摘要:
A multi-functional board-type gliding device, which has two end portions spaced at a distance apart from another in the direction of a longitudinal axis and is designed to be split in its longitudinal extension to form gliding part-devices . Several first and second coupling mechanisms are disposed in the direction of longitudinal extension in order to provide a mutual connection between the two gliding part-devices. The two mutually coupled gliding part-devices constitute a first operating mode and in the position separated from one another constitute a second operating mode. In the first operating mode in the coupled position, the two gliding part-devices form a first end portion which defines a first direction of use. In the second operating mode in the position separated from one another, the or the other end portions define a second direction of use opposite the first direction of use.
摘要:
The invention relates to a ski (2) or a snowboard in the form of a board-type gliding device (1). By reference to the width (13) of the gliding board body, at least one slot (14) is provided in its middle portion extending in the depth direction—arrow (15)—from the top face (7) of the gliding board body in the direction towards the running surface facing (10) and in its longitudinal direction extending essentially parallel with the longitudinal direction of the gliding board body. This at least one slot (14) is designed to cause a cross-sectional weakening and reduce the stiffness of the gliding board body transversely to its longitudinal direction. At least one geometry-influencing means (19) is also provided with a view to producing a cross-sectional shape or contour of the gliding board body which is variable as a function of load and/or can be manually varied. The at least one slot (14) is then faced with a bridging element (22) which is able to stretch or expand elastically, at least transversely to the longitudinal extension of the slot (14). This bridging element (22) is designed so that it prevents snow from being transferred or getting inside the slot (14) from the running surface facing (10) in the direction towards the top face (7) of the gliding board body.
摘要:
The invention describes a multi-functional board-type gliding device (1), which has two end portions (3, 4) spaced at a distance apart from another in the direction of a longitudinal axis (2) and is designed to be split in its longitudinal extension to form gliding part-devices (5, 6). Several first and second coupling mechanisms (7, 8) are disposed in the direction of longitudinal extension in order to provide a mutual connection between the two gliding part-devices (3, 4). The two mutually coupled gliding part-devices (5, 6) constitute a first operating mode and in the position separated from one another constitute a second operating mode. In the first operating mode in the coupled position, the two gliding part-devices (5, 6) form a first end portion (3) which defines a first direction of use (10). In the second operating mode in the position separated from one another, the or the other end portions (4) define a second direction of use (11) opposite the first direction of use (10).
摘要:
A runner device (1), in particular a ski (2), snowboard, runner or similar, with a stiffening and/or damping element (50) joined to at least one part of the runner device (1), e.g. a layer or an inlaid element, the stiffening and/or damping element (50) being formed by a casing element (46) forming a housing compartment (45) filled with packers (44), which can be adjusted in terms of its hardness or its deformation resistance as necessary by reducing an internal pressure to a pressure below atmospheric pressure.
摘要:
The invention relates to a ski (2) or a snowboard in the form of a board-type gliding device (1), comprising a multi-layered gliding board body. A force-transmitting element (13) is supported on the top face (7) of the gliding board body, the top face of which is provided as a means of supporting a binding mechanism (3) for a connection to a sports shoe which can be released as and when necessary. The force-transmitting element (13) is of a plate-type design and extends across more than 50% of the length of the gliding board body. Within its longitudinal extension, the plate-type force-transmitting element (14) is supported in at least part-portions on the top face (7) of the gliding board body so as to transmit load and is connected to the gliding board body by means of a plurality of connecting zones (30) disposed in the longitudinal direction of the plate-type force-transmitting element (13).
摘要:
A ski or a snowboard in the form of a board-type gliding device has by reference to the board body width, at least one slot in its middle portion extending in the depth direction from the board body top face towards the running surface facing and in its longitudinal direction essentially parallel with the board body longitudinal direction to cause a cross-sectional weakening and reduce the stiffness of the board body transversely to its longitudinal direction. At least one geometry-influencing device produces a cross-sectional board body shape or contour which is variable manually or as a function of load. The slot is then faced with a bridging element which is elastically stretchable or expandable, at least transversely to the longitudinal extension of the slot to prevent snow from being transferred or getting inside the slot from the running surface facing towards the top face of the gliding board body.
摘要:
The invention relates to a ski (2) or a snowboard in the form of a board-type gliding device (1), comprising a multi-layered gliding board body. A force-transmitting element (13) is supported on the top face (7) of the gliding board body, the top face of which is provided as a means of supporting a binding mechanism (3) for a connection to a sports shoe which can be released as and when necessary. The force-transmitting element (13) is of a plate-type design and extends across more than 50% of the length of the gliding board body. Within its longitudinal extension, the plate-type force-transmitting element (14) is supported in at least part-portions on the top face (7) of the gliding board body so as to transmit load and is connected to the gliding board body by means of a plurality of connecting zones (30) disposed in the longitudinal direction of the plate-type force-transmitting element (13).
摘要:
The invention describes a ski (2) or a snowboard in the form of a board-type gliding device (1). By reference to the width (13) of the gliding board body, at least one slot (14) is provided in its middle portion extending in the depth direction—arrow (15)—from the top face (7) of the gliding board body in the direction towards the running surface facing (10) and in its longitudinal direction essentially parallel with the longitudinal direction of the gliding board body. This at least one slot (14) is provided with a view to causing a cross-sectional weakening and reducing the stiffness of the gliding board body transversely to its longitudinal direction. Also provided is at least one geometry-influencing means (19), by means of which the cross-sectional shape or contour of the gliding board body is variable as a function of load and/or can be manually varied. The geometry-influencing means (19) comprises a plate-type force-transmitting element (44), which extends across more than 50% of the length of the gliding board body and is supported within its longitudinal extension, at least in part-portions, on the top face (7) of the gliding board body so as to transmit load, and the plate-type force-transmitting element (44) is disposed so that it overlaps the least one slot (14) in the longitudinal direction and bridges it transversely to the longitudinal direction of the slot (14).
摘要:
The invention describes a ski (2) or a snowboard in the form of a board-type gliding device (1). By reference to the width (13) of the gliding board body, at least one slot (14) is provided in its middle portion extending in the depth direction—arrow (15)—from the top face (7) of the gliding board body in the direction towards the running surface facing (10) and in its longitudinal direction essentially parallel with the longitudinal direction of the gliding board body. This at least one slot (14) is provided with a view to causing a cross-sectional weakening and reducing the stiffness of the gliding board body transversely to its longitudinal direction. Also provided is at least one geometry-influencing means (19), by means of which the cross-sectional shape or contour of the gliding board body is variable as a function of load and/or can be manually varied. The geometry-influencing means (19) comprises a plate-type force-transmitting element (44), which extends across more than 50% of the length of the gliding board body and is supported within its longitudinal extension, at least in part-portions, on the top face (7) of the gliding board body so as to transmit load, and the plate-type force-transmitting element (44) is disposed so that it overlaps the least one slot (14) in the longitudinal direction and bridges it transversely to the longitudinal direction of the slot (14).
摘要:
A ski or a snowboard is in the form of a board-type gliding device. By reference to the width of the gliding device, at least one recess is provided in its middle portion extending in its depth direction from the top face of the gliding device in the direction towards the running surface facing and disposed in its longitudinal direction essentially parallel with the longitudinal direction of the gliding device with a view to causing a cross-sectional weakening. At least one manually adjustable adjusting device is provided, which is designed to produce an individually adjustable change in the load-dependent deformability of the cross-sectional shape or to produce an individually adjustable limit to the maximum permissible load-dependent cross-sectional deformation of the gliding device. Further, a ski or a snowboard is provided with a manually adjustable adjusting device which is designed to act as a spreading device for producing an individually adjustable increase in the width of the recess on the one hand and to act as a pulling device to produce an individually adjustable decrease in the width of the recess on the other hand.