjacent portion of the body portion that is arranged next to the head portion.
    Preferably, the head portion is made in a massive material. Hereby, it is possible to compress the head portion without deforming the head portion.
    In one embodiment, the binding structure is massive so that the head portions are resistant for compressive forces and thus can be held by a mounting device hereby allowing a fast attachment of the binding structures to structures such as rebars for a concrete construction. It may be advantageous that the binding structure is made by a stamping or punching process. Hereby, it is possible to produce the binding structures by punching or stamping them out from a sheet material, preferably a metal sheet material. It may be an advantage that the binding structure comprises an intermediate structure provided between the first end portion and the second end portion, wherein the width of a portion of the intermediate structure is smaller than the width of the head portion. In one embodiment, the body portion constitutes the intermediate structure. In one embodiment, a portion of the body portion constitutes the intermediate structure. In one embodiment, the intermediate structure has a width of 0.3-5 mm.
    DK 2020 00147 A1 4 In one embodiment, the intermediate structure has a width of 0.5-3 mm. In one embodiment, the intermediate structure has a width of 1-2 mm.
    It may be beneficial that the elongated body portion comprises a uniform cross section. Hereby, it is possible to manufacture the body portion from a standard sheet material having a uniform cross section. It may be an advantage that the elongated body portion is provided with a narrow portion having a smaller width than the remaining part of the elongated body portion. Hereby, it is possible to predefine where the bending will occur. This may be an advantage when a pre-defined bending area is required or beneficial. In one embodiment, the narrow portion has a width that is 80 % or less of the width of the internal structure.
    In one embodiment, the narrow portion has a width that is 70 % or less of the width of the internal structure. In one embodiment, the narrow portion has a width that is 60 % or less of the width of the internal structure. In one embodiment, the narrow portion has a width that is 50 % or less of the width of the internal structure. In one embodiment, the narrow portion has a width that is 40 % or less of the width of the internal structure.
    DK 2020 00147 A1 It may be advantageous that the binder structure is made of metal. In one embodiment, the binder structure is made of steel. In another embodiment, the binder structure is made of aluminium. 5 It may be advantageous that the binder structure is made of heat treated steel. In one embodiment, the binder structure is made of annealed steel.
    In one embodiment, the binder structure is made of calcined steel. The binding structure assembly according to the invention is a binding structure assembly comprising a plurality of binding structures according to the invention, wherein the binding structure assembly is provided in a sheet-like structure. Hereby, it is possible to transport, store and handle the binding structure assembly in a manner in which the relative position of the binding structures can be maintained. By the term sheet-like structure is meant that the binding structures are arranged in a manner, in which the binding structures extend or can be arranged in a configuration, in which the binding structures extend in the same plane. Accordingly, several binding structure assemblies may be stacked. Thus, it is possible to store the binding structures in a manner, in which a limited amount of space is required. In a preferred embodiment, the binding structures are basically straight and extend parallel to each other. It may be advantageous that the binding structures have the same
    DK 2020 00147 A1 6 geometry and length and are provided next to each other, Preferably, the binding structures extend in the same direction so that the longitudinal axes of the binding structures extend parallel to each other. It may be an advantage that that a micro joint is provided between adjacent head portions. Hereby, it is possible to maintain the binding structures in a fixed position relative to each other. At the same time, the micro joint makes it possible to detach two adjacent binding structures from each other. Preferably, adjacent binding structures are fixed to each other by a first micro joint and a second micro joint.
    Preferably, adjacent binding structures are fixed to each other by a first micro joint and a second micro joint. In a preferred embodiment, the binding structures are fixed to each other by a first micro joint provided in the first head portion and by a second micro joint provided in the second head portion. In one embodiment the micro joints extend perpendicular to the longitudinal axis of the binding structure.
    The method according to the invention is a method for locking at least two reinforcement structures (e.g. rebars) to each other by using a binding structure, wherein the method comprises the step of applying a binding structure and/or a binding structure assembly according to the invention. It may be advantageous that the method comprises the step of twisting
    DK 2020 00147 A1 7 two distal portion of the binding structure around each other.
    This may preferably be done by using a mounting device configured to hold the distal ends of a binding structure or a binding structure assembly.
    Description of the Drawings The invention will become more fully understood from the detailed description given herein below.
    The accompanying drawings are given by way of illustration only, and thus, they are not limitative of the present invention.
    In the accompanying drawings:
    Fig. 1A shows a schematic view of a portion of a binding structure according to the invention; Fig. 1B shows a schematic view of a portion of another binding structure according to the invention; Fig. 1C shows a schematic view of a portion of a further binding structure according to the invention; Fig. 1D shows a schematic view of a portion of another binding structure according to the invention; Fig. 1E shows a schematic view of a portion of a further binding structure according to the invention; Fig. 1F shows a schematic view of a portion of an even further binding structure according to the invention; Fig. 2A shows a view of how reinforcement structures are being attached to each other by using a prior art steel wire; Fig. 2B shows another way view of attaching reinforcement structures to each other by using a steel wire; Fig. 3A shows a perspective view of a binding structure assembly according to the invention; Fig. 3B shows a perspective view of a binding structure from the binding structure assembly shown in Fig. 3A; Fig. 4A shows a perspective view of a binding structure assembly according to the invention;
    DK 2020 00147 A1 8
    Fig. 4B shows a close-up view of a portion of the binding structure assembly shown in Fig. 4A;
    Fig. 4C shows a close-up view of a portion of a binding structure according to the invention;
    Fig. 5A shows a perspective view of a binding structure according to the invention arranged in a mounting device;
    Fig. 5B shows a close-up view of an end portion of a binding structure arranged in the mounting device shown in Fig. 5A;
    Fig. 6A shows a metal sheet, from which binding structures according to the invention can be made;
    Fig. 6B shows a binding structure assembly made from the metal sheet shown in Fig. 6A after a punching process has been carried out;
    Fig. 6C shows a close-up view of a portion of a binding structure from the binding structure assembly shown in Fig. 6B;
    Fig. 6D shows the binding structure shown in Fig. 6C in a configuration, in which the side portions of the elongated body portion have been bent;
    Fig. 6E shows a cross-sectional view of the elongated body portion of the binding structure shown in Fig. 6C;
    Fig. 6F shows a cross-sectional view of the elongated body portion of the binding structure shown in Fig. 6D;
    Fig. 6G shows a cross-sectional view of two binding structures each having an elongated body portion like the binding structure shown in Fig. 6D;
    Fig. 6H shows a cross-sectional view of two binding structures according to one embodiment of the invention and
    Fig. 61 shows a cross-sectional view of the elongated body portion of a binding structure shown in Fig. 6H.
    DK 2020 00147 A1 9 Detailed description of the invention Referring now in detail to the drawings for the purpose of illustrating preferred embodiments of the present invention, a portion of a binding structure 2 of the present invention is illustrated in Fig. 1A.
    Fig. 1A illustrates a schematic view of a portion of a binding structure 2 according to the invention. The binding structure 2 comprises an elongated body portion 4 extending between a first head portion 10 and a second head portion (not shown). It can be seen that the head portion 10 protrudes from the body portion 4 and that the width Ds of the head portion 10 is larger than the width D> of the body portion 4. The first head portion 10 is arranged at the first end portion 6 of the binding structure 2. Likewise, the second head portion (not shown) is arranged at a second end portion (not shown) provided in the opposite end than the first end portion 6 of the binding structure 2. The head portion 10 has a conical geometry. In one embodiment, the cross-sectional area of the head portion 10 is circular. In another embodiment, the cross-sectional area of the head portion 10 is rectangular (e.g. square). In a further embodiment, the cross-sectional area of the head portion 10 is oval. By having a head portion 10 that protrudes from the body portion 4, it is possible to hold the binding structure 2 by using the head portion 10. Fig. 1B illustrates a schematic view of a portion of another binding structure 2 according to the invention. The binding structure 2 comprises an elongated body portion 4 extending between a first head portion 10 and a second head portion (not shown) arranged in the opposite end og the binding structure 2. The head portion 10 protrudes from the body portion 4 and that the width D3 of the head portion 10 is larger than the width D> of a narrow portion 16 of the body portion 4. The first head portion 10 is arranged at the first end portion 6 of the
    DK 2020 00147 A1 10 binding structure 2 and the second head portion (not shown) is arranged at the opposite (second) end portion (not shown) of the binding structure 2.
    The head portion 10 has rectangular cross-sectional area. The narrow portion 16 is provided between two adjacent portions having the same width Ds.
    The head portion 10 protruding from the body portion 4 enables that the head portion 10 can be used to fix the binding structure 2 to (e.g. a receiving structure of) a tool.
    Fig. 1C illustrates shows a schematic view of a portion of a further binding structure 2 according to the invention. The binding structure 2 comprises an elongated body portion 4 extending between a first head portion 10 and a second head portion which is not shown, but is arranged in the opposite end og the binding structure 2. The head portion 10 protrudes from the body portion 4 so that the first end portion 6 of the binding structure 2 constitutes a L-shaped portion.
    The width Ds of the head portion 10 is approximately twice as large as the width D; of the body portion 4. The first head portion 10 is arranged at the first end portion 6 of the binding structure 2.
    In one embodiment, the head portion 10 has a rectangular cross- sectional area. In another embodiment, the head portion 10 has a circular or oval cross-sectional area.
    The protruding portion of the head portion 10 can be used to fix the binding structure 2 to (e.g. a receiving structure of) a tool. Hereby, the use of a hand to hold the binding structure 2 can be eliminated.
    DK 2020 00147 A1 11 Fig. 1D illustrates a schematic view of a portion of another binding structure 2 according to the invention. The binding structure 2 comprises an elongated body portion 4 that is sandwiched between a first head portion 10 and a second head portion (not shown). The head portion 10 protrudes from the body portion 4. The width D3 of the head portion 10 is larger than the width D» of the body portion 4. Accordingly, it is possible to hold the binding structure 2 (e.g. in a mounting tool shown in Fig. 5A) by using the head portion 10.
    The first head portion 10 is arranged at the first end portion 6 of the binding structure 2. The second head portion (which is not shown) is arranged at a second end portion (not shown) provided in the opposite end than the first end portion 6 of the binding structure 2.
    Fig. 1E illustrates a schematic view of a portion of a further binding structure 2 according to the invention. The binding structure 2 basically corresponds to the one shown in Fig. 1D. The first head portion 10 is, however, shaped slightly differently. Whereas in Fig. 1D, the top portion of the first head portion 10 is arced, the first head portion 10 is flat in Fig. 1E.
    Fig. 1F illustrates a schematic view of a portion of an even further binding structure 2 according to the invention. The binding structure 2 basically corresponds to the one shown in Fig. 1E. A narrow portion 16 is, however, provided in the body portion 4 of the binding structure 2. Fig. 2A illustrates a perspective view of reinforcement structures 36, 38, 40 that are being attached to each other by using a prior art steel wire
    34. A worker holds a tool (pliers) 32 in his hand 30. By means of the tool 32, the worker can bind/tie the wire 34 around the structures 36, 38, 40 to be attached to each other.
    Fig. 2B illustrates how structures 36, 38, 40 to be attached to each
    DK 2020 00147 A1 12 other by using a wire 34 and a pliers 32. This prior art way of attaching the structures 36, 38, 40 to each other is time consuming, and requires two free hands. Accordingly, it would be desirable to have an alternative to this way of locking structures to each other. Fig. 3A illustrates a perspective view of a binding structure assembly 12 according to the invention. The binding structure assembly 12 comprises a plurality of binding structures 2 arranged side by side and being attached to their neighbouring binding structure 2’. Each binding structure 2, 2’ comprises an elongated body portion that extends, in a straight manner, between a first head portion 10 and a second head portion 10 of the binder structure 2, 2".
    Neighbouring binding structure 2, 2' are attached to each other by means of at least one micro joint 18, 18’ as the ones shown in Fig. 3B. The micro joint 18, 18’ are provided at the head portions 10, 10' of the binding structures 2, 2’ and protrude therefrom. Accordingly, adjacent binding structures 2, 2’ can be detached from each other by providing a force that pulls the binding structures 2, 2' away from each other. The head portions 10, 10' protrudes from the elongated body and hereby provides an attachment portion suitable for being used to maintain the binding structures 2, 2' in a mounting device as the one shown in Fig. 5A. Fig. 3B illustrates a perspective view of a binding structure 2 from the binding structure assembly 12 shown in Fig. 3A. It can be seen that the binding structure 2 comprises an elongated body portion 4 extending along the length and the longitudinal axis X of the binding structure 2.
    DK 2020 00147 A1 13 In the first end portion 6 of the binding structure 2, a first, basically box-shaped head portion 10 is provided. The head portion 10 protrudes along a first lateral axis Z of the binding structure 2 and protrudes from the body portion 4. A micro joint 18 extends along a second lateral axis Y of the binding structure 2 and protrudes from the head portion 10. In the second (opposite) end portion 8 of the binding structure 2, a second, basically box-shaped head portion 10’ is provided. The head portion 10’ protrudes along a first lateral axis Z of the binding structure 2 and protrudes from the body portion 4. A micro joint 18’ extends along a second lateral axis Y of the binding structure 2 and protrudes from the head portion 10.
    The body portion 4 has a uniform cross section (rectangular).
    Fig. 4A illustrates a perspective view of a binding structure assembly 12 according to the invention. The binding structure assembly 12 comprises a plurality of binding structures 2 arranged side by side and being attached to their neighbouring binding structure 2’.
    Every binding structure 2, 2’ comprises a straight elongated body portion that extends between a first head portion 10 and a second head portion 10 of the binder structure 2, 2".
    Neighbouring binding structures 2, 2’ are attached to each other in the first end portion by means of a first micro joint 18 and in the second (opposite) end portion by means of a second micro joint 18°.
    The micro joint 18, 18’ are provided at the head portions 10, 10' of the binding structures 2, 2' and protrude therefrom. Therefore, adjacent binding structures 2, 2' can be detached from each other by providing a force that pulls the binding structures 2, 2' away from each other.
    DK 2020 00147 A1 14 The head portions 10, 10° constitute attachment portions that are suitable for being used to maintain the binding structures 2, 2' in a mounting device as the one shown in Fig. 5A. Fig. 4B illustrates a close-up view of the second end portion of the binding structure assembly shown in Fig. 4A. It can be seen that a first binding structure 2 is attached to a second adjacent binding structure 2’ by means of a micro joint 18’ extending between the adjacent head portions 10°, 10” of the adjacent binding structures 2, 2’. The thickness of the micro joint 18 may be selected so that the binding structure assembly can be stored, transported and handled without detachment of adjacent head portions 10’, 10”. On the other hand, the thickness of the micro joint 18’ should be selected so that adjacent binding structures 2, 2' can be pulled away from each other during use of the binding structure assembly. In one embodiment, the thickness of the micro joint 18’ is 0.001-2.0 mm.
    In another embodiment, the thickness of the micro joint 18’ is 0.002-
    1.0 mm. In a further embodiment, the thickness of the micro joint 18’ is 0.004-
    0.8 mm. Fig. 4C illustrates a close-up view of the second portion of a binding structure 2 according to the invention. The binding structure 2 has been detached from the other binding structure 2’ (shown in Fig. 4B).
    Fig. 5A illustrates a perspective view of a binding structure 2 according to the invention arranged in a mounting device 20. The binding
    DK 2020 00147 A1 15 structure 2 comprises an elongated body portion extending between a first head portion 10 and a second head portion 10’. The head portions 10, 10’ protrude from the body portion. The widths of the head portions 10, 10" are larger than the width of the body portion.
    The mounting device 20 comprises a base portion 22 provided in the distal end of the mounting device 20. The base portion 22 is equipped with a receiving opening 24 that is configured to receive and hold the head portion 10 of the binding structure 2.
    The mounting device 20 comprises a twisted portion 26 extending between the base portion 22 and an end structure 28 provided in the opposite end of the mounting device 20. The mounting device 20 is configured to be displaced along a guide structure of an additional tool (e.g. an electrical tool) adapted to rotate the mounting device 20 upon displacing the mounting device 20 along its longitudinal axis X'.
    Fig. 5B illustrates a close-up view of an end portion of a binding structure 2 arranged in the mounting device 20 shown in Fig. 5A. It can be seen that the head portion 10 of the binding structure 2 is held by two bracket structures 21, 21’. The bracket structures 21, 21’ are basically L-shaped and comprise two parallel holding structures. The holding structures may be provided as plate structures.
    Fig. 6A illustrates a metal sheet 46 from which binding structures according to the invention can be made. The metal sheet 46 may be cut from a metal roll.
    Fig. 6B illustrates a binding structure assembly 12 made from the metal sheet 46 shown in Fig. 6A after a punching process has been carried out. It can be seen, that the binding structure assembly 12 is provided in a sheet-like structure. The binding structure assembly 12 comprises a
    DK 2020 00147 A1 16 plurality of binding structures 2 having the same geometry and length. The binding structures 2 are provided next to each other in a manner, in which a micro joint is provided between adjacent head portions of the binding structures 2.
    Each binding structure 2 is provided with two parallel punching lines 48, 48" (indicated by dotted lines) and parallel bending lines 52, 52’. The side portions 50, 50’ of the elongated body portion of each binding structure are configured to be bent along its corresponding bending line 52, 52’. Accordingly, almost the entire metal sheet 46 is used (almost no metal is wasted during the manufacturing process). A cross section line A is indicated. Fig. 6C illustrates a close-up view of a portion of a binding structure 2 from the binding structure assembly shown in Fig. 6B. It can be seen, that the head portion 10 has been separated from its surroundings and that a small gap is provided between the head portion 10 and the (side portions 50, 50’ of the) elongated body portion 4. The bending lines 52, 52' of the elongated body portion 4 are shown in Fig. 6C. It can be seen that the side portions 50, 50’ of the elongated body portion 4 can be bent (rotated with respect to the bending lines 52, 52") as indicated with the arced arrows to achieve the configuration shown in Fig. 6D. Fig. 6D illustrates the binding structure 2 shown in Fig. 6C in a configuration, in which the side portions 50, 50' of the elongated body portion 4 have been bent (rotation about the corresponding bending line 52, 52"). Accordingly, the head portion 10 protrudes radially from the body portion 4. Fig. 6E illustrates a cross-sectional view (cross section along the line A shown in Fig. 6B) of the elongated body portion 4 of the binding structure shown in Fig. 6C. It can be seen, that the elongated body
    DK 2020 00147 A1 17 portion 4 comprises a centrally arranged body portion 44 placed between to bent portions 42, 42’ that have not yet been bent though.
    Fig. 6F illustrates the cross-sectional view of the elongated body portion 4 of the binding structure shown in Fig. 6D in a configuration, in which the bent portions 42, 42’ are bent (90 degrees relative to the longitudinal axis of the and body portion 44). Fig. 6G illustrates a cross-sectional view of two binding structures each having an elongated body portion like the binding structure shown in Fig. 6D.
    It can be seen, that the head portion 10 protrudes radially from the body portion 4 and that the bent portions 42, 42’ have been bent 90 degrees relative to the longitudinal axis of the and body portion 44. Besides, a micro joint 18 is provided between the two adjacent binding structures.
    Fig. 6H illustrates a cross-sectional view of two binding structures 4 according to one embodiment of the invention.
    The head portion 10 protrudes radially from the body portion 4 and that the bent portions 42, 42’ have been bent 180 degrees relative to the longitudinal axis of the and body portion 44. Besides, a micro joint 18 is provided between the two adjacent binding structures.
    Fig. 61 illustrates a cross-sectional view of the elongated body portion of a binding structure 4 shown in Fig. 6H.
    It can be seen that the bent portions 42, 42’ are bent 180 degrees relative to the longitudinal axis of the and body portion 44.
    DK 2020 00147 A1 18 List of reference numerals 2, 2 Binding structure 4 Elongated body portion 6 First end portion 8 Second end portion
    10, 10’, 10” — Head portion 12 Binding structure assembly 14 Intermediate structure 16 Narrow portion
    18, 18’ Micro joint Mounting device 21, 21' Bracket structure 22 Base portion 24 receiving opening
    13 26 Twisted portion 28 End structure 30 Hand 32 Tool (pliers) 34 Wire
    20 36 Rebar 38 Rebar 40 Rebar 42, 42' Bent portion 44 Body portion
    46 Sheet 48, 48’ Punching line 50, 50’ Side portion 52, 52° Bending line A Cross section line
    Di, D2, D3 Width X,Y, Z, X Axis
    权利要求:
    Claims (12)
    [1] 1. A binding structure (2) for attaching two structures (38, 40) to each other, said binding structure (2) comprising an elongated body portion (4) having a first end portion (6) and a second end portion (8), characterised in that a head portion (10, 107) is provided in the first end portion (6) and in the second end portion (8), wherein said head portions (10, 107) protrude radially from the body portion (4).
    [2] 2. A binding structure (2) according to claim 1, characterised in that the binding structure (2) is made by a stamping or punching process.
    [3] 3. A binding structure (2) to one of the preceding claims, characterised in that the binding structure (2) comprises an intermediate structure (4, 16) provided between the first end portion (6) and the second end portion (8), wherein the width (Di, D2) of a portion of the intermediate structure (4, 16) is smaller than the width (D3) of the head portion (10, 10%).
    [4] 4, A binding structure (2) to one of the preceding claims, characterised in that the elongated body portion (4) comprises a uniform cross section.
    [5] 5. A binding structure (2) to one of the preceding claims, characterised in that the elongated body portion (4) is provided with a narrow portion (16) having a smaller width than the remaining part of the elongated body portion (4).
    [6] 6. A binding structure (2) to one of the preceding claims, characterised in that the binder structure (2) is made of metal.
    [7] 7. A binding structure (2) to one of the preceding claims, characterised in that the binder structure (2) is made of heat treated
    DK 2020 00147 A1 20 steel.
    [8] 8. A binding structure assembly (12) comprising a plurality of binding structures (2) according to one of the preceding claims, wherein the binding structure assembly (12) is provided in a sheet-like structure (20).
    [9] 9. A binding structure assembly (12) to claim 8, characterised in that the binding structures (2) have the same geometry and length and are provided next to each other.
    [10] 10. A binding structure assembly (12) to claim 9, characterised in that a micro joint is provided between adjacent head portions (10, 107)
    [11] 11. Method for locking at least two reinforcement structures (36, 38, 40) to each other by using a binding structure (2, 2"), characterised in that the method comprises the step of applying a binding structure (2, 2") according to one of the claims 1-7 and/or a binding structure assembly (12) according to one of the claims 8-10.
    [12] 12. Method according to claim 11, characterised in that the method comprises the step of twisting two distal portion of the binding structure (2, 2’) around each other.
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    同族专利:
    公开号 | 公开日
    DK180547B1|2021-06-17|
    WO2021155894A1|2021-08-12|
    引用文献:
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    US2004702A|1934-05-23|1935-06-11|Jr Fred Luttmann|Elastic lace|
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    US7143563B1|2003-05-20|2006-12-05|Palmer Douglas A|Tie and tie method for binding together adjacent support elements|
    AT13371U1|2011-10-14|2013-11-15|Mowein Gmbh Moderner Wein & Pflanzenbaubedarf|binder element|
    CN203237416U|2013-05-23|2013-10-16|台州市新大陆电子科技有限公司|Steel wire winding assembly and steel bar binding machine|
    KR20150032953A|2013-09-22|2015-04-01|조경일| Ling of Bar bind clip |
    US10280621B2|2015-04-08|2019-05-07|A New Twist Llc|Method of tying a rebar tie|
    法律状态:
    2021-06-17| PAT| Application published|Effective date: 20210617 |
    2021-06-17| PME| Patent granted|Effective date: 20210617 |
    优先权:
    申请号 | 申请日 | 专利标题
    DKPA202000147A|DK180547B1|2020-02-05|2020-02-05|Binding Structure|DKPA202000147A| DK180547B1|2020-02-05|2020-02-05|Binding Structure|
    PCT/DK2021/050019| WO2021155894A1|2020-02-05|2021-01-21|Binding structure and mounting device|
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