ES1239769U - SPORTS TRAINING DEVICE (Machine-translation by Google Translate, not legally binding) - Google Patents

Abstract

An apparatus (1), for sports training by means of a table (9) comprising: - a tubular structure (2) of length (L) and diameter (D), rotating with a rotation speed (V) by the action of a drive element (3) with respect to a support (4) lifting the structure tubular (2), where - the tubular structure (2) comprises open lateral ends (2b, 2c) and an inner face (2a), where the entire surface of the inner face (2a) is covered by a sliding material (5), being - the speed of rotation (V) of the tubular structure (2) variable and adjustable by a user. (Machine-translation by Google Translate, not legally binding)

Description

DESCRIPTION

TO PARATO FOR SPORTS TRAINING

Technical sector

The invention relates to a sports training apparatus, for the practice of sports such as surfing or skiing, that is to say sliding sports that require a sliding surface.

State of the art

In the market there are different alternatives to the practice of sliding sports, both in natural and artificial or covered environments. These alternatives try to simulate surfing on the beach, skiing or snowboarding in the mountains.

An example is the large earrings made artificially. They are generated from a natural or artificial projection to which artificially produced snow is added. In this way, the surface is prepared to be skiable. These slopes, made of artificial snow, must be constructed using a material that allows sliding to be skiable. For the snow generation, a large indoor or outdoor space, a large energy consumption and a large amount of material that generates artificial snow are required. So the implementation price is very high. In addition a ski lift system will be necessary and many permits may be required.

Another type of earrings, are those created artificially inside a pool. In the latter case, water is pumped from the pool to the top of the slope, generating a surf wave static for the user who is in the intermediate area of the slope. These slopes mentioned above, also require a large indoor or outdoor space, a large amount of water and a large energy consumption so the implementation price is very high.

Like the large pools of water in which an “artificial” wave occurs That is surfing. However, this alternative needs a lot of water, a lot of land or surface, and considerable electricity consumption. In addition the cost of implementation can be very high.

Another alternative to those mentioned, for training sports such as surfing or snowboarding, are the small ramps in which a tape is movable in a closed loop with respect to the structure. That is, it moves up, while the user tends to lower the slope, so that a relative movement is achieved that allows a very basic slide and with little possibility of turning the user.

Therefore, it is an object of the invention an apparatus for sports training, which allows you to enjoy the sensation of sliding sports, such as surfing or skiing in a lower cost installation and implementation facility.

Brief Description of the Invention

The object of the invention is a sports training apparatus, for sports such as surfing, skiing or snowboarding where a board is necessary. The apparatus of the invention comprises a tubular structure with a length and diameter capable of housing a standing person. In addition, the tubular structure comprises open lateral ends and is rotatable by the action of a drive element. The tubular structure is on a lifting support, which allows the tubular structure to rotate. In addition, the tubular structure comprises an inner face, which comprises the entire surface covered by a sliding material.

The drive element that rotates the tubular structure generates a variable and adjustable rotation speed by a user. This allows you to simulate the different speeds of a wave or snow.

The rotation of the cylindrical tubular structure generates a sensation in the interior of the structure that is comparable to surfing a wave or snowboarding. In addition, as long as the engine continues to run, the sensation will be of an infinite wave or track. In order to use the invention and practice simulation, the user needs a board attached to his feet similar to that of Snowboard but shorter.

The sliding material inside the cylindrical tube is fixed to the entire inner surface of the tube, so that it allows the lower surface of the user's board to slide throughout the interior of the tube when the structure is rotating. This way you get the feeling of surfing or skiing.

For all the above, it is observed that the training apparatus of the invention due to its simplicity, has a lower cost than the current alternatives. It is because the installation is possible in a smaller enclosure and requires less power consumption to turn the tube than is necessary to pump water or generate artificial snow in the mentioned alternatives.

Brief description of the figures

The details of the invention can be seen in the accompanying figures, not intended to be limiting of the scope of the invention:

- Figure 1 shows the training apparatus of the invention.

- Figure 2 shows the rotating tubular structure with the sliding material and the user inside.

- Figure 3 shows the table necessary for training in the apparatus of the invention.

- Figure 4 shows a diagram of the user's movement inside the training apparatus.

Detailed description of the invention

The object of the invention is a sports training apparatus (1), which allows to practice sliding sports in which it slides on a board (9), such as surfing, snowboarding or skiing.

As seen in Figure 1, the apparatus (1) comprises at least one tubular structure (2) of length (L) and diameter (D), with lateral ends (2b, 2c) open. The tubular structure (2) is rotatable with a rotation speed (V) and is driven by a drive element (3). Additionally, the tubular structure (2) comprises a support (4) that elevates it from the ground, allowing the tubular structure (2) to rotate without opposing the friction of the ground.

The tubular structure (2) is characterized in that it comprises a variable turning speed (V) and an inner surface (2a) comprising a sliding material (5) fixed to the inner surface (2a) of the tubular structure (2). Preferably, the fixing of the sliding material (5) is carried out by using a strong glue.

Additionally, in Figure 1, the drive element (3) comprises a motor (6a) and a speed variator (6b), where the connection between the tubular structure (2) and the motor (6a) is by means of rollers ( 7, 8) of the support (4). The rollers (7, 8) are located on support parts (4a, 4b) at the ends (2b, 2c) of the tubular structure (2). The rollers (7, 8) are in direct contact with the tubular structure (2) and connected to the drive element (3). Specifically, the roller (7) is driven by the motor (6a) generating a friction on the tubular structure that generates the rotation of the tubular structure (2) and the roller (8) allows regular rotating movement of the tubular structure (2) by friction exerted by the tubular structure (2) on the roller (8).

Preferably, the sliding material (5) seen in Figure 2, on the inner surface (2a) of the tubular structure (2) is a material already used by some manufacturers in artificial ski resorts, the material being a type of Synthetic grass composed of polymers with slippery, non-slip and generally soft properties. The sliding material (5) is capable of allowing the board (9) and the user (12) to slide on the inner surface (2a) of the tubular structure (2). These characteristics are intended to make the sliding material (5) capable of causing friction with the board (9), to allow the user (12) by means of the board (9) to make non-linear turns and movements such as those performed in surfing or snow.

To use the training apparatus (1) of the invention it is necessary to use a table (9) capable of sliding on different surfaces as shown in the embodiment of Figure 3. The table (9) comprises an upper surface (9a), where It comprises fixings (10) that fit the user's feet (12), as well as a snowboard but of shorter length. In addition, the board (9), like a snowboard, comprises a lower surface (9b) that has the ability to slide on the sliding material (5) of the inner surface (2a) of the tubular structure (2) . The table (9) also comprises at least one edge (11) that allows greater friction to be generated with the inner surface (2a) of the tubular structure (2) so that the user (12) can make lateral slides on the inner surface (2nd). The edge (11) is defined by the surface limit of the surfaces (9a, 9b) of the table (9).

As seen in the embodiment of Figure 4, the apparatus (1) of the invention rotates with a rotation speed (V), generated by the electric motor (6a) of the drive element (3) which varies by means of the speed variator action (6b). The motor (6a), by continuously rotating the roller (7), rotates the tubular structure (2) and manages to generate the sensation of an infinite snow wave or track. In addition, the speed variator (6b), allows to establish different speeds so that it is possible to simulate the different shapes and conditions of waves and snow. Thus allowing to adjust the parameters that comprise a wave to the user's pleasure (12), only varying the speed (V) of the tubular structure (2). That is, at a higher speed (V) of the tubular structure (2), the user (12) will be able to climb the inner surface (2a) of the tube through the table (9), generating a simulation of a wave of greater height.

Optionally, in a different embodiment the rollers (7, 8) can also be cogwheels, comprising protrusions along the entire perimeter, which are defined as teeth. The outer surface of the tubular structure (2) must be irregular and configured to accommodate the teeth of the sprockets. In this way, by turning the gearwheel by means of the motor (6a), the tooth fits into the outer surface of the tubular structure (2) and rotates it.

As seen in the embodiment of Figure 4, the operation of the apparatus (1) is based on the fact that initially the tubular structure (2) is at rest. It is at that time, when the user (12) is introduced into the tubular structure (2) by one of the two open sides (2b, 2c). Once inside the tubular structure (2), the user (12) fixes the board (9) on the feet by means of the fixings (10).

Then, the tubular structure (2) is put into operation by means of the drive element (3) and the tubular structure (2) begins to rotate. First, the electric motor (6a) is turned on and the speed variator (V) of the tubular structure (2) will accelerate using the speed variator (6b) to a rotation speed (V) desired by the user (12) . This speed of rotation (V) can be varied by means of the speed variator (6b) depending on the wishes and / or user experience (12), thus allowing the device (1) to be used by expert users (12) and inexperienced

Once the device (1) is running, there is a rotation speed (V), in which if the user (12) does not make any rotation with the table (9), a situation of equilibrium and relative speed is achieved. Thanks to the turning action of the tubular structure (2), the user (12) goes up the inner surface (2a) to an equilibrium point generated by the user's weight (12), the turning speed (V) and the friction of the board (9) on the inner surface (2a) of the tubular structure (2). According to this phenomenon, an observer external to the apparatus (1) would observe how the user (12) is immobile and the inner surface (2a) of the tubular structure (2) passes under the user (12) without moving it.

In the same situation above, in which the tubular structure (2) rotates at the speed of rotation (V) desired by the user (12), if the user (12) makes a lateral rotation with the table (9) by means of the pressure of the edge (11) on the inner surface (2a), the edge (11) of the table (9) generates friction against the inner surface (2a) of the tubular structure (2) which allows it to take more speed. That is, friction allows the user (12) to climb the inner surface (2a) and move laterally along the length (L) of the inner surface (2a) of the tubular structure (2). At this time, it is when the user (12) experiences the sensation of surfing an infinite wave or snowboarding on an infinite track. Getting a fun and sensations very similar to the real performance of the aforementioned sports.

Finally, when the user (12) no longer wants to continue or has fallen, the drive element (3) is stopped and the tubular structure (2) is braked until it stops completely, allowing the user (12) to exit the device ( 1) by the lateral ends (2b, 2c) of the tubular structure (2).

In addition, in case the user (12) is an expert, it is possible that the user (12) enters the tubular structure (2) while the tubular structure (2) is rotating, so that it manages to make turns throughout the entire length (L) of the tubular structure (2) and for longer.

Optionally, the tubular structure (2) of the apparatus comprises a diameter (D) between 3 and 6 meters and a length (L) between 6 and 12 meters. On the one hand, the diameter (D) is necessary, since only a quarter of the total circumference is used as seen in Figure 4. That is, the user (12) slides only by a quarter of the bottom of the inner surface (2a) of the tubular structure (2). For example, a diameter (D) of 3 meters generates a simulation of a wave of 1.5 meters. On the other hand, the length (L) is important since the movement of the user is going to be from one side end (2c) to another side end (2b) of the tubular structure (2). That is to say that to greater dimensions, greater surface of exploitation.

The user can decide which side end to enter or make the side end slide, in this way the sensation of a wave is achieved on the left and also on the right.

Claims (7)

1. An apparatus (1), for sports training by means of a table (9) comprising: - a tubular structure (2) of length (L) and diameter (D), rotating with a turning speed (V) by the action of a drive element (3) with respect to a support (4) lifting the structure tubular (2), where - the tubular structure (2) comprises open lateral ends (2b, 2c) and an inner face (2a), where the entire surface of the inner face (2a) is covered by a sliding material (5), being - the speed of rotation (V) of the tubular structure (2) variable and adjustable by a user. 2. An apparatus (1) for sports training according to claim 1, wherein the drive element (3) comprises an electric motor (6a) regulated by a speed variator (6b). 3. An apparatus (1) for sports training according to claim 1, wherein the sliding material (5) is a synthetic material composed of polymers with slippery, non-slip and generally soft properties. 4. An apparatus (1) for sports training according to claim 1, wherein the support (4) is divided into at least two parts (4a, 4b), located at the ends (2b, 2c) of the tubular structure ( two). 5. An apparatus (1) for sports training, according to claim 4, wherein the supports (4a, 4b) of the ends (2b, 2c) comprise rollers (7, 8) for transmitting the movement of the motor (6a) to the tubular structure (2). 6. An apparatus (1) according to claim 1, wherein the diameter (D) of the tubular structure (2) is between 3 and 6 meters. 7. An apparatus (1) according to claim 1, wherein the length (L) of the Tubular structure (2) is between 6 and 12 meters.