• 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:
    Cable strand lashing devices and methods of using the same cable strand lashing devices and methods of using the same are described. cable stranding devices include a main unit and a cable stranding tape. the main unit being configured to hold the first part of the cable stranding ribbon inside the main unit and have a length of cable stranding ribbon extending from the main unit. the main unit further adapted to keep the second part of the cable stranding tape extending from the main unit. the methods of using the rope strand tying devices include holding the first part of a rope stranding tape in a main unit, wrapping the rope stranding tape around a plurality of objects, and holding the second part of the cable stranding tape inside the main unit.
    公开号:BR112016022001B1
    申请号:R112016022001-3
    申请日:2015-03-05
    公开日:2021-08-17
    发明作者:Alan E. Zantout;Robert W. Sutter;Michael Weiby;James Davidson
    申请人:Ideal Industries, Inc.;
    IPC主号:
    专利说明:

    DESCRIPTION FIELD
    [0001] The present description generally refers to devices and methods for holding objects together and, more particularly, to cable strand lashing devices and methods of using the same. FUNDAMENTALS OF RELATED ART
    [0002] Individual strands, wire harnesses, or cables having two or more strands or strands are usually grouped and held adjacent to each other at various points along their lengths using cable ties or cable stranding tape. For example, it may be desirable to keep two or more wires, wire harnesses, cables or other objects together, or to connect such objects to other structures. In these examples, cable strand lashing units can be used to help ensure the safety and durability of the various components.
    [0003] Cable ties have become very common and are typically formed from a piece of molded plastic, which includes an elongated solid strap connected at one end to a buckle. The strap is designed to be wrapped around a bundle of yarn and then fed into the buckle. In one example, mating surfaces on the strap and inside the buckle often have complementary indentation patterns that can achieve a locking position. Thus, a cable tie buckle often includes a locking member or tongue molded into the passage to cooperate with molded saws or teeth along the strap. The buckle may include a metal tab provided separately for engaging the serrations on the strap. Alternatively, the strap may have flat surfaces and the buckle may include a strap penetrating element similar to a metal burr or knife to cut or bite the strap and prevent further removal of the strap. However, such a burr or knife-like strip penetrating element is generally destructive to the strip when cutting or biting it, permanently reducing the strength of the strip and increasing the tendency for the strip to tear.
    [0004] Once a strip of a cable tie is threaded into the buckle, it can be cut to remove any remaining free ends. However, in these examples, the cut section of the molded plastic strip that protrudes from the buckle can offer an undesirable partially pronounced obstruction, which can result in abrasion problems with respect to adjacent wire bundles, and can be problematic if attempted. pulling the bundle of wires through an opening, such as a panel opening. This may also be true of the molded buckle itself, which can be relatively large and have partially sharp edges. It should be noted that another drawback of molded plastic cable ties is that, due to their relative rigidity, they are generally not capable of irregularly shaped or rectangularly tapering closely, as can occur when bundling wires, wire harnesses or cables, or connecting them to other structures.
    [0005] In use, a cable tie can be subjected to elevated temperatures, such as, for example, in the aerospace environment, which can reach up to a temperature of 400°F. These high temperatures can cause a common cable tie, which is typically molded from a thermoplastic material such as nylon, to slip or lose structural integrity. In addition, the integral locking element or tab that engages the strap can then sag, allowing the bundle of wires to separate or move away. The locking element or tongue will generally be constructed to be flexible in order to reduce the insertion force of the strip, but this also compromises the ability to retain the strip, especially at high temperatures. Cable ties have a separately provided metallic locking element or tongue which is generally intended to provide increased retention, even at elevated temperatures, however these structures typically require higher insertion forces when passing through the metallic element.
    [0006] Due to many of the above disadvantages associated with molded plastic cable lashings in areas where high levels of security are required, such as in the military and commercial aircraft industries, in the aerospace industry, as well as in some marine environments, there are a preference for using a procedure known as "cable stranding" to secure or assemble wires, wire harnesses or cables. Cable stranding includes wrapping a material commonly referred to as "cable stranding tape" around wires, wire harnesses or cables, and tying knots in the cable stranding tape at different locations along the length of the bundle, referred to as point lashings, or in a format running with continuous cable stranding tape along the bundle between knot locations.
    [0007] Modern cable strand tapes typically are a relatively flat, thin fabric, or braided cord, often referred to as a "ribbon", having filaments that can be made from materials such as nylon, polyester, or Nomex, and which can be impregnated with coatings to enhance particular performance characteristics. Materials, such as Nomex, provide good tensile strength while being non-flammable, highly resistant to fluids and lubricants, and capable of operating in extreme temperature environments such as approximately -65°F to 500°F. However, cable stranding has disadvantages in that cable stranding tape is typically hand-strung in an expensive, labor-intensive and time-consuming process. Due to these problems, several attempts have been made to automate the cable stringing process. Such an automated knot tying device is described in U.S. Pat. U.S. No. 6.648,378. US 3 336 639 A1 describes a main unit comprising wedge-type retainers for retaining the ends of the cable-stranding tape. BRIEF DESCRIPTION OF THE DRAWINGS
    [0008] Fig. 1 is a perspective view of an exemplary cable strand lashing device of the present description.
    [0009] Fig. 2 is a cut-away side view of the exemplary cable strand lashing device of Fig. 1.
    [0010] Fig. 3 is a perspective view of the exemplary cable strand tying device of Fig. 1 having been installed in an exemplary wire bundle.
    [0011] Fig. 4 is a front view of the cable strand lashing device of Fig. 3.
    [0012] Fig. 5 is a cut-away side view of the exemplary cable strand lashing device of Fig. 1, having an exemplary retainer in a readily unlocked position, with the device being sectioned parallel to the stringing direction and with a view simplified cable stranding tape.
    [0013] Fig. 6 is a cut-away side view of the cable strand lashing device of Fig. 1, having an exemplary retainer in a locked position, with the device being sectioned parallel to the stringing direction and with a simplified view of the cable stranding tape. DETAILED DESCRIPTION OF THE INVENTION
    [0014] The following description of the exemplary methods and apparatus is not intended to limit the scope of the description to the precise form or forms detailed herein. Rather, the following description is intended to be illustrative so that others can follow its teachings.
    [0015] The present description provides cable strand lashing devices to hold together a plurality of objects, such as objects of similar or different sizes, which are to be gathered and held together at one or more predetermined locations, such as points along a group of wires, wire harnesses, or cables, which are bundled together to form a bundle. The described cable strand tying devices generally comprise a main unit and a length of cable stranding tape, such as, for example, a braided filament element. A first part, such as a first end of the length of the cable stranding tape, can be retained by the main unit. In one example, the cable stranding tape is routed through, or otherwise connected to or molded into, a head body. In the present example, the cable stranding tape is routed through an opening in the head and sewn or otherwise adhered thereto to secure the head to the tape. The main unit body is preferably molded of a material that is adapted for use in a relatively high temperature environment, such as polyetheretherketone (PEEK) or polyetherimide (PEI), although other materials may be used in correspondence with their desired performance characteristics . The main unit may also include a retainer to hold the second part of the cable stranding tape inside the main unit. The first part of the cable stranding tape, alternatively, must be kept inside a main unit retainer.
    [0016] In a main form, the retainer may have a first end, having smooth sides and rounded geometry, to allow the second portion of the cable stranding tape to slide easily and with minimal friction around the retainer, prior to activation. The retainer may also have a second end with non-symmetrical geometry, so that the second part of the cable stranding tape is forced to slide around the pronounced complex geometry, thus increasing the friction in the second part of the cable stranding tape. and discouraging relative movement. In all forms, the retainer is not intended to be a destructive element and, therefore, the retainer is not intended to penetrate, cut, or otherwise damage the individual strands of the rope-stranding tape. It will be noted by a person of ordinary skill in the art, however, that although not intended to be destructive, under certain circumstances, such as misuse, the retainer can cause damage to the cable stranding tape.
    [0017] The present description also provides a cable strand tying device, which includes a main unit and a cable stranding tape, the cable stranding tape including braided filaments or fabrics, a first part of the stranding tape of cable retained within the main unit, the main unit including a body having a passage therethrough, a retainer being movable from an unlocked position to a locked position, and a second part of the cable stranding tape having one end, and the end being routed through the main unit passageway in a path where the retainer is moved from the unlocked position to the locked position when the end of the second part of the cable stranding tape is pulled.
    [0018] In another aspect, the description provides a method of holding together a plurality of objects with a cable strand lashing device, wherein the cable strand lashing device comprises a main unit having a passage through it, a cable-stringing tape and a retainer, the cable-stringing tape comprising braided filaments and fabrics and being configured to have a first part held by the main unit and a second part having an end, the retainer being movable from an unlocked position to a locked position, to contain the second part of the cable stranding tape inside the main unit. The method includes the steps of locating the main unit on or near the plurality of objects, moving the second part of the cable stranding tape into a looped position around the plurality of objects, rotating the end of the second part through the passage of the unit. main while the retainer is in the unlocked position, and in a path from which pulling the end of the second part of the rope-stringing tape will remove the slack in the second part of the rope-stringing tape and move the retainer from an unlocked position to a position locked, and pull the end of the second part of the rope-stringing tape until the slack in the second part of the rope-stringing tape is removed and the retainer moves from an unlocked position to a locked position, in which the second part of the Cable stranding tape is retained inside the main unit.
    [0019] At least one advantage of the cable strand tying device of the present description is that it can include front units and cable stranding tapes, which are constructed of one or more materials that are adapted for use in environments involving temperatures relatively high or other extreme conditions. Weight savings can also be realized through plastic cable ties using a lightweight cable stranding tape that is of braided filament construction. The main units can even be configured to provide close to zero insertion force, thus allowing relatively easy insertion of the distal end of the cable stranding tape through the main unit. Cable stranding devices can also be used in a cable stranding method that provides very fast and secure installation.
    [0020] At least some of the cable strand lashing devices of the present description may also provide advantages with respect to ease of use, such as having all components connected together for convenient handling, and avoidance of lost parts. Furthermore, in at least one example, the rope strand lashing devices described here can be configured to allow the device to be used in synchronization along with a plurality of objects, eliminating slack in the rope stranding and then allowing a retainer to move to a position that holds the cable stranding ribbon inside a main unit, without the user having to do anything other than pull a free end of the cable stranding ribbon. The movement is effectively automatic, in that the user does not need to take any action other than continuing to pull the end of the cable stranding tape until force on the components, which lock the cable stranding tape in its installed position , release the unlocked position and move to a locked position.
    [0021] Although discussed with respect to examples that can be used in particular industries, such as, for example, commercial or military aircraft, it will be noted that the described cable lanyard lashing devices and methods of utilizing them can be used in other industries or applications, and may be incorporated into other electrical appliances and systems for use with any objects requiring connection or assembly. Therefore, while the present description shows and demonstrates various exemplary components, the examples are merely illustrative and are not to be considered limiting. It will be evident to one of ordinary skill in the art that various cable strand lashing devices, apparatus and electrical systems can be constructed without departing from the scope or spirit of the present description. Thus, although certain examples have been described herein, they are merely illustrative, are not to be considered limiting, and the scope of this patent is not limited to them.
    [0022] Referring now to the drawings, an exemplary cable strand lashing device 10 of the present description is illustrated in Figs. 1-6. The rope strand tying device 10 includes a main unit 12 and a length of rope stranding tape 14. The main unit 12 of this example includes a molded body 16 and an actuable retainer 18. In the illustrated example, a first part 22 of the cable stranding tape 14 is configured to be retained in a first position within the main unit 12 by stitching, tacking, and/or by other connection methods, as discussed below. A length of the cable stranding tape 14 then extends from the rear of the main unit 12. The cable strand tying device 10 can be used, for example, to hold together a plurality of objects, such as for form a bundle B of a group of wires W, which are shown in Figs. 3 and 4 in a simplified mode.
    [0023] In the present description, the body 16 and retainer 18 may be injection molded and constructed of a material that is suitable for use in a relatively high temperature environment, such as polyetheretherketone (PEEK) or polyetherimide (PEI), although others plastics may be suitable for less demanding environments. It will be appreciated that retainer 18 may also be formed from any substance, including a metal, such as spring steel, or any other suitable material, including any alloy, molded compound, etc.
    [0024] The exemplary cable-stranding tape 14 is constructed of a thin, relatively flat, braided filament element, such as that known as braided cable-stranding tape, which may be made of one or more materials suitable for use. destined. This can include materials such as nylon, polyester, or natural fibers. In applications that require a more stable material, the exemplary cable stranding tape may include Nomex, or other suitable modern filaments. Generally, when the cable stranding tape is shown in the Figures, for convenience it is provided in a very simplified view, in which it is shown as a thin flat strip. However, it will be understood that in all examples the cable stranding tape may be a woven or braided construction.
    [0025] Referring in particular to Fig. 5, the first part 22, such as a first end of the cable-stranding tape 14, is semi-permanently retained in the main unit 12. For example, the cable-stranding tape 14 can be looped through the main unit 12 and adhered to it by any suitable means. Other permanent, semi-permanent, or temporary retention means can be used when desired. The cable stranding tape 14 may also include a tip (not shown) molded to the distal or second end 28 of the cable stranding tape 14 that extends from the main unit 12. The tip (not shown) can help protect the tape. 14 or, as discussed in more detail below, to facilitate insertion of the second end 28 of the cable stranding tape 14 through the main unit 12.
    [0026] As shown in Figs. 2, 5, and 6, the body 16 of the exemplary main unit 12 generally has a rear surface 30, a front surface 32, a top surface 34, a base surface 36, and a passage 38, having a first opening 40, between the front surface 32 and the base surface 36, for entering and exiting the passage 38. A second opening 42 is located between the rear surface 30 and the top surface 34, for wrapping the rope-stringing tape 14 around the retainer 18 and back through passage 38.
    [0027] A second part 24 of the cable stranding tape 14 extends outwardly from the front surface 32 of the main unit 12, opposite the direction in which the retainer 18 extends from the main unit 12 when in the unlocked position. Thus, the retainer 18 is held in a position extending rearwardly through the winding opening 42 of the rear surface 30.
    [0028] A person having ordinary skill in the technique will note that there are many ways to contain the retainer in the unlocked position. For example, the retainer can be held in place with plastic arms located with respect to any of the corresponding external surfaces of the retainer or internal surfaces of the passage through the body that are opposed to each other, and can be integrally molded with the body and retainer. In another example, the retainer may be held in place with toothed release plastic components located with respect to any of the corresponding outer surfaces of the retainer or inner surfaces of the passage through the body that are opposed to each other, and may be integrally molded with body and retainer. In yet another example, the retainer can be formed separately from the body, and can be held in place with a friction fit between internal surfaces of the passage through the body that are opposite to each other. In still other examples, the retainer may be provided with tongues and/or other protrusions that may be locatable in a detent, channel, and/or other depression in the body itself.
    [0029] In the illustrated example, passage 38 is generally tapered or wedge-shaped with a top wall 50, a bottom wall 52, and side walls 54. Retainer 18 has a first end 56 of generally smooth and rounded geometry, and a second end 58 with retainer geometry 100. In one example, second end 58 includes angular geometry, such as, for example, a protrusion and/or point. It will be appreciated by a person of ordinary skill in the art that the retainer geometry may vary as desired, provided retainer 18 is capable of holding the tape within the main unit 12. In this example, the first end 56 of retainer 18 is configured for coining. between the upper and lower walls 50, 52 of the passage 38 when the retainer 18 is in the locked position.
    [0030] Still referring to Figs. 3-6, when it is desired to use the cable strand tying device 10 to hold together a plurality of objects, the main unit 12 is moved to a position at or near a plurality of objects, such as a group of wires W , to form a bundle B, located along the base surface 36 of the main unit 12. The end 28 of the second portion 24 of the cable stranding tape 14 is moved to be wrapped around the plurality of objects and passed through the first. opening 40 in main unit 12 and then between lower wall 52 of passage 38 and second end 58 of retainer 18 to extend behind second opening 42. End 28 of second portion 24 of the tape of cable stranding 14 is then spun through the first end 56 of the keeper 18 and passed again through the second opening 42 and under the top wall 50 of the passage 38. The end 28 then extends forward. , through of the first opening 40, where it can be grasped and pulled by the user.
    [0031] When the end 28 of the rope-stringing tape 14 is pulled, any slack is absorbed when the second part 24 of the rope-stringing tape 14 moves through the main unit 12 and around the retainer 18. The geometry The flat, rounded first end 56 of retainer 18 allows the cable stranding tape 14 to slide easily and with minimal friction. When the slack is absorbed, another more proximal length of the rope-stringing tape 14 continues to pass through the passage 38 and eventually the tension in the rope-stringing tape 14 tends to pull it 14 towards the center of the plurality of objects. to be held together and therefore to more effectively engage with the first end 56 of the retainer 18. Eventually, the force placed on the retainer 18 causes the retainer 18 to translate towards the passage 38, until the first end 56 of the retainer 18 coins between the upper and lower walls 50, 52 of passage 38.
    [0032] A person of ordinary skill in the art will note that the force required to translate retainer 18 from the unlocked position will depend on the method used to contain retainer 18 in the unlocked position. For example, if retainer 18 is connected to body 16 with plastic arms, the force must exceed the resistance of the plastic arms in order to shear the arms and allow for relative movement. In another example, if retainer 18 is held in the unlocked position with a friction fit, the force required to translate retainer 18 must exceed the friction force between retainer 18 and body 16.
    [0033] Furthermore, the force placed on the retainer 18 causes the retainer 18 to rotate about its longitudinal axis, so that the second end 58 of the retainer 18 faces generally outwards towards the second opening 42. the rope strand tying device 10 is configured by a method of use where tightening the rope rope tape 14 actuates the retainer 18 from an unlocked, fit, or open position to a locked, closed position. In the locked position, a portion of the cable stranding tape 14, which extends from the main unit 12, is wound back through and retained in the main unit 12 when it is wedged between the first end 56 of the retainer 18 and the upper walls and bottom 50, 52 of passage 38. In addition, the unsymmetrical geometry of the second end 58 of retainer 18, e.g. in geometry 100, increases the friction on the cable stranding tape 14 and thus still impedes movement. .
    [0034] A person of ordinary skill in the art will note that there are many ways to advance retainer 18 from the unlocked to the locked position in order to ensure the desired translation and rotation. In one example, the inner surfaces of passage 38 contain channels, and the outer surfaces of retainer 18 contain pins that fit into the channels. In another example, the friction between the cable-stranding tape 14 and the retainer 18 is sufficient in order to rotate the retainer 18 until the second end 58 of the retainer 18 faces generally outwardly towards the second opening 42, and translates the retainer 18 until it is wedged between the upper and lower walls 50, 52 of passage 38 without using any additional guide system.
    [0035] As noted above, in the illustrated examples, the first part 22 of the cable stranding tape 14 is configured to be retained in a first position within the main unit 12 by self-adhering the tape prior to insertion through an opening in the unit main 12. However, a person of ordinary skill in the art will note that there are many other ways to hold the first part 22 within the main unit 12, including, for example, integrally forming the first part of the cable stranding tape within the retainer, or compressing both the first part 22 and the second part 24 of the cable stranding tape 14 between the retainer 18 and the body 16, etc.
    [0036] When in an installed locked position, the end 28 of the cable-stringing tape 14 can be tucked under the cable-stringing tape 14 which extends around the objects being held together or grouped. Alternatively, to reduce unnecessary bulk and weight, the cable stranding tape 14 can be trimmed in the first opening 40 or it can leave a portion extending a short distance from the first opening 40 of the main unit 12. Due to its structure braided filament, the reduced stiffness and relatively blunt end of a trimmed rope stranding tape 14 helps to reduce the potential abrasion between adjacent wires, wire harnesses, cables, or other objects, such as within bundle systems that are subject to movement or service activities. It will be appreciated by one of ordinary skill in the art that a suitable bonding agent, such as an adhesive or glue, can be used to join and/or treat the cut edge.
    [0037] Having the retainer 18 held in the unlocked position, away from the upper and lower walls 50, 52 of the passage 38, reduces the need for a molded tip (not shown) over the end 28, because the end 28 can easily be interwoven through the main unit 12 and around the retainer 18. Furthermore, although a molded tip (not shown) may be provided, it is not necessary if the end 28 is trimmed to a relatively short length after the retainer 18 has reached a position. locked, because the cable-stranding tape 14 would be secured and compressed within the main unit 12. Instead, once in the locked position, the wedge fit of the first end 56 of the retainer 18 within the passage 38 is adapted to be self-contracted, and the entanglement around the retainer 18 will cause it to drive the cable stranding tape 14 into a more compressed and therefore more securely retained position, if the plurality of objects pulling on the cable stranding tape 14. In addition, the unsymmetrical geometry of the second end 58 of the retainer 18 in the geometry 100 increases the friction on the cable stranding tape 14 and thus prevents movement.
    [0038] A person having ordinary skill in the art will further note that the cable-stranding tape 14 may also include segments (not shown) at pre-selected positions along the length of the cable-stranding tape 14, to facilitate the integrity of the tape get cut. Such positions may be provided to allow removal of unnecessary or undesirable extra length from an installed cable stranding tape 14 . The segments (not shown) can be molded to cable stranding tape 14, or they can be formed with other binding agents. The cable stranding tape 14 may be cut at any point along the portion of the cable stranding tape 14 extending from the main unit 12, which is most distal in at least a portion of such a segment (not shown). Thus, the cable-stringing tape 14 can be cut at a point along its length that is located beyond a segment (not shown) in order to leave a smooth end of the cable-stranding tape 14, but with the guarantee that it cannot reduce beyond the nearest segment (not shown). It will be appreciated that such a rope-stringing tape having segments can be used in any of the examples in this description, and that the rope-stringing tape 14 would also be of fabric or braided construction.
    [0039] It will also be noted by a person of ordinary skill in the art that the first part of the cable stranding tape alternatively cannot be retained initially within the main unit, but only after being passed through a passage of the main unit and after a retainer has been manipulated or moved to a locked position. Also, with respect to any of the exemplary embodiments herein, having a first part of a cable stranding tape held in a main unit in a fixed form before passing the second part of the cable stranding tape through the main unit, it will be understood that such devices may be configured to have the second part of the cable stranding tape extending from the main unit of the same surface through which the second part will be rotated to pass through the main unit, or may extend from other than the surface through which the second part will be rotated to pass through the main unit.
    [0040] It will further be noted by a person of ordinary skill in the art that various modifications can be made to the structures described or required within a cable strand lashing device, whilst still falling within the spirit and scope of the claimed subject matter. For example, when the rope strand tying device is installed, the first part of the rope stranding tape which is retained within the main unit may extend in a first general direction, and the second part of the rope stranding tape which is retained within the main unit. cable may be retained within the main unit and extend in a second general direction, wherein the first and second general directions are substantially parallel or substantially perpendicular.
    [0041] Although certain exemplary methods and apparatus have been described herein, the scope of this patent is not limited to them. Rather, this patent covers all methods, apparatus, and articles of manufacture regularly falling within the scope of the appended claims literally or under the doctrine of equivalents.
    权利要求:
    Claims (7)
    [0001]
    1. Main unit (12) for retaining a cable stranding tape (14), said main unit (12) comprising: a first part comprising a first wall (52) defining a first passage (42) for operatively coupling and retaining a first end (22) of the cable stranding tape (14); a second part for frictionally retaining a second end (24) of the cable-stranding tape (14), the second part comprising: a second wall (50) defining a second passage (40) extending from a first side of the main unit (12) around a movable retainer (18) transversely received within the second passage (40) and exiting through the same first side of the main unit (12), wherein the retainer (18) is movable between an inactivated position, where the second end (24) of the cable-stringing tape (14) is freely movable within the second passage (40) to an activated position, characterized in that, in said activated position, the second end (24) of the cable-stranding tape Cable stranding (14) is immobilized and frictionally retained against the first retained end (22) of the cable stranding tape (14) and the first (52) and second (50) walls by the retainer (18).
    [0002]
    2. Main unit (12) according to claim 1, characterized in that the retainer (18) is movable from the inactivated position towards the activated position by pulling the second end (24) of the stringing tape of cable (14).
    [0003]
    3. Main unit (12) according to claim 1, characterized in that the retainer (18) both translates and rotates when moving from the inactivated position to the activated position.
    [0004]
    4. Main unit (12) according to claim 1, characterized in that the retainer (18) includes a first end (56) having a rounded planar geometry and a second end (58) comprising an angular geometry (100).
    [0005]
    5. Main unit (12) according to claim 4, characterized in that the angular geometry (100) includes at least one of a protrusion or point.
    [0006]
    6. Main unit (12) according to claim 5, characterized in that the second end (24) of the cable stranding tape (14) is frictionally engaged with the bulge or point of the retainer (18), when the retainer (18) is moved to the activated position.
    [0007]
    7. Main unit (12) according to claim 1, characterized in that the retainer (18) is formed integral with the main unit (12), and in that the retainer (18) moves from the inactivated position to the activated position causes a separation of the retainer (18) from the main unit (12).
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    法律状态:
    2019-12-24| B06U| Preliminary requirement: requests with searches performed by other patent offices: procedure suspended [chapter 6.21 patent gazette]|
    2021-06-29| B09A| Decision: intention to grant [chapter 9.1 patent gazette]|
    2021-08-03| B350| Update of information on the portal [chapter 15.35 patent gazette]|
    2021-08-17| B16A| Patent or certificate of addition of invention granted [chapter 16.1 patent gazette]|Free format text: PRAZO DE VALIDADE: 20 (VINTE) ANOS CONTADOS A PARTIR DE 05/03/2015, OBSERVADAS AS CONDICOES LEGAIS. |
    优先权:
    申请号 | 申请日 | 专利标题
    US14/223,685|2014-03-24|
    US14/223,685|US20150267844A1|2014-03-24|2014-03-24|Cable lacing tie devices and methods of using the same|
    PCT/US2015/018921|WO2015148084A1|2014-03-24|2015-03-05|Cable lacing tie devices and methods of using the same|
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