• 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:
    Circular fixing disc, which is firmly connected to a snowboard, for a snowboard binding, wherein the mounting plate is constructed in two parts of a connectable with a snowboard part (1} and engaging in a base plate of a snowboard binding part (2}, in the base plate engaging part (2) on the side facing the snowboard (2b} at least partially a surface structure (5}, which can form a surface structure on the base plate a positive and non-positive connection, the engaging in the base plate part (2} on the side facing away from the snowboard (2a} at least two recesses (3}, which is rotatable in the base plate engaging part (2) with respect to the longitudinal axis of the snowboard and connectable to the snowboard part (1} on the side facing the snowboard (1b) has at least two planar, protruding areas (6), wherein the protruding areas (6) are smaller than the openings 3), wherein in each case an elastic, compressible insert (4) is arranged in the at least two recesses (3) and the protruding areas (6) fill the recess (3) together with the elastic, compressible insert (4).
    公开号:AT517662A1
    申请号:T566/2015
    申请日:2015-08-27
    公开日:2017-03-15
    发明作者:
    申请人:Karim Michael Zuderell;
    IPC主号:
    专利说明:

    The invention relates to an elastic attachment of snowboard bindings.
    Snowboard bindings according to the prior art are constructed as follows: on the snowboard, an elongated base plate is provided, which can accommodate the shoe. This base plate has attachment means for the shoe, usually straps that are stretched over the shoe. This base plate has a circular recess in the middle. In this circular recess a circular mounting plate is inserted, which is firmly connected to the snowboard, usually by screws; Most of the bindings on the market have three or four holes in the mounting plate through which screws can be inserted, via which the connection with the snowboard takes place. There are also systems on the market with only two holes, also referred to as "channel systems." Before the mounting plate is firmly connected to the snowboard, the angle of the base plate is adjusted to allow proper alignment of the feet when snowboarding. The angle is the angle that is set relative to the snowboard's longitudinal axis Depending on the riding skills and orientation of the snowboard (deep snow, freestyle, normal slopes) different angles are preferred, this angle being achieved by turning the base plate and then fixing the angle Once fixed, this angle can only be changed by mechanical removal of the fixing plate and turning the base plate again, so that the feet are fixed and can not rotate about their own axis, for example the snowboard bindings in the
    Patent applications or patents EP 1,462,151 A2, EP 1,658,118 Bl and DE 4,219,036 Al constructed.
    Disadvantage of this construction is the fixed angle adjustment of the binding.
    The aim of the invention is to provide a fastening disc and / or binding, which allows rotation of the feet about its own axis.
    According to the invention, this is achieved by providing a fixing disk which is constructed in two parts from a part connectable with a snowboard and a part engaging in a base plate of a snowboard binding, the base plate having a fastening for a shoe, a circular receptacle for the shoe Fastening disc and the base plate is connectable by the mounting plate to the snowboard and the base plate with the mounting plate is positively and non-positively connected and the base plate can be arranged in different angles of rotation with respect to the longitudinal axis of the snowboard, the sequence in use from below snowboard Base plate, in the base plate engaging part and connectable to the snowboard part is that the base plate engaging part on the side facing the snowboard at least partially having a surface structure having a surface structure on de r Base plate, which faces the engaging part in the base plate and having a surface structure of the part corresponding size, can form a positive and non-positive connection, the engaging part in the base plate on the side facing away from the snowboard at least two recesses, the can be continuous in the thickness direction and in each of which an elastic, compressible insert is arranged, which is rotatable in the base plate engaging part with respect to the longitudinal axis of the snowboard, connectable to the snowboard part on the side facing the snowboard at least two flat, protruding areas the number of which corresponds to the recesses in the part engaging in the base plate and the thickness of which corresponds at most to the depth of the recess, wherein the protruding portions are smaller than the recesses, and the protruding portions together with the elastic, compressible insert the A fill out the form.
    This design allows the foot to rotate after attaching the binding to the snowboard. The elastic, compressible inserts allow rotation of the foot, which is limited by the size of the recesses. Thus, it is possible to turn the foot while using the snowboard. This allows a better driving experience and provides greater safety, as even in the case of a fall, a rotation of the foot is possible and so injury can be prevented.
    The surface structure is a means for engaging in a positive and non-positive connection between the base plate engaging portion and the base plate and may, for example, be an angled rim which basically functions like two intermeshing gears, but which do not rotate. This creates a firm, positive and non-positive connection between the engaging part in the base plate and the base plate.
    In another aspect, this is achieved by providing a snowboard binding in which the attachment disk is constructed in two parts from a part connectable to the snowboard and a part engaging in the base plate, the sequence in use from below snowboard, base plate, is in the base plate engaging part and the snowboard connectable part is that in the base plate engaging part on the snowboard side facing at least partially having a surface structure, which faces with a surface structure on the base plate, which faces the base plate engaging part and the one of the surface structure of the part has corresponding size, can form positive and non-positive connection, the engaging part in the base plate on the side facing away from the snowboard at least two recesses, which may be continuous in the thickness direction and in each of which an elasti scher, compressible insert is arranged, which is rotatable in the base plate engaging part with respect to the longitudinal axis of the snowboard, the snowboard connectable part on the snowboard side facing at least two planar, protruding portions, the number of recesses in the in corresponds to the base plate engaging part and the thickness of which corresponds at most to the depth of the recess, wherein the protruding portions are smaller than the recesses, and the protruding portions together with the elastic, compressible insert fill the recess.
    This design allows the foot to rotate after attaching the binding to the snowboard. The elastic, compressible inserts allow rotation of the foot, which is limited by the size of the recesses. Thus, it is possible to turn the foot while using the snowboard. This allows a better driving experience and provides greater safety, as even in the case of a fall, a rotation of the foot is possible and so injury can be prevented.
    The surface structure is a means for engaging in a positive and non-positive connection between the base plate engaging portion and the base plate and may, for example, be an angled rim which basically functions like two intermeshing gears, but which do not rotate. This creates a firm, positive and non-positive connection between the engaging part in the base plate and the base plate.
    In one embodiment of the invention, the part engaging in the base plate may have a layer of a low-friction material on one or both sides. This facilitates rotation.
    In another embodiment of the invention, the engaging in the base plate part made of a low-friction material. This also facilitates the rotation.
    In one embodiment of the invention, the part which can be connected to the snowboard can have a layer of a low-friction material on one or both sides. This facilitates rotation.
    In another embodiment of the invention, the part which can be connected to the snowboard can be made of a low-friction material
    Material exist. This also facilitates the rotation.
    In an embodiment of the invention, the side of the base plate facing the snowboard and / or one or both sides of the part engaging in the base plate may comprise a layer of a low-friction material. This facilitates rotation.
    In another embodiment of the invention, the base plate and / or the engaging part in the base plate made of a low-friction material. This also facilitates the rotation.
    In one embodiment of the invention, the part which can be connected to the snowboard can have a layer of a low-friction material on one or both sides. This facilitates rotation.
    In another embodiment of the invention, the part connectable to the snowboard can be made of a low-friction material. This also facilitates the rotation.
    In a specific embodiment of the invention, the low friction material may be polytetrafluoroethylene (PTFE). PTFE is a low-friction plastic that allows easy rotation.
    In one embodiment of the invention, the elastic, compressible inserts may be made of rubber. Rubber is a low cost, resilient plastic that is compressible and allows rotation of the binding by compressing the rubber in one direction. Because it is also elastic, after binding of the binding in one direction of rotation, the binding is turned back to the starting position when the force is ended.
    In one embodiment of the invention, the elastic, compressible inserts can allow a maximum rotation of 10 °, preferably 5 °, in particular 3 °. These values have been found in practice to be the preferred ranges for maximum turning of a snowboard binding.
    In one embodiment of the invention, by changing the compressibility of the elastic, compressible insert, the force required to rotate the binding can be varied. If the insert is easier to compress, the rotation is easier and without much effort. If the insert is difficult to compress, more force is needed for the rotation. Choosing the right compressibility will address the individual needs and preferences of snowboarders, and anyone can adjust their preferred difficulty of turning themselves.
    In one embodiment of the invention, the base plate may have a plurality of receptacles for the attachment disc, which are arranged overlapping along the longitudinal axis of the base plate. This makes it possible to arrange the mounting plate at several positions. It is thus possible to place the foot farther forward or further back and thus to take into account the different shoe sizes of the drivers and the different driving styles and driving skills.
    In one embodiment of the invention, the part which can be connected to the snowboard can have holes and can be screwed to the snowboard by means of screws. By screwing a simple and stable connection of the bond with the snowboard.
    In one embodiment of the invention, the part connectable to the snowboard may have a pattern of holes and the snowboard in the center a pattern of holes and a plurality of longitudinally and transversely displaced from the center of the snowboard pattern of holes corresponding to the pattern of holes in the Match with the snowboard connectable part, have to accommodate the screws. The connectable to the snowboard part has several holes through which screws are plugged, via which the binding is bolted to the snowboard. These holes form a pattern. On the snowboard holes are milled, which correspond to the pattern of holes in the connectable with the snowboard part. The milled holes can be reinforced or designed as inlays to meet the high stress and not rip. However, since different ways of attaching the binding on the snowboard should be possible because different driving styles and surfaces (freestyle, deep snow, normal slopes) require different binding positions, several patterns are milled on the snowboard, in which, depending on the preferences of the user, the binding can be screwed ,
    BRIEF DESCRIPTION OF THE DRAWINGS
    Fig. 1 shows a plan view of the top and bottom and a side view of the individual invention essential parts.
    Fig. 2 shows a perspective view of the individual invention essential parts.
    Fig. 3 shows an embodiment of the invention in the assembled state as a plan view of the top and bottom and as a side view and as a perspective view and exploded view.
    Fig. 4 corresponds to Fig. 3, but the elastic, compressible inserts are shown hatched for better visibility.
    The reference numbers refer to: 1 part connectable with the snowboard la side facing away from the snowboard part of the connectable with the snowboard part lb the snowboard facing side of the snowboard connectable part 2 in the base plate engaging part 2a the snowboard side facing away from the base plate engaging part 2b the snowboard facing side of engaging in the base plate part 3 recess 4 elastic, compressible insert 5 surface structure 6 projecting area
    EXAMPLES EXAMPLE 1 - Mounting washer, also in combination with a snowboard binding
    A mounting washer can be used alone or in combination with a complete snowboard binding. The mounting plate is constructed in two parts from a connectable with a snowboard part 1 and a engaging in a base plate of a snowboard binding part 2, wherein the base plate has a fastening for a shoe, has a circular receptacle for the mounting plate and the base plate through the mounting plate with the snowboard is connectable and the base plate with the mounting plate is positively and non-positively connected and the base plate can be arranged in different angles of rotation with respect to the longitudinal axis of the snowboard, the sequence in use from below snowboard, base plate, in the base plate engaging part. 2 and part 1 connectable to the snowboard, the part 2 engaging in the base plate on the side 2 b facing the snowboard has at least partially a surface structure 5 which has a surface structure on the base plate corresponding to the part 2 engaging in the base plate facing and having one of the surface structure 5 of the part 2 corresponding size, can form a positive and non-positive connection, the engaging in the base plate part 2 on the side facing away from the snowboard 2a at least two recesses 3, which may be continuous in the thickness direction and in each of which an elastic, compressible insert 4 is arranged, which is rotatable in the base plate engaging part 2 with respect to the longitudinal axis of the snowboard, which can be connected to the snowboard part 1 on the snowboard side facing lb at least two planar, protruding portions. 6 whose number corresponds to the number of recesses 3 in the part engaging in the base plate 2 and whose thickness corresponds at most to the depth of the recess 3, wherein the protruding portions 6 are smaller than the recesses 3, and the protruding portions 6 together with the elastic, compressible insert 4 fill the recess 3. A snowboard binding includes an elongate base plate having a mount for a shoe, a circular attachment disc fixedly connectable to the snowboard, the base plate having a circular receptacle for the attachment disc, and the base plate being connectable to the snowboard by the attachment disc and the base plate is positively and non-positively connected to the mounting plate and the base plate may be arranged in different angles of rotation with respect to the longitudinal axis of the snowboard. This design allows the foot to rotate after attaching the binding to the snowboard. The elastic, compressible inserts 4 allow rotation of the foot, which is limited by the size of the recesses 3. Thus, it is possible to turn the foot while using the snowboard. This allows a better driving experience and provides greater safety, as even in the case of a fall, a rotation of the foot is possible and so injury can be prevented. The surface structure 5 is a means for entering into a positive and non-positive connection between the base plate engaging part 2 and the base plate and may, for example, be an angled collar which basically works like two intermeshing gears, but which do not rotate. This creates a firm, positive and non-positive connection between the engaging in the base plate part 2 and the base plate. EXAMPLE 2 - Embodiments with layers of low-friction material or consisting of low-friction material
    As already stated in Example 1, the fastening disk is a fastening disk which permits a certain rotation of the foot. To facilitate this, the individual parts of the fixing disk and / or snowboard binding described in Example 1 may comprise layers of a low-friction material or the individual components may consist of a low-friction material. Thus, for example, the side of the base plate facing the snowboard and / or one or both sides 2a, 2b of the part 2 engaging in the base plate may have a layer of a low-friction material; and / or the base plate and / or engaging in the base plate part 2 made of a low-friction material; and / or connectable to the snowboard part 1 on one or both sides la, lb have a layer of a low-friction material; and / or connectable to the snowboard part 1 made of a low-friction material. Likewise, the snowboard in the binding region may comprise a layer of a low-friction material or may be a part of the snowboard in the binding region at least partially made of a low-friction material. Preferably, the low friction material
    Polytetrafluoroethylene (PTFE). The low-friction layers or the low-friction material allows for easier rotation of the mounting plate or the entire bond. EXAMPLE 3 - Variation of Elastic Compressible Inserts
    The elastic compressible inserts 4 of the snowboard binding described in the above examples may be made of rubber. Rubber is a low cost, resilient plastic that is compressible and allows rotation of the binding by compressing the rubber in one direction. Because it is also elastic, after binding of the binding in one direction of rotation, the binding is turned back to the starting position when the force is ended. The elastic, compressible inserts 4 allow a maximum rotation of 10 °, preferably 5 °, in particular 3 °. These values have been found in practice to be the preferred ranges for maximum turning of a snowboard binding. It is also possible to change the compressibility of the elastic, compressible insert 4, thereby varying the force required to rotate the binding. Is the insert 4 easier to compress, the rotation is easier and without much effort. If the insert 4 is difficult to compress, more force is needed for the rotation. Choosing the right compressibility will address the individual needs and preferences of snowboarders, and anyone can adjust their preferred difficulty of turning themselves. EXAMPLE 4 - Embodiments with different mounting options on the snowboard or different hole arrangements for attachment to the snowboard
    The base plate may have a plurality of receptacles for the mounting washer of the above examples, which are arranged overlapping along the longitudinal axis of the base plate. This makes it possible to arrange the mounting plate at several positions. It is thus possible to place the foot farther forward or further back and thus to take into account the different shoe sizes of the drivers and the different driving styles and driving skills.
    In order to connect the mounting plate of the above examples firmly to the snowboard, which can be connected to the snowboard part 1 holes and be screwed to the snowboard by screws. By screwing a simple and stable connection of the bond with the snowboard.
    In order to connect the attachment disc and / or the snowboard binding of the above examples to the snowboard in different positions, the snowboard connectable part 1 may have a pattern of holes and the snowboard in the center a pattern of holes and a plurality of longitudinal and Transversely spaced from the center of the snowboard arranged pattern of holes corresponding to the pattern of holes in the connectable with the snowboard part 1, for receiving the screws. The connectable to the snowboard part 1 has a plurality of holes through which screws are plugged, via which the binding is bolted to the snowboard. These holes form a pattern. On the snowboard are milled holes that correspond to the pattern of holes in the connectable with the snowboard Part 1. The milled holes can be reinforced or designed as inlays to meet the high stress and not rip.
    However, since different ways of attaching the binding on the snowboard should be possible because different driving styles and surfaces (freestyle, deep snow, normal slopes) require different binding positions, several patterns are milled on the snowboard, in which, depending on the preferences of the user, the binding can be screwed ,
    权利要求:
    Claims (17)
    [1]
    claims:
    1. Circular attachment disc, which is firmly connected to a snowboard, for a snowboard binding, characterized in that the mounting plate in two parts of a connectable with a snowboard part (1) and engaging in a base plate of a snowboard binding part (2) is constructed, wherein the base plate has a fastening for a shoe having a circular receptacle for the mounting plate and the base plate is connected by the mounting plate with the snowboard and the base plate with the mounting plate is positively and non-positively connected and the base plate in different angles of rotation in Can be arranged with respect to the longitudinal axis of the snowboard, wherein the sequence in use from below snowboard, base plate, in the base plate engaging part (2) and connectable to the snowboard part (1) is, in the base plate engaging part (2) the snowboard-facing side (2b) at least te ilweise has a surface structure (5) having a surface structure on the base plate, which faces the base plate engaging part (2) and having a surface of the structure (5) of the part (2) corresponding size, a positive and non-positive Connection can enter, in the base plate engaging part (2) on the side facing away from the snowboard (2 a) at least two recesses (3), which can be continuous in the thickness direction and in each of which an elastic, compressible insert (4) is arranged in that the base plate engaging part (2) is rotatable with respect to the longitudinal axis of the snowboard, the snowboard connectable part (1) on the snowboard facing side (lb) has at least two plane projecting portions (6), the number thereof which corresponds to the recesses (3) in the engaging in the base plate part (2) and the thickness of which corresponds at most to the depth of the recess (3), wherein the forth standing areas (6) are smaller than the recesses (3), and the protruding areas (6) together with the elastic, compressible insert (4) fill the recess (3).
    [2]
    2. snowboard binding, comprising an elongated base plate having a fastening for a shoe, a circular mounting plate which is firmly connected to a snowboard, wherein the base plate has a circular receptacle for the mounting plate and the base plate through the mounting plate with the snowboard is connectable and the base plate with the mounting plate positively and non-positively connected and the base plate can be arranged in different angles of rotation with respect to the longitudinal axis of the snowboard, characterized in that the mounting plate in two parts of a connectable to the snowboard part (1) and a is constructed in the base plate engaging part (2), wherein the sequence in the use state from below snowboard, base plate, in the base plate engaging part (2) and connectable to the snowboard part (1), the engaging in the base plate part (2) on the side facing the snowboard (2b) z at least partially having a surface structure (5) having a surface structure on the base plate facing the base plate engaging part (2) and having a surface structure (5) of the part (2) corresponding size, a shape and can make frictional connection, in the base plate engaging part (2) on the side facing away from the snowboard (2 a) at least two recesses (3), which may be continuous in the thickness direction and in each of which an elastic, compressible insert (4) is, in the base plate engaging part (2) is rotatable with respect to the longitudinal axis of the snowboard, the snowboard connectable part (1) on the snowboard side facing (lb) at least two planar, protruding portions (6) whose Number of the recesses (3) in the base plate engaging part (2) and the thickness of which corresponds at most to the depth of the recess (3), wherein the protruding areas (6) are smaller than the recesses (3), and the protruding areas (6) together with the elastic, compressible insert (4) fill the recess (3).
    [3]
    3. Fastening disc according to claim 1, characterized in that the engaging in the base plate part (2) on one or both sides (2 a, 2 b) comprises a layer of a low-friction material.
    [4]
    4. Mounting washer according to claim 3, characterized in that the engaging in the base plate part (2) consists of a low-friction material.
    [5]
    5. Fastening disc according to claim 1, 3 or 4, characterized in that the part connectable to the snowboard (1) on one or both sides (la, lb) comprises a layer of a low-friction material.
    [6]
    6. Fastening disc according to claim 5, characterized in that the connectable to the snowboard part (1) consists of a low-friction material.
    [7]
    7. snowboard binding according to claim 2, characterized in that the snowboard facing side of the base plate and / or one or both sides (2 a, 2 b) of the base plate engaging part (2) has a layer of a low-friction material.
    [8]
    8. snowboard binding according to claim 7, characterized in that the base plate and / or engaging in the base plate part (2) consists of a low-friction material.
    [9]
    9. snowboard binding according to claim 2, 7 or 8, characterized in that the connectable to the snowboard part (1) on one or both sides (la, lb) comprises a layer of a low-friction material.
    [10]
    10. snowboard binding according to claim 9, characterized in that the connectable to the snowboard part (1) consists of a low-friction material.
    [11]
    11. Fastening disc according to one of claims 3 to 6 or snowboard binding according to one of claims 7 to 10, characterized in that the low-friction material is polytetrafluoroethylene (PTFE).
    [12]
    12. Fastening disk or snowboard binding according to one of the preceding claims, characterized in that the elastic, compressible inserts (4) are made of rubber.
    [13]
    13. Fastening disk or snowboard binding according to one of the preceding claims, characterized in that the elastic, compressible inserts (4) allow a maximum rotation of 10 °, preferably 5 °, in particular 3 °.
    [14]
    14. Snowboard binding according to one of the preceding claims, characterized in that is varied by the change in the compressibility of the elastic, compressible insert (4) of the force required for the rotation.
    [15]
    15. Fastening disk or snowboard binding according to one of the preceding claims, characterized in that the base plate has a plurality of receptacles for the fastening disk, which are arranged overlapping along the longitudinal axis of the base plate.
    [16]
    16. Fastening disk or snowboard binding according to one of the preceding claims, characterized in that the part connectable to the snowboard (1) has holes and can be screwed to the snowboard by means of screws.
    [17]
    17. Fastening disk or snowboard binding according to one of claims 1 to 15, characterized in that the connectable to the snowboard part (1) has a pattern of holes and the snowboard in the center of a pattern of holes and a plurality, in the longitudinal and transverse direction of Center of the snowboard arranged pattern of holes, which correspond to the pattern of holes in the connectable with the snowboard part (1), for receiving the screws.
    类似技术:
    公开号 | 公开日 | 专利标题
    EP1462151A2|2004-09-29|snowboard binding
    DE3638887C2|1989-11-09|
    DE112008001514T5|2010-07-15|Washer for controlling a binding angle on a snowboard
    DE69630896T2|2004-08-26|AUTOMATIC SNOWBOARD BINDING AND SHOE THEREFOR
    EP1314458A1|2003-05-28|Adjustable ski binding device on a ski
    DE10319056B4|2013-06-20|snowboard binding
    AT517662B1|2017-08-15|Elastic attachment of snowboard bindings
    EP0841971B1|2001-10-31|Combined binding and boot for snowboards or the like
    AT516U1|1995-12-27|FASTENING SYSTEM FOR BINDINGS ON SNOWBOARDS AND SKIS
    DE10157199A1|2002-07-18|Holding set of a shoe on a board
    DE2307427B2|1980-09-11|Ski binding with a sole plate
    DE102013204064A1|2014-09-11|Buttocks for a ski touring binding
    EP3453433A1|2019-03-13|Heel binding with a functional element
    DE4020873C2|1994-05-05|Security binding
    DE102008051334B3|2010-05-06|Safety binding for a mobile sports equipment
    DE19531677C2|1998-02-05|Snowboard binding
    EP3250300B1|2021-07-21|Roller skate system having rail and shoe
    DE102013209277A1|2014-11-20|Toe holder with Einsteighilfe
    EP1669112B1|2009-02-11|Binding system for ski
    DE102005056195A1|2006-07-13|snowboard binding
    DE19541644A1|1997-05-15|Snowboard binding with adjustable boot support plate
    DE102015017092B4|2017-11-23|Roller skate system with rail
    DE102009008899B3|2010-08-12|Attachment device for snowboard, has stop working against one of stops at frame plate when foot attachment is aligned in operating condition and working against lug at base plate, when attachment is aligned in longitudinal condition
    DE202004012590U1|2004-12-02|Device for supporting the heel of a ski boot comprises an L-shaped heel support part having different length arms so that the boot heel is raised in the first fixing position
    AT518944A2|2018-02-15|shoe
    同族专利:
    公开号 | 公开日
    WO2017031513A3|2017-04-13|
    AT517662B1|2017-08-15|
    WO2017031513A2|2017-03-02|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    US6467794B1|1997-11-19|2002-10-22|Emery S.A.|Device for fixing a shell for maintaining a boot of a snow surf board|
    US20070164523A1|2006-01-17|2007-07-19|Tadashi Yoshino|Binding device for snowboard|AT518749A1|2016-06-09|2017-12-15|Karim Michael Zuderell|Sliding surfaces for snowboards in the binding area|US20070007735A1|2005-07-11|2007-01-11|Stefanic Daniel M|Freely rotatable binding for board sports with internal resilience and safety lock|
    法律状态:
    2021-05-15| MM01| Lapse because of not paying annual fees|Effective date: 20200827 |
    优先权:
    申请号 | 申请日 | 专利标题
    ATA566/2015A|AT517662B1|2015-08-27|2015-08-27|Elastic attachment of snowboard bindings|ATA566/2015A| AT517662B1|2015-08-27|2015-08-27|Elastic attachment of snowboard bindings|
    PCT/AT2016/050255| WO2017031513A2|2015-08-27|2016-08-26|Elastic fastening of snowboard bindings|
    [返回顶部]