AT522846A1 - SPORTBOARD WITH ADJUSTABLE DEFLECTION - Google Patents

Abstract

Sports board with two connecting means (11) arranged at a distance from one another on an upper side of the sports board for connecting the sports board to a user's foot each, and a handle (51) arranged between the connecting means (11) in a central area of the sports board and aligned in the direction of the longitudinal axis of the sports board ), wherein the handle (51) is immovably connected to the sports board at two connection points arranged in the center or near the center of the sports board and arranged in the longitudinal axis direction from the areas of the sports board in which the connecting means (11) are arranged, and two tensioning elements (8 ), and an actuating device (2) arranged between the tensioning elements (8), the actuating device (2) being designed to transmit shear stress to the sports board by means of the tensioning elements (8).

Description

TECHNICAL AREA

The present invention generally relates to a sports board, preferably a kiteboard, wakeboard or snowboard. By means of a tensioning device for adjusting the deflection of a sports board, which is connected to the upper side of the sports board with this in the middle or near the middle, the deflection of sports boards can be changed subsequently by the user while exercising. In particular, the present invention relates to an improvement and a significant simplification of previously known devices for adjusting the deflection of sports boards.

STATE OF THE ART

Modern sports boards have a deflection that is typically determined during construction. The production process of sports boards is typically the gluing or gluing of different layers of wood, plastic or metal in a press with a pre-determined deflection in the press.

Clamping devices with which subsequent changes in the deflection of a sports board can be achieved are known. The patent specifications US9394037B1 and DE102014011358A1 by the applicant describe various configurations of such clamping devices. The described clamping devices of sport boards are connected to the top of the foot straps or to the sport board near the foot straps. Tension is built up by differently shaped tensioning elements and actuating devices described in the claims.

A major disadvantage of the clamping devices described is that additional fastening points, so-called inserts, have to be planned in the construction of the sports board for fastening the clamping device and used in production or have to be installed afterwards with a great deal of effort. Attachment to the foot straps also proves to be problematic, since the positions of the foot straps or the attachment points (inserts) of the foot straps usually do not match the attachment points of the tensioning elements and therefore additional attachment points (inserts) are necessary again.

Another disadvantage of known clamping devices is their size and weight. The fastening of the tensioning elements to the foot straps or close to the foot straps naturally results in a large distance between the connection points and the central actuating device. As a result, clamping elements have to be designed to be correspondingly large, which leads to strength problems and high weights of the clamping elements, especially in the case of shear stresses. However, the durability and weight of a sports board are essential factors and quality features and influence the performance of sports boards.

The simplicity and reliability of the adjustment of the deflection is desirable when using sports boards so that the tension can be adjusted quickly at any time during the journey. In order to prevent unintentional adjustment of the tensioning elements, locking of the actuating device by friction, e.g. by means of self-locking nuts and ratchet buckles, is known. Mechanical locking by means of buckles or ratchet buckles

The tensioning elements which are described in US9394037B1 and DE102014011358A1 and are formed from rope or plastic are suitable for tension-oriented tensions. Shear stresses cannot be realized with it, or only with great effort.

CHARACTERISTICS

Fig. 1 shows the side view of a sports board, in the illustrated case a kiteboard with foot straps and flexure (1).

Fig. 2 shows a sports board, in the illustrated case a kiteboard with foot straps and deflection (1) in a perspective view.

Fig. 3 shows the side view of a formation of a tensioning device with a rotatable actuating device and near the center connection to the sports board by means of screws.

Fig. 4 shows an embodiment of the invention with a tensioning device, the connection to the sports board being made by suction cups.

Fig. 5 shows an embodiment of the invention with a clamping device, the connection to the sports board being made by gluing.

Fig. 6 shows the attachment of the supports to the base plate by permanent magnets.

7 shows an embodiment of a clamping device with a rotatable actuating device in a perspective view.

FIG. 8 shows details of the embodiment of an actuating device described in FIG. 7 with a circular inclined plane and T-bolts on the rotatable actuating device.

FIG. 9 shows a perspective view of an embodiment of a clamping device similar to FIG. 4, in which a circular inclined plane and a T-bolt are located inside a rotatable actuating device.

10 shows an embodiment of the invention of a clamping device with a lever and an eccentric cam located in the handle tube in a perspective view.

11 shows an embodiment of the invention of a tensioning device with a lever and eccentric cam located within the tensioning device in a side view.

Fig. 12 shows an embodiment of the invention of a clamping device with lever and external push rods attached to the clamping elements in a perspective view.

13 shows an embodiment of the invention of a tensioning device with a lever and external push rods attached to the tensioning elements in a side view.

14 shows an embodiment of the invention of a clamping device with an actuating lever and eccentric cam in a clamping element in a perspective view.

15 shows an embodiment of the invention of a clamping device with an actuating lever and eccentric cam in a clamping element in a side view.

Fig. 17 shows a locking of the clamping device for protection against unintentional rotation by magnets in a side view.

Fig. 18 shows an embodiment of a locking device against rotation by means of a locking slide in a perspective view.

19 shows an embodiment of a locking device against rotation by means of a locking slide in a side view.

Fig. 20 shows an embodiment of a clamping device with a pneumatic cylinder.

21 shows one form of seal between the actuating device and the tensioning elements.

DESCRIPTION

Fig. 1 shows a sports board, for example a kiteboard and its deflection (1) in side view. Modern sports boards are manufactured using ski or snowboard technology. Various basic materials such as wood, glass fiber, carbon fiber, plastics and metals are bonded under pressure in a heated press with binding materials such as polyester, epoxy or polyurethane resins. Typically, a sports board has a deflection (1) determined in advance by the designer and realized in the production process, which after production and completion can no longer be adjusted or changed by the user of the sports board while exercising the sport.

FIG. 2 shows a sports board shown and described in FIG. 1 in a perspective illustration.

Fig. 3 shows the side view of a clamping device with a rotatable actuating device (2). This formation of a clamping device has 2 clamping elements made of plastic (8), in which the rotatable actuating device (2) is inserted and mounted. Tension is built up by turning the actuating device (2). The connection to the sport board is made with this shape by two screws (3) in the clamping elements (8) in the middle or near the middle of the sport board. The fastening elements (inserts) that are usually already built into sports boards are used near the center of the board. These fastening elements (inserts) are usually located at a distance of between 8 and 11 cm from the center and are installed in conventional sports boards in order to be able to mount a central handle using screws. Central handles usually simplify the use and carrying of sports boards. Further fastening elements (inserts) or connections of the tensioning elements on the upper side of sports boards with or near the foot straps are not necessary in the present invention.

US9394037B1 and DE102014011358A1 describe clamping devices with which the deflection of a sports board can be changed later during use. The tensioning devices described in US9394037B1 and DE102014011358A1 have a tensioning element and an actuating device, but in contrast to the present invention, the tensioning elements are connected to the foot straps or to the sports board near the foot straps. In the case of a connection with the foot straps or near the foot straps, additional fastening elements (inserts) must be planned by the designer during the production of the sports board on the foot straps or near the foot straps and installed during production. An adaptation

Tensioning elements made with ropes or toothed belts cannot transmit any shear stresses or can only transfer them with great effort. However, this type of tension has proven to be advantageous when using sports boards.

The inventive connection of the tensioning elements with the sports board in the middle or near the center, tensioning elements can be made significantly smaller and more compact than when connecting the tensioning elements on the top of the sports board with the foot straps or near the foot straps. This significantly reduces the cost of materials and weight and no additional fastening elements (inserts) are required on the foot straps or on the sports board near the foot straps.

Fig. 4 shows an embodiment of the invention in which the connection between the clamping device and sport board in the middle or near the middle is made by means of suction cups (7) or a corresponding vacuum is created by a base plate (4) equipped with a suction lip as a connection between the clamping device and the sport board becomes. This formation has the advantage that no screw connections or other mechanical connections are required as a connecting element between the tensioning device and the sports board. This shape is therefore particularly suitable for sports boards without fastening elements (inserts) provided on the production side for handles, in particular wakeboards and snowboards.

Fig. 5 shows an embodiment of the invention, in which the connection between the clamping device and sports board by means of gluing (19) of the base plate (4) to the sports board takes place in or near the middle. This formation has the advantage that no screw connections or other mechanical connections are required as a connecting element between the tensioning device and the sports board. This shape is therefore particularly suitable for sports boards without fastening elements (inserts) provided on the production side for handles, in particular wakeboards and snowboards.

6 shows a base plate (4) of an embodiment of the invention, the clamping elements (8) being held on the base plate by permanent magnets (24) and fixed in a corresponding recess (23) in the base plate. The recess (23) can be provided with an undercut based on the principle of a dovetail, and in this way, in conjunction with permanent magnets, the fixing of the clamping elements (8) can be improved. This has the advantage that clamping elements (8) can be fixed easily and without tools on the base plate (4). A base plate (4) and the fixation of clamping elements (8) on the base plate have proven to be advantageous in use. This minimizes tensions on the connections between clamping elements and the sport board, which allows higher load capacities of the connection between clamping device and sport board.

7 shows a section in a perspective view of a new, hitherto unknown or described configuration of a clamping device. The clamping elements are placed in a corresponding recess (23) in a base plate (4). This positions the tensioning elements for mounting the tensioning device on the sportboard. The loads on the connection between the tensioning device and sport board when the tensioning device is tensioned are minimized by fixing the tensioning elements (8) and forces and tensions are transferred to a base plate (4). In this embodiment, a tension is generated by turning the actuating device (2) in that a transverse bolt (6) is guided and displaced on a circular inclined plane (5) and, after turning, engages in the recesses provided. Thereby

FIG. 8 is a detailed drawing of FIG. 7 and shows the embodiment of the principle of a circular inclined plane described in FIG. 7 in detail. By turning the actuating device (2), a transverse bolt (6) is moved on a circular inclined plane (5), which generates tension that is transmitted to a base plate and the sports board via tensioning elements.

9 shows a section in a perspective view through a hitherto unknown or described form of a clamping device. The principle of the circular inclined plane is similar to the description in FIGS. 7 and 8, but the circular inclined plane is integrated in the actuating device (9). The cross bolt on which the surface of the circular inclined plane is supported is a T-bolt (10). By rotating the actuating device, it is axially displaced on the inclined circular plane and tension is built up, which is transmitted to a base plate (4) and the sports board by the tensioning elements (8). The T-bolt (10) is fixed in a receptacle (11) inserted in the clamping elements (8) or directly in the clamping elements (8) and secured against rotation.

10 shows a perspective view of a hitherto unknown or described embodiment of a clamping device. A rod (12) pushed into a tube (13) is displaced against one another by an eccentric cam (14) which is actuated by means of a lever (15) and is located inside the tubes and which presses on a rod end (16) when the lever (15) is actuated. This creates a tension that acts on the tensioning elements (8) and is transferred from them to a base plate (4) and the sports board.

FIG. 11 shows the embodiment shown and described in perspective in FIG. 10 in a side view.

FIG. 12 shows a perspective view of a hitherto unknown or described embodiment of a clamping device. A rod (12) pushed into a tube (13) is actuated by a linkage (18) located outside the tubes, thereby generating tension which is transmitted to a base plate (4) and the sports board by means of tensioning elements (8).

FIG. 13 shows the embodiment shown and described in FIG. 9 in a side view.

14 shows a perspective view of a hitherto unknown or described embodiment of a clamping device. An eccentric cam (14) moved by a lever (15) is located inside or on a clamping element (8). By actuating the lever (15), the eccentric cam (14) is rotated and a rod or a tube (12) closed at the ends is displaced as a result. This creates tension between the tensioning elements (8), which is transferred to a base plate (4) and the sports board.

FIG. 15 shows the embodiment shown and described in FIG. 12 in a side view.

16 shows a hitherto unknown locking of the actuating device by permanent magnets (20) in a perspective view. The actuating device (6) is fixed in the basic position and, after rotation, in a clamping position by magnetic forces of the permanent magnets (20), so that there is no unintentional rotation and thus loss of tension. Furthermore, the permanent magnets (20) effectively minimize any vibrations of the actuating device.

FIG. 17 shows the embodiment shown and described in FIG. 16 in a side view.

FIG. 19 shows the embodiment shown and described in FIG. 18 in a side view.

Fig. 20 shows an embodiment of a clamping device with a pneumatic cylinder. A push rod (26) leads into a cylinder (25). The push rod and cylinder can be made of metal or plastic and filled with liquid or gas. Adjustment or blocking of the pneumatic cylinder is controlled by valves. In addition, the pneumatic cylinder can also be used to dampen the vibrations of a sports board.

21 shows a form of sealing the connection between the actuating device and the tensioning elements. An O-ring (27) is inserted into a corresponding groove (28) of the actuating device or push rod. The actuating device or push rod is pushed into the clamping elements (8) and stored there. The O-ring (27) protects the mechanism of the actuating elements and the clamping elements from the ingress of moisture and contamination.

Claims (14)

Patent claims: 1. Sportboard with two connecting means (11) arranged at a distance from one another on an upper side of the sportboard for connecting the sportboard to each foot of a user, and a handle arranged between the connecting means (11) in a central area of the sportboard and aligned in the longitudinal axis direction of the sportboard (51), characterized in that the handle (51) on two of the areas of the sports board in which the connecting means (11) are arranged longitudinally spaced at the center or near the center The connection points arranged on the sports board and the sports board are immovable is connected and comprises two tensioning elements (8) and an actuating device (2) arranged between the tensioning elements (8), the actuating device (2) being designed to apply shear stress to the sports board by means of the tensioning elements (8) transfer. 2. Sports board according to claim 1, characterized in that the handle (51) with the Sportboard is releasably connected. 3. Sportboard according to one of claims 1 or 2, characterized in that the The handle (51) is screwed to the sports board at the connection points. 4. Sports board according to one of claims 1 to 2, characterized in that the Handle (51) is magnetically connected to the sportboard. 5. Sportboard according to one of claims 1 to 2, characterized in that the The handle (51) is connected to the sports board by means of suction cups. 6. Sport board according to one of claims 1 to 5, characterized in that the actuating device (2) is rotatable and designed to apply the shear stress transmitted to the sport board by means of a rotation of the actuating device (2) vary. 7. Sports board according to claim 6, characterized in that the handle (51) has a ramp element with a ramp (5) which runs essentially normal to the longitudinal axis direction of the sports board and which rises in the longitudinal axis direction of the sports board, the ramp element with the actuating device (2) or one of the clamping elements (8) is non-rotatably connected, and the actuating device (2) or the clamping element (8) slides on the ramp (5) when the actuating device (2) is rotated. 20/21 (LAST SUBMITTED CLAIMS) 8. Sportboard according to claim 7, characterized in that the ramp element is formed integrally with the actuating device (2) and is arranged in an inner region (52) of the actuating device (2), the tensioning element (8) upon rotation of the Actuating device (2) slides on the ramp. 9. Sports board according to claim 8, characterized in that the clamping element (8) has a T-bolt (10) with a transverse bolt (6) aligned transversely to the longitudinal axis of the sports board, the transverse bolt (6) in the inner region (52) of the Actuating device (2) is arranged, and when the actuating device (2) rotates on the ramp (5) slides. 10. Sportboard according to claim 7, characterized in that the ramp element with the clamping element (8) is rotatably connected, and the actuating device (2) has a transverse bolt (6) which upon rotation of the actuating device (2) on the Ramp (5) slides. 11. Sportboard according to one of claims 9 or 10, characterized in that the ramp (5) has a first depression and a second depression (54) following the first depression (53) along the ramp (5). 12. Sport board according to one of claims 7 to 11, characterized in that the ramp element has a second ramp (5) which runs essentially normal to the longitudinal axis direction of the sports board and rises in the longitudinal axis direction of the sports board. having. 13. Sportboard according to claims 11 and 12, characterized in that the second ramp (5) has a first recess (53) and one along the ramp (5) on the first Depression (53) has the following second depression (54). 14. Sportboard according to one of claims 1 to 13, characterized in that the handle (51) has a locking device (20, 21, 22) which the Actuating device (2) locked in at least one of the clamping elements (8). 21/21 = (LAST SUBMITTED CLAIMS)