• 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 mounting device (01) for fastening a slackline (02), having two anchoring devices (11l, 11r) with at least one lashing element (21r), which has a lashing strap and a tensioning means, wherein the lashing element (21r) with the first of the two anchoring devices (11l, 11r) and with one end of the slack line (02) can be connected directly or indirectly, wherein the other end of the slack line (02) with the second of the two anchoring devices (11l, 11r) can be connected, wherein by means of Clamping means the slackline (02) or the lashing shortened and thus the slack line (02) can be stretched, and wherein between the anchoring devices (11l, 11r) two support elements (26l, 26r) can be arranged over which the slack line (02) out can be, wherein the anchoring device (11l, 11r) in the bottom (07), in particular a sports hall or a swimming pool, attachable sleeve-shaped anchor element and a in the anchoring element plugged, in particular screwed, fastener comprises, wherein the anchor elements can be covered in dismantled fastener each by means of a cover substantially to the surrounding bottom (07).
    公开号:CH705021B1
    申请号:CH00663/12
    申请日:2012-05-10
    公开日:2017-07-31
    发明作者:Haas Roland
    申请人:Haas Roland;
    IPC主号:
    专利说明:

    Description: The invention relates to a mounting device for fastening a slackline according to the preamble of claim 1.
    Slacklines are known in the art both as a sport as well as sports equipment. Here, the slackline sports equipment as a belt-like structure, which can be found to Balancierübungen use. For this purpose, it is important to tighten the slackline between two anchoring points, so that the slackline can be committed by one person. Consequently, corresponding anchoring points are required on both sides of the slackline. In the prior art, this is usually solved in that one end of the slackline is wound and fastened around a tree or a stable object, wherein on the opposite side a short strap end with a lashing element, usually a ratchet, with another Tree or another object is connected. By means of the ratchet now the slackline can be detected in the manner of a belt and stretched by shortening the slackline.
    In order to achieve the required or advantageous height to the ground, it is known to use below the slackline pads, thus ensuring a flat ground parallel course of the slackline. Furthermore, this ensures that when walking the slackline the attachment points do not slip or a holding the ascending persons at the two ends of the slackline takes place in an inadmissible manner. An example of a prior art mounting device is shown in DE 10 2010 000 038 A1, in which the slackline at one end on the tree or on a rod and at the second end by means of the ratchet on a loop around the tree or to another pole is attached. To support a Unterlegblock is used, which ensures the desired altitude above the ground.
    The problem with such mounting devices, however, is that a corresponding fastening means in the form of a rod or a tree must be present. Although for a fixed installation corresponding rods can be anchored in the ground, so there are still usually no sufficient possibilities to use a slackline in a sports hall, especially in an indoor pool. To take into account here are the particularly high tensile forces on the slackline, which are required to allow walking on with little sag.
    Object of the present invention is therefore to provide a mounting device for the use of slacklines available, so that they can be used in an indoor pool.
    The object is achieved by an embodiment according to the invention according to claim 1.
    Advantageous embodiments are the subject of the dependent claims.
    The generic mounting device comprises two anchoring devices and at least one lashing element. This has at least one lashing strap and a tensioning means. For attachment, the lashing element can be connected to one of the two anchoring devices. Furthermore, the lashing element is connected directly or indirectly with a free end of the slackline. The other end of the slackline in turn can be connected for attachment to the second of the two anchoring devices. In this respect, a connection is created from the first anchoring device to the lashing element, from the lashing element to the slackline and from the slackline to the second anchoring device. By means of the tensioning means of the lashing element, the slackline or the lashing strap can be shortened. This results in the tensioning of the slackline. How the connection between the individual elements takes place is initially irrelevant. In this respect, it is possible, for example, to connect the lashing strap or slackline directly to the anchoring devices or to use stop means for this purpose.
    Furthermore, the generic mounting device on two support elements, which can be arranged between the anchoring devices. About these support elements Slackline can be performed, thus defining the distance to the ground. Here, the support elements are to be arranged such that between them the largest possible free length of the slackline for athletic activity arises.
    According to the invention, the anchoring devices now each comprise a sleeve-shaped anchoring element which can be fastened in the ground, in particular a sports hall or a swimming pool. In the anchor element, a fastener inserted, in particular screwed, are. In this case, the fastening element serves for connection to the lashing element or the slackline. Furthermore, the inventive embodiment comprises that the fastener is disassembled in the case of disuse of the slackline and by means of a cover above the anchor element, the floor can be covered substantially flat to the surrounding area.
    The newly created solution makes it possible to use the slackline as well in a sports hall or indoor pool. By mounting device according to the invention with the permanently installed anchor elements a fastening for the lashing element or slackline is made possible, which can ensure the absorption of high tensile forces occurring. Nevertheless, the entire floor area of the sports hall or swimming pool is unrestricted unrestricted available, as long as the slackline is not used. By covering the anchor element with prior removal of the fastener thus cumbersome structures can be avoided on a sports floor or indoor pool floor.
    At first irrelevant is whether the support element is designed as a one-piece block or multiple parts. When choosing a small height above the ground is a one-piece block of particular advantage, since thus the installation effort is not unnecessarily increased. In the case of greater heights above the ground, in particular at more than 30 cm, it is of particular advantage if the support element is divided more, in particular in two parts. Here, two support element halves are stacked in substantially identical design. Thus, it does not pay attention to the installation, which part is placed below and which is arranged above it. Likewise, at identical heights of the support member halves, an uneven structure on both sides of the pelvis is eliminated. At least the weight of the parts to be moved is reduced in particular by the divided structure of the support element. A separation in a substantially horizontal plane is particularly advantageous in that slackline and the forces and dynamic loads that occur can prevent the support element halves from slipping or sliding past one another.
    It when at least one protective element is arranged below and / or next to the support element is particularly advantageous. The use of a protective element increases the safety of persons using the slackline as a sports device. In the event of a crash from the slackline, there is an increased risk of injury, especially in the beginning and end areas of the support elements. This is reduced by means of the protective elements in addition to the support elements.
    It is particularly advantageous if the protective element is angular, with a first leg rests on the floor next to the edge of the indoor pool, with a second leg on the wall of the pool, the pool edge orbiting, is applied. In particular, in a fall from a slackline in an indoor pool, there is a significant risk of injury when hit on the usually tiled pool edge. A dangerous area is in particular the area surrounding the support element as ascent and descent of the slackline. Consequently, the otherwise significant risk of injury by a fall on the edge of the pool is greatly reduced with the angularly positioned at the edge of the pool protection and thus threaten in an impact on the edge of the pool only mild injuries.
    Advantageous in the use of a protective element, if it has markings, by means of which the positioning of the protective element at the edge of the pool is determinable relative to the anchoring device. Due to the way in which the protective element and the supporting element are assembled by means of a free dividing up, it is of great advantage for the person setting up the mounting device if the protective element can be positioned relative to the anchoring device without major difficulties. Due to the installation of the angle-shaped protective element at the edge of the pool, this merely requires positioning relative to the anchoring device in the direction of the edge of the basin. For example, insofar as a center line or an arrow is applied to the first leg.
    Advantageous in the use of a protective element, it is also when this has markings by means of which the positioning of the support member is determined relative to the protective element. First of all, there is no need for exact positioning for the support element. In this respect, this can also be set up freely. However, after attachment of the slackline further displacement of the support element due to the tension of the slackline and the pressure on the support element is almost impossible. Thus, it is of great advantage if the support element can be positioned within a permissible range before placing the slackline. Accordingly, markings on the protective element for positioning the support element are of great advantage.
    To use the mounting device in an indoor pool, it is particularly advantageous if the protective element and / or the support element are made of a chlorwasserbeständigen, rubbery material. Thus, a long-term unrestricted usability of the mounting device is ensured in an indoor pool. Furthermore, the rubbery material is advantageous in that it is a sufficiently stable material and yet provides the necessary fall protection. It is particularly advantageous for cost reasons, if a rubber recycling granules is used.
    To generate the necessary tension on the slackline, it is particularly advantageous if a ratchet is used as a tensioning means of the lashing element. In this respect, the slackline can be directly grasped and shortened in a simple manner by means of the ratchet both in one embodiment variant, and, in an alternative embodiment, a lashing strap of the lashing element can be grasped and shortened.
    An advantageous for the stresses occurring installation situation for the anchoring device is given when the anchor element has a cast in the indoor pool floor or glued screw. As a result of the firm connection of the screw sleeve in the indoor swimming pool floor, high loads can thus be introduced from the fastening element via the anchor element into the indoor swimming pool floor, without loosening or breaking out. Installation depths in the concrete floor of approximately 20 cm or more have proved to be expedient. Here, the screw should have a corresponding minimum thread in order to survive the high tensile forces in the barrel area for many years without damage.
    If there is another room in the anchoring device below the indoor pool floor, the secure attachment of the anchoring device in the indoor pool floor by using a Hallenbadbo the sweeping screw is generated, which is connected at the bottom with a plate element, which in turn to the ceiling of the room located under the hall floor.
    It is particularly advantageous if an eyebolt is used with a rotating screw ring in the anchoring device as a fastener. In this respect, the eyebolt can be firmly screwed into the screw, which ensures that the necessary screwing is given. Furthermore, in a fixed screwing the transverse load on the screw when clamping the slackline is not increased in addition to a loose screwed. The rotatable screw ring here ensures that when attaching the slackline or the lashing the alignment is done automatically in the direction of the corresponding slackline and thus no forces releasing the screw or unacceptable cross loads can occur in the screw ring.
    Furthermore, it is advantageous if the cover has a resting on the floor cover plate and a plug-in and / or screw-in closure element in the anchor element. Thus, on the one hand, the mounting space above the anchor element in the indoor swimming pool floor is reliably covered and, on the other hand, penetration of dirt or water into the anchor element is prevented or at least reduced. In addition, the plug-in or screw-fastener can be used to fix the cover on the floor use. In this case, it is not necessary for the cover element to be fastened with a corresponding assembly tool, although the anchor element is, for example, a threaded sleeve with a larger thread. Rather, it is sufficient if the cover is fixed in such a way that the cover does not slip when walking on the floor.
    It is particularly advantageous if at least one abrasion protection is used. Here, the abrasion protection in the manner of a hose section or stocking is executed. The slackline can be guided by the abrasion protection, whereby the friction in the abrasion protection between this and the slackline should be as low as possible. At least the friction must be significantly lower than the coefficient of friction between the abrasion protection on the outside and the support element on which the abrasion protection rests. This ensures that when using the slackline and its associated dynamic elongation and movement over the support element no abrasion takes place on the support element. In this case, the abrasion protection is to be guided at least over the length of the support element which is overstretched by the slackline. It is particularly advantageous if the abrasion protection is used accordingly on both sides.
    Another advantage of using the tubular abrasion protection is that a person standing on the support element and the slackline does not experience a risk of injury due to the dynamic, albeit slight, movement or elongation of the slackline. In particular, otherwise skin crushing and / or skin abrasions when entering with bare feet can not be excluded.
    To increase safety, it is particularly advantageous if at least one securing device is used. In this case, the securing device in turn on a belt or a rope, the first end of the lashing or the slackline and the second end can be connected to an indoor pool device. The securing device prevents free movement of the lashing element or fitting parts for the very unlikely event of failure of the anchoring device or a connection between the lashing element and the anchoring device. In this case, therefore, the slackline can only yield to a certain extent and is then captured by the securing device.
    In the following figures, various embodiments of an inventive mounting device are outlined by way of example.
    In the drawings:
    1 is a plan view of a mounting device 01 for use in an indoor pool:
    FIG. 2 shows a side view of the mounting device 01 from FIG. 1 in an indoor pool; FIG.
    3 shows a mounting device with alternative anchoring device for use in an indoor swimming pool:
    4 shows the protective element 27 for the embodiment according to FIG. 1;
    5 shows an exemplary embodiment of a cover 16.
    Fig. 1 outlines a plan view of a swimming pool 05 of an indoor pool with strained slackline 02. As can be seen, the slackline 02 extends transversely from one edge of the pool 06I to the other pool edge 06r. According to the presence of two ends of a slackline 02 and the associated embodiment on both sides of the slackline 02, in the figures "I" is used for the left side and "r" for the right side. Here, a protective element 27 is positioned in each case on the two pool edges 06. In each case, the support elements 26I and 26R, above which the slackline 02 extends, are located on this support. As protection against abrasion due to the sustained dynamic movement of the slackline 02, it is guided in each case in the support elements 26 in an abrasion protection 30. Here, the abrasion protection 30 is designed as a loose stocking-like element through which the slackline 02 is pulled. Their properties are chosen so that the slackline 02 can move in the interior of the abrasion protection 30 under the least possible friction, while the abrasion protection 30 can rest on the support elements 26 largely without slipping.
    Furthermore, it can be seen that the slackline 02 is mounted on the left side directly to the anchoring device 111. On the right side is between the slackline 02 and the anchoring device 11 r lashing 21 r, by means of which the slackline 02 can be stretched.
    Fig. 2 shows the arrangement of Fig. 1 in cross section. First, the swimming pool 05 with the protective elements on the pool edges 06I and 06R protection elements 27. These have an angular structure, with a first leg 28 of the protective element rests on the bottom of the basin 07, while the second leg 29 perpendicular to the Pool wall is present. Thus, an optimal fall protection is ensured, so that people who use the slackline, fall in a fall from the slackline not on the hard pelvic floor 07 and the pool edge 06, but only on the much softer material of the protective element 27. On the protective elements 27th positioned are the support members 26, which determine the fleas of the slackline 02 above the water of the swimming pool 05. In this case, they are merely positioned freely on the protective devices 27.
    It is obvious that it would also be possible to make the support member 26 and the protective element 27 in one piece. However, due to the weight of the elements, the flexible attachment and removal of the equipment would be considerably more difficult. It is therefore of particular advantage to carry out the support element and the protective element separately.
    Above the support member 26 is the abrasion protection 30, in which the slackline 02 extends. Evident is the attachment of the slackline 02 on the left side by means of a stop means 24I on the left fastening element 13. Located on the right side is the lashing element 21 r, which has a lashing 22r and a ratchet 23r in this embodiment. By means of the ratchet 23r, the slackline 02 can be detected and tensioned. The lashing strap 22r is also connected to the fastener 13r by a stopper 24r. The fastening element 13 here is a rotatable eyebolt, which is screwed in each case in a threaded sleeve 12r as anchor element. The anchor element 12 is located slightly below the surface of the bottom of the Flallenbads 07 and has for attachment of the fastener 13 has a cylindrical mounting opening 15.
    2 shows an alternative embodiment of an anchoring device 36. In contrast to the previous embodiment of the anchoring device 11, the anchoring device 36 consists of a screw sleeve 37 which completely penetrates the bottom of the flat bath 07 up to one below the indoor swimming pool lying room. Here, a plate member 38 is attached to the ceiling 09 of the underlying space, which in turn is fixedly connected to the screw sleeve 37. Here, the forces are transmitted from the fastener 13 via the screw sleeve 37 to the plate member 38 and it is supported on the ceiling 09 of the below the indoor pool floor 07 space.
    To illustrate is initially a parallel mark 31 as a boundary line for the support element 26. This runs parallel offset slightly to the vertical leg 29. Since in support of the support member 26 and the Stretching the slackline 02 the downwardly acting forces in the support member 26 after the pool edge 06 no longer learn support, the support member 26 should not be placed further than the pool edge 06. As a further marking 32 is an exemplary arrow for aligning the protective element relative to the anchoring device 11, 36. A marked field 33 represents the footprint for the support member 26, wherein this is reduced relative to the support member 26 that at a complete coverage of the marker 33rd an allowable mounting position for the support member 26 is given. Alternatively or additionally, it would be conceivable to use lateral markings 34 in order to ensure the central positioning of the support element 26 relative to the anchoring device 11, 36 and thus to support the slackline 02.
    In Fig. 5, the anchoring device, but without fastener, now outlined with the cover 16. Evident is the arrangement of the screw sleeve 12 as anchor element, as in the concrete floor 08 einbetoniertes element. Likewise, it is possible for the subsequent attachment of appropriate anchoring devices, this also einzubetonieren or glue. It should be noted here only the necessary installation depth, so that the forces do not lead to damage or tearing. Above the anchor element 08, a mounting opening 15 is provided as a circular cylinder, in which the fastening element in the form of the rotatable ring screw can be used. The depth of the mounting opening depends on the one after the execution of the cover 16 and on the other according to the installation situation of the threaded sleeve 12 with respect to the fixed connection in the concrete floor 08th
    The cover 16 can be designed in many ways. For example, a stepped cylinder would be sufficient for a flat bottom here. However, it is advantageous if the anchor element 12 is at least largely closed by means of a closure element 18. In this respect, it is prevented when the covering element 16 rests that dirt or water penetrates into the screw sleeve 12 to an impermissible extent. Furthermore, it is expedient if by means of the encryption element 18 at the same time a certain fixation of a cover plate 17 of the cover 16 takes place. Thus, the position of the cover plate 17 can be ensured on the floor 07, without an inadmissible slipping or shifting takes place.
    List of Reference Numerals 01 Assembly Device 02 Slackline 05 Swimming pool 06 Pool edge 07 Floor of the indoor pool 08 Concrete floor 09 Ceiling below the floor II r Right anchoring device III Left anchoring device 12r Right (s) anchor element / screw sleeve 121 Left anchor element / screw sleeve 13 Fastening element / rotatable Eyebolt 15 Mounting hole 16 Covering element 17 Covering plate 18 Locking element 21 Lashing element 22 Lashing strap 23 Tensioning means / Ratchet 24I Slackline slings 24r Slings on lashing strap 26 Supporting element 27 Protective element 28 Lying leg of protective element 29 Lug of protective element 30 Abrasion protection 31 Marking line for support element 32 Marking for alignment for anchoring 33 Marking for positioning Supporting element 34 Marking for positioning Supporting element
    权利要求:
    Claims (12)
    [1]
    36r Right anchoring device 361 Left anchoring device 37r Right (s) anchor element / counter plate 371 Left anchor element / counter plate 38 Plate element Claims
    An assembly device (01) for attaching a slackline (02), comprising two anchoring devices (11 r, 36r, 111, 361) and at least one lashing element (21) having a lashing strap (22) and a tensioning means (23), wherein the Lashing element (21) with the first of the two anchoring devices (111, 361) and with one end of the slack line (02) can be connected directly or indirectly, wherein the other end of the slack line (02) with the second of the two anchoring devices (11 r, 36r) can be connected, wherein by means of the tensioning means (23) the slackline (02) or the lashing strap (22) shortened and thus the slackline (02) can be stretched, and wherein between the anchoring devices (11 r, 36r, 111, 361 ) two support elements (26r, 261) can be arranged, via which the slackline (02) can be guided, characterized in that the anchoring devices (11 r, 36r, 111, 361) one in the bottom (07), in particular a sports hall or a swimming ades, fastenable sleeve-shaped anchor element (12r, 37r, 121, 371) and in the anchor element (12r, 37r, 121, 371) insertable, in particular screwed fastener (13), wherein the anchor elements (12r, 37r, 121, 371 ) can be covered with a dismounted fastening element (13) in each case by means of a cover (16) substantially planar to the surrounding floor (07).
    [2]
    2. Mounting device (01) according to claim 1, characterized by at least one protective element (27) which can be arranged in each case below and / or next to the respective support element (26).
    [3]
    3. Mounting device (01) according to claim 2, characterized in that the protective element (27) is angularly formed such that it can rest with its first leg (28) on the basin (05) of the swimming pool surrounding the bottom (07) and with the other leg (29) on the wall of the pelvis (05) can surround the pool edge (06) encompassing.
    [4]
    4. Mounting device (01) according to claim 2 or 3, characterized in that on the protective element (27) markings (31-34) are applied by means of which (31-34) the positioning of the protective element (27) on the pool edge (06) relative to the anchoring device (11 r, 36r, 111, 361) and / or the positioning of the support element (26) relative to the protective element (27) can be determined.
    [5]
    5. Mounting device (01) according to one of claims 2 to 4, characterized in that the protective element (27) and / or the support element (26) is made of a chlorine water resistant, rubbery material, in particular of a recycled rubber granules.
    [6]
    6. Mounting device (01) according to one of claims 1 to 5, characterized in that the clamping means (23) comprises a ratchet.
    [7]
    7. Mounting device (01) according to any one of claims 1 to 6, characterized in that the anchor element (12) has a einfestonierbare in the soil odereininklebbare screw.
    [8]
    8. Mounting device (01) according to one of claims 1 to 6, characterized in that the anchor element (17) has a threaded sleeve which the bottom (07) by cross-connectable with its lower end with a plate member (38) is connectable to the Ceiling (09) of a space located under the floor (07) can be arranged.
    [9]
    9. Mounting device (01) according to one of claims 1 to 8, characterized in that the fastening element (13) is an eyebolt with a rotatable screw ring.
    [10]
    10. Mounting device (01) according to one of claims 1 to 9, characterized in that the cover (16) insertable on the bottom (07) cover plate (17) and in the anchor element (12, 27) plug-and / or has screw-in closure element (18).
    [11]
    11. Mounting device (01) according to one of claims 1 to 10, characterized by at least one tubular abrasion protection (30), wherein the slack line (02) through the abrasion protection (30) can be guided and in the abrasion protection inside with less friction in the longitudinal direction freely can move, with the Abriebschutzaussenseite rests with higher friction on the support element (26).
    [12]
    12. Mounting device (01) according to one of claims 1 to 11, characterized by at least one securing device, wherein the securing device comprises a belt or a rope, the first end with the lashing strap (22) or the slackline (02) and the second end with an indoor pool device can be connected to prevent in the event of failure of the anchoring device or a connection between the lashing element and the anchoring device free flying through the space lashing element or fitting parts.
    类似技术:
    公开号 | 公开日 | 专利标题
    DE102010000038A1|2010-10-07|Arrangement for installation of slackline, particularly in school sport, comprises line which is stretched by ratchet between two fixed points, where ratchet is directly provided at end of line, and ratchet has hook
    DE102014108102B4|2018-03-01|Rail safety device
    CH705021B1|2017-07-31|Slackline mounter.
    DE102007004471B3|2008-08-14|Device for climbing
    EP2886166B1|2016-09-28|Slack line device
    DE202018002898U1|2018-08-14|Attachment for covers on swimming pools
    DE202009014226U1|2010-03-04|System for creating an escape, rescue or service route in track systems
    AT400815B|1996-03-25|Protective device, preferably for limiting or safeguarding a ski piste
    DE202010013964U1|2010-12-09|Bathtub entry aid
    DE202018106064U1|2018-11-09|Safety Mat
    DE202010000018U1|2010-04-15|Set for the installation of a slackline, especially for indoor and outdoor applications
    DE102017007314A1|2019-02-07|training device
    DE202017004068U1|2017-08-13|training device
    CH712569A2|2017-12-15|Mobile rail and arrangement with mobile rails.
    DE202018105513U1|2018-10-19|Device for blocking ants
    DE102011050198B4|2014-05-08|Slackline arrangement, in particular for sports and physiotherapeutic exercises and means for this Slacklineanordnung
    DE102004013737A1|2005-10-06|Unit for training muscles/muscle groups comprises a vertical support unit with two receiving units that are fixed on a wall a distance apart and have assembly aids for cables/deviating rollers for a force displacement unit/tension unit
    DE202012101884U1|2013-08-26|Fastening device for installing a slackline and Slacklineanordnung, especially for sports and physiotherapy exercises
    DE102009048149A1|2010-10-07|System for creating an escape, rescue or service route in track systems
    DE19630211A1|1998-01-29|Fastener device for playing field barrier especially in sports halls
    DE202020004794U1|2020-12-09|Fall protection for scaffolding
    DE102020101729A1|2020-07-30|Molded stone for an overflow channel
    DE202020005663U1|2021-12-16|Mobile fall protection for construction sites to protect people from falling
    DE102011000345A1|2012-07-26|Balancing device for use during e.g. mountain biking, has rolling body comprising groove and arranged between plate and substrate, and user-side arranged fixing unit for fixing rolling body relative to plate, where plate is rolled on body
    DE202011050064U1|2011-11-02|Slackline arrangement, in particular for sports and physiotherapeutic exercises and means for this Slacklineanordnung
    同族专利:
    公开号 | 公开日
    CH705021A2|2012-11-30|
    DE202011100926U1|2011-08-03|
    AT13171U1|2013-07-15|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    DE8306738U1|1983-07-21|Rupp GmbH, 6700 Ludwigshafen|Device for fastening and clamping components|
    US3754757A|1971-01-21|1973-08-28|D Bowen|Tightwire sports equipment|
    DE202008006296U1|2008-05-08|2008-08-21|Grittmann, Joachim|Rope garden with at least two supports|
    DK200900194U3|2009-11-23|2010-02-26|Inno Vision Consult As|Line system for indoor use|
    DE102010000038A1|2010-01-11|2010-10-07|Slackline-Tools GbR |Arrangement for installation of slackline, particularly in school sport, comprises line which is stretched by ratchet between two fixed points, where ratchet is directly provided at end of line, and ratchet has hook|
    DE202010015269U1|2010-11-12|2011-05-05|Engelke, Ulrich|Slackline frames|DE102012104436A1|2012-05-23|2013-11-28|Slackline-Tools GbR |Fastening device used during installation of slack line for e.g. sports activity, has releasable anchoring element e.g. girder grip and ball support pin that is fixed at two fixed points so as to install slack line|
    法律状态:
    2014-12-15| PCOW| Change of address of patent owner(s)|Free format text: NEW ADDRESS: RAIFFEISENSTRASSE 3, 97274 LEINACH (DE) |
    2018-12-14| PL| Patent ceased|
    优先权:
    申请号 | 申请日 | 专利标题
    DE202011100926U|DE202011100926U1|2011-05-19|2011-05-19|Slackline mounter|
    [返回顶部]