• 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 closure system (1) for articles of daily use comprising a rotary closure arrangement (2), a closure piece (3) and a tensioning element (6). The rotary closure arrangement (2) has a base part (9), a rotatably mounted clamping disk (10) for winding and unwinding a tension element (11) held thereon, and a releasable latching unit (12) for the clamping disk (10). The latching unit (12) has an actuating device (13) with an actuating element (14). The rotary closure arrangement (2) is held detachably on the closure piece (3) by means of a coupling arrangement (16). The actuating element (14) is adjustable in a vertical direction with respect to a rotational axis (20) of the clamping disk (10) into a first and a subsequent second unlocking position. In the first unlocking position locking elements (19, 21) of the latching unit (12) and in the second unlocking position come coupling elements (17, 18) of the coupling arrangement (16) disengaged.
    公开号:AT517344A4
    申请号:T50567/2015
    申请日:2015-06-30
    公开日:2017-01-15
    发明作者:
    申请人:Zipp It Gmbh;
    IPC主号:
    专利说明:

    The invention relates to a closure system for a commodity, in particular clothing, bags, cases, panels, covers, as described in the preamble of claim 1.
    WO 95/03720 A2 describes a generic closure system with a rotary closure arrangement and further refers to the more detailed design thereof, as described in more detail in EP 0 412 290 A2. The closure system further comprises a closure piece and a clamping element. The rotary closure arrangement has a base part, a tensioning disk rotatably mounted on the base part for winding and unwinding at least one tension element held thereon and a releasable detent unit for fixing the tensioning pulley in an up and unwinding position of the tensioning pulley. The latching unit has a manually operable Betätigungsvor-direction with at least one actuating element. The release unit is triggered by an actuating force acting on the actuating element in the axial direction. A decrease in the rotary closure assembly of the commodity is not provided.
    WO 2014/059459 A1 describes a closure system for a commodity, with a zipper, a slide and a zipper handle, in which in the closed position of the zipper, the zipper handle is at least partially passed through a formed on the utility object Oder arranged closure piece. The slider is kept positioned in this closed position on the commodity. Furthermore, at least one plate is arranged in the closed position of the zipper in the region of the closure piece. The plate is as an application element, in particular as a decorative item, art ornament, motif, stone, clothing accessory, trained and attached to the side abgevrom the slider, that is on the outside of the utensil, is attached to the closure piece. The closure piece is formed by a hollow profiled ausgebil Deten base part.
    DE 195 43 758 C1 discloses a trouser button with a mechanism incorporated in the housing for closing a zipper. The knob housing has a spiral spring. This coil spring is connected to a coil. A cord is wound over the spool, which emerges from the button housing through an opening at the bottom. At the bottom of the coil are in the winding direction of the string acting barbs, which engage in a connected to the Knopfge-housing perforated disc. The perforated disc is displaceable by pressing together the entire button to the rear. At the emerging from the button cord a hook for attaching the zipper guide is attached. When the zipper is opened, the cord unwinds from the spool and thereby tensions the coil spring. The barbs, however, the pulling force can not act on the zipper guide. By pressing the button together, the perforated disc moves backwards. The coil now rotates in the winding direction by the tensile force of the spiral spring, whereby the zipper closes. At the back of the button a Ge-winch for fastening the button is embedded.
    The present invention has for its object to provide a compact Ver-circuit system with a rotary closure arrangement, which Ver-circuit system allows a more universal use with simple and safe operation.
    This object of the invention can be achieved in that the rotary closure assembly is held by a coupling assembly removably on the closure piece, and the coupling assembly comprises at least a first coupling element and at least one cooperating with the first coupling element second coupling element, wherein the first coupling element on the closure arranged or formed, and that the at least one actuating element of the actuating device in a vertical direction with respect to a rotation axis of the clamping plate is adjustable, wherein on the at least one actuating element both the second coupling element of the coupling arrangement and a first latching element of the latching unit is arranged or formed, and that the at least one actuating element by means of an adjusting force acting thereon, starting from its unactuated initial position after a first adjustment in a first unlocking position and after a nachf In the first unlocking position, the first latching element of the latching unit is out of snap engagement with at least one second latching element arranged on the clamping disk, and the second unlocking position is the at least second latching element in the second unlocking position Coupling element of the coupling arrangement is brought out of engagement with the at least first coupling element on Ver-closing piece.
    The advantage achieved thereby is that so by means of at least one actuator and its relative possible adjustment in two different unlocking positions, the latching of the clamping disk can be achieved when the first unlocking position is reached. This ensures that the wound on the tensioning pulley tension element can unwind so far that the preload built first loosens or is canceled at all. It comes only to an enlargement of the closed circumferential length of the closure system and still no separation of the same. Thus, e.g. in a sitting position, such as when driving, eating or the like. A Weitenver-position be performed. Should the sitting posture be terminated, the user of the closure system only needs to shorten the effective length of the tension element accordingly by rotating the tension pulley and the associated winding thereof, whereby the entire closure system is tensioned again.
    If the closure system is e.g. used in conjunction with a pair of trousers or a skirt, and the waistband should be opened so wide that the garment piece is changed or for taking a sitting posture on a toilet from
    Area of the hip to be removed in the direction of the legs, the at least one actuator is first in the first unlocking position to reduce the pre-tension of the tension member and in addition to spend even more in the second unlocked position. In this second unlocking position then the coupling connection between the rotary closure assembly and the Ver-closing piece can be solved. If the removal of the rotary closure assembly from the closure piece, the collar and possibly the zipper or the button assembly can be opened. Then, the user can spend the garment from the area of the hip to the legs. Since one end of the tension element is still held in an end region of the tensioning element, the uncoupled rotational closure arrangement via the tension element also remains in operative connection with the tensioning element and does not need to be stowed or stored separately. For the reverse process of putting on the garment, this is first to spend with the waistband in the area of the hip. Then the zipper or the button assembly and possibly the federal government to close. Subsequently, the rotary closure assembly is to be coupled with the Ver-circuit piece by means of the coupling arrangement. Once this is done, the clamping disc can be rotated, which is shortened by the winding, the effective length of the tension element and the desired width adjustment can be adjusted in the waistband.
    Furthermore, it may be advantageous if, when the actuating element is in the first unlocking position, the at least first and the at least second coupling elements are still in coupling engagement with each other. The two unlocking positions can thus be realized by means of a single actuating element for actuating the rotary closure arrangement. Since only the latching device with the cooperating first and second latching elements is unlocked after the processing into the first unlocking position, the clamping disk can thus be rotated or adjusted relative to the base part. In this way, the preload of the entire closure system can be reduced or even dismantled. Furthermore, in the first unlocked position, the rotary closure arrangement still remains coupled to the closure piece.
    Another embodiment is characterized in that the at least one actuating element is guided, in particular rectilinear, in an adjustment plane aligned in the vertical direction with respect to the axis of rotation. As a result, a space-saving and low in the direction of the rotation axis height of the rotary closure arrangement can be realized. Another advantage is that thereby the risk of unintentional release of the catch unit or latching device can be avoided rather than otherwise anson-th in a triggerable in the axial direction latching the case ware.
    Another alternative embodiment is characterized in that the arranged on at least one actuator Or trained first Ras-telement on that side of the tensioning pulley facing side and the second Kop- pelelement the coupling assembly is disposed on that side of the tensioning disk averted th page. By arranging the latching element and the coupling element opposite one another, a clear separation between the two adjustment processes can be ensured between the two unlocking positions.
    Another possible embodiment has the features that the base part is cap-pen-shaped and has a hollow cylindrical cap wall and a clamping plate facing the top wall. This can be created on the base part for the clamping disk and the actuator each independent support or storage. In addition, as well as a high guiding and holding accuracy can be achieved.
    A further embodiment provides that on the top wall of the base part in the area of the rotation axis, a bearing element projecting in the direction of the tensioning disk is arranged or formed, and on which bearing element the tensioning disk is rotatably mounted. Thus, an additional central La-gerstelle be created so as to avoid mutual tilting during the adjustment or clamping operation.
    A further preferred embodiment is characterized in that in the top wall of the base part at least one opening is formed and the first latching element of the latching unit protrudes through the opening and projects beyond the top wall in the direction of the clamping disk. This creates the possibility, on the one hand, of being able to properly guide the actuating elements in the base part for their transverse adjustment and, on the other hand, of being able nevertheless to create an engagement of the locking elements which are in mesh with one another.
    Furthermore, it may be advantageous if the at least one opening forms a longitudinal guide for the first latching element. As a result, not only an even better longitudinal guide but also a lateral support of the breakthrough projecting, first locking elements can be created.
    Another embodiment is characterized in that the at least one actuating element is adjustable at least along its first adjustment against a restoring force built up by a spring element and is returned to its unactuated starting position after the removal of the adjusting of the restoring force of the spring element. This always ensures that the clamping disk can be kept in a locked position relative to the base part positioned. In addition, however, an unintentional decrease or release of the rotary closure arrangement is prevented by the closure piece.
    Another possible embodiment has the features that the first locking element is cylindrical. This has the advantage that such a Verkan-th during the transverse adjustment or radial adjustment of the first locking elements can be prevented.
    A further embodiment provides that the actuating device comprises two mutually adjustable actuators, and on each of the actuating elements, an actuator is arranged, wherein the actuators are arranged approximately diametrically opposite each other. The multiple arrangement of the actuators so even safer and easier operation of the rotary closure assembly can be created.
    Another embodiment is characterized in that the latching unit has a plurality of circumferentially successively arranged second latching elements, which second latching elements form a latching toothing, which latching toothing is in the region of the axis of rotation of the clamping disk. As a result, a plurality of distributed over the circumference arranged Raststel-lungs be created.
    A further preferred embodiment is characterized in that the rotary closure arrangement has at least one application element on its side facing away from the base part. By arranging or providing the appli cation element on the rotary closure arrangement, this can be customized to the user and visually and creatively adapted to the appearance of the garments.
    Furthermore, it may be advantageous if a support element is arranged between the application element and the clamping disk. This allows an even higher Va-riationsmöglichkeit be created for each user. In addition, however, an additional contactor for the application element can be created in this way.
    Another embodiment is characterized in that the at least one application element or the support element is preferably fixedly held on the base part. This prevents unintentional adjustment of the clamping disk and, moreover, always maintains a constant orientation of the applicator element.
    Another possible embodiment has the features that the closure piece has a fastening arrangement for attachment to the commodity and a hollow cylindrical connector formed. By providing the hollow cylinder-shaped connecting piece, a correspondingly formed zipper grip of the slide can be created for the positionally fixed retention in the closed position of the zipper on the closure piece.
    A further embodiment provides that the clamping element has at its first end region a coupling element fastened thereto, with which coupling element the first end of the tension element is in particular detachably connected. As a result, a circumferentially continuous closure system can be created, wherein additionally a simple coupling possibility between the tension element and the tension element can be created.
    Another alternative embodiment is characterized in that the clamping element is strip-shaped or belt-shaped and is held at its second end region on the closure piece. As a result, a simple fastening possibility of the circulating clamping element in the region of its second end region in the region of the rotary closure arrangement can be created.
    A further preferred embodiment is characterized in that in the section of its second end region, the tensioning element has a plurality of openings arranged one behind the other in the longitudinal extent thereof and arranged at a distance from one another, and the closure piece is accommodated in one of the openings. By providing the openings arranged one behind the other, it is thus easy to make a rough width adjustment and pre-adjustment by the user.
    Furthermore, it may be advantageous if the closure system includes a zipper with a slider and a zipper handle connected to the slider. As a result, an even higher combination possibility with a wide variety of everyday objects, in particular items of clothing, can be created.
    Finally, another embodiment may be characterized in that the zipper handle is at least partially received in the hollow cylindrical connector. Thus, in the closed state of the zipper unintentional opening of the same can be safely prevented. Damber addition but as a cost-effective design of the slider itself can be achieved, as can be dispensed with in the slide arranged Sperrmecha-nisms.
    For a better understanding of the invention, this will be explained in more detail with reference to the following figures.
    In each case, in a highly simplified, schematic representation:
    Figure 1 is a arranged on a piece of clothing closure system, in front view.
    2 shows the rotary closure arrangement of the closure system according to FIG. 1, in a perspective view and in axial section;
    3 shows a part of the closure system with its rotary closure arrangement, the closure piece and the slide of a zipper, in a perspective exploded view of the side facing away from the utility object;
    Fig. 4 shows the part of the closure system according to Fig. 3, in a perspective exploded view in the direction of the front view.
    By way of introduction, it should be noted that in the embodiments described differently, identical parts are provided with the same reference numerals or the same component designations, wherein the disclosures contained in the full description can be analogously applied to identical parts with the same reference numerals or identical component designations. Also, the location information chosen in the description, such as top, bottom, side, etc. related to the immediately described and illustrated figure and these position information in a change in position mutatis mutandis to transfer to the new location.
    In Figs. 1 to 4, a closure system 1 for a commodity, especially clothing, bags, cases, panels, covers, etc. is shown. The cover may e.g. be used as a boat cover, this form of cover is referred to as a cover. The garment may be formed, for example, by a pair of pants, a skirt or the like. Usually such garments are provided in the region of the waistband for donning and doffing with an incision, which in turn can be closed by a person, for example, with a zipper, several buttons or the like for carrying.
    The closure system 1 comprises in the present exemplary embodiment a rotary closure arrangement 2, which in turn is held on a closure piece 3. The closure piece 3 can in turn be arranged on or attached to the article of daily use or it can be fastened thereto. The closure piece 3 can, as best seen in FIGS. 3 and 4, have a fastening arrangement 4 for attachment to the object of use. The fastening arrangement 4 could be e.g. be formed by interconnectable parts of a rivet connection. Furthermore, it is possible that the closure piece 3 also has a hollow cylindrical connector 5 whose function will be described in more detail below.
    Furthermore, the closure system 1 can also comprise a tensioning element 6 with a first end region 7 and a second end region 8 arranged at a distance from it in the longitudinal extent of the tensioning element 6. The tensioning element 6 may for example be band-shaped, belt-shaped or rope-shaped. Usually, the tensioning element 6 is also referred to as a belt, tensioning cable or the like.
    The rotary closure arrangement 2 in turn comprises a plurality of component components, wherein the most essential of a synopsis of Figs. 3 and 4 can be seen. For example, the rotary closure arrangement 2 can comprise a base part 9, a tensioning disk 10 rotatably mounted on the base part 9 and at least one tensioning element 11 held on the tensioning disk 10. The clamping disk 10 may also be referred to as a pulley. The tension element 11 can be wound up or unwound on the tensioning disk 10 to change its effective length by turning the tensioning disk 10. In most cases, the tension element 11 is formed cord-shaped or wire-shaped and can itself be formed from the most diverse materials or combinations of materials.
    Furthermore, a releasable latching unit 12 is also provided, which serves for fixing the clamping disk 10 in a made up and Abwickel- position of the clamping plate 10. The latching unit 12 may further comprise an actuating device 13 with at least one actuating element 14.
    As can be seen again from FIG. 1, a first end 15 of the tension element 11 can be held on the first end region 7 of the tensioning element 6 for circumferentially closing the closure system 1 and the subsequent tensioning operation. An unspecified and illustrated second end of the tension element 11 is optionally releasably held on the tensioning disc 10.
    The rotary closure arrangement 2 is held detachably on the closure piece 3 in this embodiment shown here by means of a coupling arrangement 16. For this purpose, the coupling arrangement 16 has at least one first coupling element 17, which is arranged or formed on the closure piece 3. At least one further, second coupling element 18 is provided for cooperation with at least one first coupling element 17. The second coupling element 18 of the coupling arrangement 16 is arranged on the at least one actuating element 14 of the actuating device 13 in the present exemplary embodiment. The first coupling element 17 may be formed, for example, by a disk-shaped body which has sections running parallel to one another on diametrically opposite sides. The first or the first coupling elements 17 may then be formed, for example, as a circular-shaped circular sections. But there would be other forms of space of the Oder or the coupling elements 17, 18 conceivable. The at least one first coupling element 17 is arranged or formed on the closure piece 3 on the side facing the rotary closure arrangement 2.
    The second or the second coupling elements 18 of the coupling arrangement 16 may, for example, be hook-shaped and overlap or engage behind in the engaged position the or the first coupling elements 17 in the radial direction.
    The latching unit 12 of the rotary closure arrangement 2, which can usually be triggered manually by a user, may comprise, for example, a first latching element 19, which in the present exemplary embodiment is also arranged or formed on the at least one actuating element 14 of the actuating device 13. Thus, both the second coupling element 18 and the first latching element 19 are arranged or formed on the at least one first actuating element 14.
    Furthermore, it is provided here that the at least one actuating element 14 of the actuating device 13 is preferably adjustable in a mostly vertical direction or a radial direction with respect to a rotation axis 20 of the tensioning disc. The transverse adjustment of the at least one Betätigungsele element 14 with respect to the axis of rotation 20 may for example be rectilinear or curved in a respect to the axis of rotation 20 aligned perpendicular thereto level or adjustment plane.
    The latching unit 12 described above may in turn have a plurality of second latching elements 21 arranged one behind the other in the circumferential direction, the second latching elements 21 forming a latching toothing in a known manner. The second locking elements 21 and the locking teeth formed by these are arranged or formed in the region of the axis of rotation 20 on the clamping disk 10 on the base part 9 or the at least one actuating element 14 facing side thereto. The first detent element 19, which cooperates with the second detent element 21 or each second, can, for example, be cylindrical in shape of a bolt.
    The at least one actuating element 14 may, as has already been described above, in an adjustment movement oriented perpendicularly or radially with respect to the axis of rotation 20 in an adjustment plane oriented perpendicular to the axis of rotation 20 by means of an adjusting force acting on the actuating element 14, starting from its unactuated initial position after passing a first adjustment path spent in a first unlocking the who. When the first unlocking position is reached, the first latching element 19 of the latching unit 12 comes out of engagement with at least one of the second, arranged on the clamping plate 10 Or second locking elements 21. By unlocking the detent position of the latch unit 12, the effective length of the tension element 11, for example further unwinding of the tension pulley 10, be enlarged or extended.
    If the at least one actuating element 14 is displaced or displaced into a second unlocking position via a further second displacement path in the same adjustment direction, the at least second coupling element 18 of the coupling arrangement 16 comes out of engagement with the at least one first coupling element 17 of the closure piece 3.1st the coupling assembly 16 with its coupling elements 17,18 disengaged, the entire Drehverschlussanord-tion 2 can be removed from the closure piece 3. If the at least one actuating element 14 is still in the first unlocking position, the at least first and the at least second coupling element 17, 18 still engage in a coupling engagement, whereby no removal of the rotary closure arrangement 2 from the closure piece 3 is possible, but only one Width adjustment of the closure system can be performed.
    The base part 9 is cap-shaped in the present embodiment and has an approximately hollow cylinder-shaped cap wall 22 and a clamping plate 10 facing the top wall 23 or is formed by the aforementioned components. Furthermore, additional guide webs 24 may be arranged or formed within the cap wall 22 on the top wall 23. For example, the at least one actuating element 14 may be guided on the base or the guide webs 24 in a plane aligned in a vertical direction with respect to the axis of rotation 20. This guide can in particular be oriented in a straight line. To create a certain anti-rotation lock of the rotary closure assembly 2 with its base part 9 on Ver-circuit piece 3, in particular its first coupling element 17, the disk-shaped body previously described with the seitli-chen sections on the Oder or the guide webs 24 gese in the circumferential direction - be supported by it. If the closure piece 3 is also non-rotatably mounted on the object of use, in particular the item of clothing, a rotationally fixed mounting of the rotary closure arrangement can be achieved via this form-fitting design of the coupling elements 17 in cooperation with the guide ribs.
    Furthermore, it can still be seen from a synopsis of FIGS. 3 and 4 that the at least one actuating element 14 arranged or formed first locking element 19 is disposed on that side, which is the clamping plate 10 is turned to. The second coupling element 18 of the coupling arrangement 16 is arranged on the at least one actuating element 14 on that side, which averted from the clamping plate 10 and thus the closure piece 3 is zuge- used. The at least one actuating element 14 is, as already described above, received guided in the base part 9 and arranged on that side of the top wall 23, which is averted from the clamping plate 10. To accommodate the at least one actuating element 14 corresponding recesses, openings or slots are provided in the circumferential cap wall 22.
    For mounting the clamping disk 10 on the base part 9 is still provided that arranged on the top wall 23 of the base part 9 in the region of the axis of rotation 20 in the direction of the clamping disk 10 protruding trained bearing element 25 or is formed. The bearing element 25 may be formed either as a journal or as a hollow cylindrical trained approach. For storage of the clamping disk 10 on the bearing element 25, a corresponding La gerbohrung 26 is provided in this. Thus, the clamping disk 10 can be rotatably mounted on the base part 9.
    Furthermore, at least one opening 27 may be formed or arranged in the top wall 23 of the base part 9. The at least one opening 27 is to be arranged such that the first latching element 19 of the latching unit 12 can penetrate through the opening 27 and further surmounted the top wall 23 in the direction of the clamping plate 10 so far that in the assembled state engagement of the first latching element 19 with the at least one second locking element 21 on the clamping plate 10 is possible. Thus, the at least one first latching element 19 protrudes beyond the top wall 23 in the axial direction. The at least one breakthrough 27 can also be designed so that it forms an additional longitudinal guide for the first locking element 19.
    To keep the at least one actuating element 14 in its unactuated initial position and, moreover, to adjust it back into the unactuated initial position after it has been adjusted along an adjustment path described above, an Fe element 28 is assigned to the at least one actuating element 14. The spring element 28 is shown schematically in Fig. 2 which is e.g. may be formed as a compression spring or the like.
    If the at least one actuating element 14 is adjusted along its first adjustment path, this takes place according to the arrow in the direction of the rotational axis 20 against the restoring force built up by the at least one spring element 28. After removing the adjusting force applied to the at least one actuating element 14, the at least one actuating element 14 is automatically reset to its unactuated initial position by the restoring force built up by the spring element 28. Thus, an automatic re-locking of the clamping plate 10 by means of the locking elements 19, 21, which in turn are brought into latching engagement, takes place.
    The arrangement of the at least one spring element 28 may be e.g. take place between the outside of the cap wall 22 and an actuating member 29 of the Actuate supply element 14. However, it would also be possible, as indicated in dashed lines, to arrange the at least one spring element 28 within the cap wall 22 and to support it on the second coupling element 18.
    Thus, it would be possible, instead of the pressure spring indicated here, to use a circumferentially formed pressure ring made of an elastically deformable, automatically rearrangeable material.
    Advantageously, the actuating device 13 comprises two actuating elements 14, which are arranged so as to be adjustable relative to one another, wherein a separate actuating element 29 is arranged or formed on each of the actuating elements 14. The arranged and formed on the actuators 14 actuators 29 are preferably arranged such that they are approximately diametrically opposite each other. Thus, a simple succession-Zubewegung the two actuators 29 for the opposite adjustment of the actuators 14 to each other. This can be done for example by a simple joint movement between the thumb and forefinger.
    Due to the selected arrangement of the first locking elements 19 and the second coupling elements 18 respectively on the side opposite the respective actuators 29 side with respect to the axis of rotation 20, 14 of the radial distance between the axis of rotation 20 and the first locking elements 19 and the second coupling elements 18 increases. But it would also be conceivable to an opposite adjustment mechanism.
    For axial retention of the clamping plate 10 on the base part 9 may serve a non-descript holder. In the region of the tensioning disk 10, a plurality of circumferentially disposed first mounting elements 37 are provided on the side facing the base part 9, which are preferably integrally connected to the tensioning disk 10 or formed thereon. The first holding elements 37 protrude in the axial direction web-like from the clamping disk 10 on the base part 9 and engage with a radially inwardly projecting latching lug in a groove-shaped recess arranged on the outer circumference, which forms the second holding element 38. This can be seen from a synopsis of FIGS. 2 and 3.
    For the design and / or decoration of the rotary closure arrangement 2, the latter can have at least one application element 30 on its side facing away from the base part 9. The application element 30 can be formed, for example, by a decorative object, an art ornament, a motif, a stone, a clothing accessory or the like. Preferably, the at least one application element 30 can be exchangeably or replaceably held or fastened to the rotary closure arrangement 2, in particular the base part 9. In addition, however, it would still be possible for an additional support element 31 to be arranged between the application element 30 and the tensioning disk 10. The support element 31 can itself also form an application element and additionally serve as a holder or receptacle for the application element 30. In the present exemplary embodiment, the approximately disk-shaped application element 30 has a connection projection 32 in which, for example, a thread or the like is arranged. Thus, a screw connection between the application element 30 and the base part 9 can be provided. Preferably, the at least one application element 30 and / or the support element 31 on the base part 9 is fixed and thus not held rotatably.
    As can be seen again from FIG. 1, the clamping element 6 may have at its first end region 7 a first coupling element 33 held thereon. At this first coupling element 33 or with this first coupling element 33, the first end 15 of the previously described traction element 11, in particular detachably, be connected or coupled. For this purpose, at the first end 15 of the tension element 11, an unspecified denoted second coupling element may be arranged or formed. In the embodiment shown here, the second coupling element is formed by a bolt or a pin. This makes it possible to replace the rotary closure arrangement 2 after decoupling the coupling arrangement 16 and the separation from the clamping element 6 against another rotary closure arrangement 2.
    The clamping element 6 may further be held in the region of its second end region 8 on the closure piece 3. For this purpose, in the section of its second end region 8, the tensioning element 6 can have a plurality of openings 34 arranged one behind the other in the longitudinal extension thereof and spaced apart from one another. For holding and fixing the circumferential width of the clamping element 6, the closure piece 3 is then received in one of the openings 34. By providing a plurality of such openings 34, a coarse width adjustment of the clamping element 6 for the user can take place here.
    As already described above, in order to increase the waistband width, a slit or cut can be provided in the region of the waistband which can be opened or in turn closed with a zipper which is not shown in detail but which is well known. On the representation of the zipper was omitted in the figures.
    However, only one slider 35 of the zipper is shown in FIGS. 3 and 4, wherein this additionally comprises a zipper grip 36 connected to the slider 35, which may also be referred to as a slider handle. The zipper handle 36 may be formed, for example, bolt-shaped or peg-shaped and at least partially received in the hollow cylindrical connector 5 of the closure piece 3. Thus, in addition to the zipper can be prevented from accidental opening, since the zipper handle 36 so can be kept in a fixed position on the closure piece 3.
    To open the waistband and the zipper, first the twist-lock arrangement 2 is to be removed from the closure piece 3, in which case the zipper grip 36 can subsequently be removed from the closure piece 3 and, as a consequence, the zipper can be opened.
    In this embodiment shown here according to FIG. 1, the closure piece 3 is attached to the outer part and thus the overlapping part of the garment which covers the zipper. After closing the zipper then the zipper handle 36 is inserted into the Ver-circuit piece 3 and thus the federal government so far closed. Subsequently, the rotary closure arrangement 2 is to be fastened to the closure piece 3, which takes place via the coupling arrangement 16. The circumferential width of the closure system can be done by the coarse presetting of the clamping element 6. If the first end 15 of the tension element 11 is also already connected to the first end region 7 of the tensioning element 6, the fine adjustment of the width adjustment of the closure system 1 can be carried out by rotating the tensioning disk 10.
    The tensioning element 6 may e.g. arranged outside in the form of a Giirtels on the garment or be worn. Another possibility, which may be independent, would be to receive the tensioning element 6 within the collar and to arrange only at least the first end area 7 for connection to the first end 15 of the tensioning element 11 outside the covenant. The second end region 8 of the tensioning element 6 is to be held in the region of the adjacent waistband section.
    Another way of connecting the waistband of the garment would still be to provide an ordinary zipper arrangement and to have an opening in e.g. that part of the garment covering the zipper on the outside. to provide in the form of a buttonhole, and the closure piece 3 to be attached to the lower part of the collar. In this case, the slider 35 of the zipper can be formed in a conventionally known manner, since the zipper handle 36 can then no longer be brought into connection or coupling engagement with the closure piece 3. Thus, the slider 35 may have its own well-known opening fuse and the zipper handle 36 may be formed as a conventional slider handle in a flat profile shape or rod shape. In this embodiment or embodiment, the closure piece 3 may be formed approximately knob-shaped and have at least a first coupling element 17 in order to carry out the coupling described above with the rotary closure assembly 2 NEN. In this case, the closure piece 3 may comprise the fastening arrangement 4, an adjoining shaft part and, distanced from the fastening arrangement 4, the at least first coupling element 17. The at least one first coupling element 17 can project beyond the shaft part in the radial direction. The remaining arrangement and design of the closure system 1 can be maintained the same and the rotary closure arrangement 2, the clamping element 6 and the closure piece 3 include.
    In a possible and possibly independent training of the rotary closure assembly 2 can still be provided that the Betätigungsvor-device 13, in particular the at least one actuating element 14 itself, is made lockable or is provided with a locking device not shown. This creates the opportunity to protect the rotary closure assembly 2 in its biased position, in particular a winding position of the clamping plate 10, against unauthorized opening of the actuator 13. Thus, the most diverse covers could simply be held biased on the object to be covered not only by means of the closure system 1, but also protected against unauthorized removal or unauthorized removal of the cover.
    The embodiments show a possible embodiment of the closure system 1, wherein it should be noted at this point that the invention is not limited to the specifically illustrated embodiments thereof, but rather also diverse combinations of the individual embodiments are possible with each other and this variation possibility due to the teaching of technical action by objective invention in the skill of working in this technical field expert.
    Furthermore, individual features or combinations of features from the different exemplary embodiments shown and described can also represent separate, inventive or inventive solutions.
    The task underlying the independent inventive solutions can be taken from the description.
    For the sake of order, it should finally be pointed out that, for a better understanding of the construction of the closure system 1, this or its constituent parts have been shown partly unevenly and / or enlarged and / or reduced in size.
    REFERENCE SIGNS LIST 1 locking system 31 support element 2 rotary closure arrangement 32 connection projection 3 closure piece 33 coupling element 4 mounting arrangement 34 opening 5 connector 35 slide 6 clamping element 36 zipper handle 7 first end portion 37 first support member 8 second end portion 38 second support member 9 base member 10 clamping disc 11 tension member 12 locking unit 13 actuator 14 actuator 15 first end 16 coupling arrangement 17 first coupling element 18 second coupling element 19 first locking element 20 rotation axis 21 second locking element 22 cap wall 23 top wall 24 guide web 25 bearing element 26 bearing bore 27 breakthrough 28 spring element 29 actuator 30 application element
    权利要求:
    Claims (20)
    [1]
    claims
    A closure system (1) for an article of daily use, in particular items of clothing, bags, suitcases, coverings, covers, comprising a closure piece (3), which closure piece (3) can be fastened to the article of daily use, a rotary closure arrangement (2), which rotary closure arrangement (2 ) a base part (9), a on the base part (9) rotatably mounted clamping disc (10) for winding and unwinding at least one tension element (11) held thereon, and a releasable latching unit (12) for fixing the clamping plate (10) in a made Up and unwinding of the clamping disc (10), and wherein the latching unit (12) comprises an actuating device (13) with at least one actuating element (14), and a clamping element (6) having a first and second end region (7, 8 ), which both end regions (7, 8) in the longitudinal extension of the clamping element (6) are spaced apart from each other, wherein a first end (15) of the tension element (11) at the first end region (7) of the chip nels (6) is held, characterized in that the rotary closure arrangement (2) by means of a coupling arrangement (16) removably on the closure piece (3) is held, and the coupling arrangement (16) at least a first coupling element (17) and at least one with the first coupling element (17) cooperating two-tes coupling element (18), wherein the first coupling element (17) on Ver-circuit piece (3) arranged or formed, and that the at least one actuating element (14) of the actuating device (13) in a vertical direction with respect to a rotational axis (20) of the clamping disc (10) is adjustable, wherein on the at least one actuating element (14) both the second coupling element (18) of the coupling arrangement (16) and a first latching element (19) of the latching unit (12 ) is arranged or formed, and that the at least one actuating element (14) by means of an adjusting force acting thereon outgoing from its unactuated initial position n After a first adjustment in a first unlocked position and after a subsequent second adjustment in the same Verstel I direction in a second unlocked position is adjustable, wherein in the first unlocked position, the first locking element (19) of the latch unit (12) except latching engagement with at least a second On the clamping disc (10) arranged or formed latching element (21) is, and in the second unlocked position, the at least second coupling element (18) of the coupling arrangement (16) out of engagement with the at least first coupling element (17) on the closure piece (3) is brought.
    [2]
    2. Closure system (1) according to claim 1, characterized in that in the first unlocking position located actuating element (14), the at least first and the at least second coupling element (17,18) are still with each other in coupling engagement.
    [3]
    3. Closure system (1) according to claim 1 or 2, characterized in that the at least one actuating element (14) guided in a direction perpendicular to the axis of rotation (20) aligned adjusting plane on the base part (9) guided, in particular rectilinearly guided.
    [4]
    4. Closure system (1) according to one of the preceding claims, characterized in that the at least one actuating element (14) arranged or formed first latching element (19) on that of the clamping disc (10) facing side and the second coupling element (18) of the coupling arrangement ( 16) is arranged on that side facing away from the clamping disc (10) side.
    [5]
    5. Closure system (1) according to one of the preceding claims, characterized in that the base part (9) is cap-shaped and has a hollow cylindrical cap wall (22) and one of the clamping disc (10) to-turned cover wall (23).
    [6]
    6. Closure system (1) according to claim 5, characterized in that arranged on the top wall (23) of the base part (9) in the region of the axis of rotation (20) in the direction of the clamping disc (10) projecting trained bearing element (25) or formed is, and on which bearing element (25) the tensioning disc (10) is rotatably mounted.
    [7]
    7. Closure system (1) according to claim 5 or 6, characterized marked in that in the top wall (23) of the base part (9) at least one opening (27) is formed and the first latching element (18) of the latching unit (12) Breakthrough (27) extends through and the top wall (23) in the direction of the clamping disc (10) surmounted.
    [8]
    8. Closure system (1) according to claim 7, characterized in that the at least one opening (27) forms a longitudinal guide for the first latching element (18).
    [9]
    9. closure system (1) according to any one of the preceding claims, characterized in that the at least one actuating element (14) at least along its first Verstellwegs against a Federele-element (28) constructed restoring force is adjustable and after the removal of the adjusting force of the restoring force the spring element (28) is returned to its unactuated initial position.
    [10]
    10. Closing system (1) according to one of the preceding claims, characterized in that the actuating device (13) comprises two counter-adjustable actuating elements (14), and on each of the Actu-supply elements (14) an actuating member (29) is arranged, wherein the Actuate supply members (29) are arranged approximately diametrically opposite each other.
    [11]
    11. Closure system (1) according to one of the preceding claims, characterized in that the latching unit (12) has a plurality of circumferentially successively arranged second latching elements (21), which second latching elements (21) form a latching toothing, which latching toothing in the region of the axis of rotation (20) is located on the clamping disc (10).
    [12]
    12. Closure system (1) according to one of the preceding Anspmche, characterized in that the rotary closure arrangement (2) on its side facing away from the base part (9) side at least one application element (30).
    [13]
    13. Closure system (1) according to claim 12, characterized in that between the application element (30) and the clamping disc (10) a Tra-gelement (31) is arranged.
    [14]
    14. Closure system (1) according to claim 12 or 13, characterized in that the at least one application element (30) or the Tragele-element (31) on the base part (9) is preferably held stationary.
    [15]
    15. Closure system (1) according to one of the preceding Anspmche, characterized in that the closure piece (3) has a Befestigungsanord- tion (4) for attachment to the commodity and a hollow cylindrical connector (5).
    [16]
    16. Closure system (1) according to one of the preceding Anspmche, characterized in that the clamping element (6) at its first Endbe-rich (7) has a coupling element attached thereto (33), with which coupling element (33) the first end (15 ) of the tension element (11) is in particular releasably connected.
    [17]
    17. Closure system (1) according to one of the preceding Anspmche, characterized in that the clamping element (6) is band-shaped or belt-shaped and is held at its second end region (8) on the closure piece (3).
    [18]
    18. Closure system (1) according to one of the preceding claims, characterized in that the tensioning element (6) has a plurality of openings (34) arranged one behind the other in the longitudinal extent of the second end region (8) and arranged in one of the openings (8). 34) the closure piece (3) is received.
    [19]
    19. Closure system (1) according to any one of the preceding claims, characterized in that this further comprises a zipper with a slider (35) and with the slider (35) connected zipper handle (36).
    [20]
    20. Closure system (1) according to claim 19, characterized in that the zipper handle (36) is at least partially received in the hollow cylindrical formed from connecting piece (5).
    类似技术:
    公开号 | 公开日 | 专利标题
    DE4237627C2|1998-07-02|Locking device for vehicle occupant restraint
    EP2906061B1|2016-11-23|Closure system for articles
    AT517344B1|2017-01-15|locking system
    EP2088893B1|2011-12-14|Carrying bag
    DE2928994C2|1983-12-29|Vehicle roof with a roof opening that can be closed by a cover
    WO2016138895A1|2016-09-09|Holding device
    EP0912115A1|1999-05-06|Multipurpose, one-piece, variable necktie
    DE2363445C3|1978-06-15|Secateurs
    AT512989B1|2015-11-15|Antitheft device
    DE102005014049B4|2010-11-25|Holding device as well as pocket using the same ones
    DE2405097C2|1975-07-24|Snap hook
    DE102011001269B4|2013-06-06|Adjustment device, in particular length adjustment device
    DE10320593B3|2005-01-05|Snap fastener
    DE3045169A1|1982-06-03|CLOSURE FOR UPPER CLOTHING, ESPECIALLY FOR FUR CLOTHING
    DE102019131913A1|2020-05-28|Sauna and bath towel
    DE4106887C2|2000-06-15|Lock for a zipper of a suitcase or similar container
    DE271145C|
    DE3321693A1|1984-12-20|Hospital furniture with safety belt
    DE2710389C2|1979-05-23|
    DE10334852A1|2005-02-24|Protective glove with push button device
    DE60203977T2|2006-01-19|closure device
    DE322593C|1920-07-03|Push button that can be opened and closed by mutual rotation of the male and female molds
    DE10334903A1|2005-02-24|Protective clothing made from a metal ring mesh comprises a strip-like fixing device, a stiffening device and reinforcing device formed by a wave-like strap interlinked with or connected to the metal ring mesh
    DE2444538C2|1976-07-01|Seat belt retractor
    DE4112611A1|1992-10-22|Stud for clothing fastened by eyelet - has eyelet between stud main part and rigid U=shaped piece attached, with base surface
    同族专利:
    公开号 | 公开日
    WO2017000013A1|2017-01-05|
    ZA201800643B|2019-07-31|
    EP3316716A1|2018-05-09|
    AT517344B1|2017-01-15|
    EP3316716B1|2019-12-11|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    EP0412290A2|1989-08-10|1991-02-13|Egolf, Heinz|Rotating fastener for a sports shoe, particularly a ski boot|
    WO1995003720A2|1993-08-03|1995-02-09|Pds Verschlusstechnik Ag|Turn-lock system|
    WO2010059989A2|2008-11-21|2010-05-27|Boa Technology, Inc.|Reel based lacing system|
    DE102012218344A1|2011-10-13|2013-04-18|Boa Technology, Inc.|Coil-based lacing system|
    WO2014055722A1|2012-10-04|2014-04-10|Intellectual Property Holdings, Llc|Helmet retention system|
    WO2015054722A1|2013-10-14|2015-04-23|Mahe Falekava F|A shoe lace fastening and locking device|
    DE19945045A1|1999-09-20|2001-03-22|Burkhart Unternehmensberatung|Fastening system, e.g. for clothing, comprises housing containing locking system for cord which consists of biased arms with teeth on bottom half of housing which cooperate with toothed ring on upper half|
    EP2237692B1|2008-01-18|2015-01-07|Boa Technology, Inc.|Closure system|
    KR101107372B1|2011-05-30|2012-01-19|소윤서|Apparatus for adjusting length of lace|
    EP3653073A1|2013-07-10|2020-05-20|Boa Technology Inc.|Closure devices including incremental release mechanisms|DE102019217036A1|2019-11-05|2021-05-06|Fidlock Gmbh|Closure device with a rotating element|
    法律状态:
    2021-02-15| MM01| Lapse because of not paying annual fees|Effective date: 20200630 |
    优先权:
    申请号 | 申请日 | 专利标题
    ATA50567/2015A|AT517344B1|2015-06-30|2015-06-30|locking system|ATA50567/2015A| AT517344B1|2015-06-30|2015-06-30|locking system|
    EP16745605.2A| EP3316716B1|2015-06-30|2016-06-30|Closure system|
    PCT/AT2016/050240| WO2017000013A1|2015-06-30|2016-06-30|Closure system|
    ZA2018/00643A| ZA201800643B|2015-06-30|2018-01-30|Closure system|
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