Classifications

• • A—HUMAN NECESSITIES
  • A63—SPORTS; GAMES; AMUSEMENTS
  • A63B—APPARATUS FOR PHYSICAL TRAINING, GYMNASTICS, SWIMMING, CLIMBING, OR FENCING; BALL GAMES; TRAINING EQUIPMENT
  • A63B69/00—Training appliances or apparatus for special sports
  • A63B69/18—Training appliances or apparatus for special sports for skiing
• • A—HUMAN NECESSITIES
  • A63—SPORTS; GAMES; AMUSEMENTS
  • A63B—APPARATUS FOR PHYSICAL TRAINING, GYMNASTICS, SWIMMING, CLIMBING, OR FENCING; BALL GAMES; TRAINING EQUIPMENT
  • A63B22/00—Exercising apparatus specially adapted for conditioning the cardio-vascular system, for training agility or co-ordination of movements
  • A63B22/0048—Exercising apparatus specially adapted for conditioning the cardio-vascular system, for training agility or co-ordination of movements with cantilevered support elements pivoting about an axis
  • A63B22/0064—Exercising apparatus specially adapted for conditioning the cardio-vascular system, for training agility or co-ordination of movements with cantilevered support elements pivoting about an axis the pivoting movement being in a plane inclined with respect to the horizontal plane, e.g. a step and twist movement
• • A—HUMAN NECESSITIES
  • A63—SPORTS; GAMES; AMUSEMENTS
  • A63B—APPARATUS FOR PHYSICAL TRAINING, GYMNASTICS, SWIMMING, CLIMBING, OR FENCING; BALL GAMES; TRAINING EQUIPMENT
  • A63B22/00—Exercising apparatus specially adapted for conditioning the cardio-vascular system, for training agility or co-ordination of movements
  • A63B22/0025—Particular aspects relating to the orientation of movement paths of the limbs relative to the body; Relative relationship between the movements of the limbs
  • A63B2022/0033—Lower limbs performing together the same movement, e.g. on a single support element
• • A—HUMAN NECESSITIES
  • A63—SPORTS; GAMES; AMUSEMENTS
  • A63B—APPARATUS FOR PHYSICAL TRAINING, GYMNASTICS, SWIMMING, CLIMBING, OR FENCING; BALL GAMES; TRAINING EQUIPMENT
  • A63B21/00—Exercising apparatus for developing or strengthening the muscles or joints of the body by working against a counterforce, with or without measuring devices
  • A63B21/02—Exercising apparatus for developing or strengthening the muscles or joints of the body by working against a counterforce, with or without measuring devices using resilient force-resisters
• • A—HUMAN NECESSITIES
  • A63—SPORTS; GAMES; AMUSEMENTS
  • A63B—APPARATUS FOR PHYSICAL TRAINING, GYMNASTICS, SWIMMING, CLIMBING, OR FENCING; BALL GAMES; TRAINING EQUIPMENT
  • A63B22/00—Exercising apparatus specially adapted for conditioning the cardio-vascular system, for training agility or co-ordination of movements
  • A63B22/0046—Details of the support elements or their connection to the exercising apparatus, e.g. adjustment of size or orientation
• • A—HUMAN NECESSITIES
  • A63—SPORTS; GAMES; AMUSEMENTS
  • A63B—APPARATUS FOR PHYSICAL TRAINING, GYMNASTICS, SWIMMING, CLIMBING, OR FENCING; BALL GAMES; TRAINING EQUIPMENT
  • A63B22/00—Exercising apparatus specially adapted for conditioning the cardio-vascular system, for training agility or co-ordination of movements
  • A63B22/14—Platforms for reciprocating rotating motion about a vertical axis, e.g. axis through the middle of the platform
• • A—HUMAN NECESSITIES
  • A63—SPORTS; GAMES; AMUSEMENTS
  • A63B—APPARATUS FOR PHYSICAL TRAINING, GYMNASTICS, SWIMMING, CLIMBING, OR FENCING; BALL GAMES; TRAINING EQUIPMENT
  • A63B22/00—Exercising apparatus specially adapted for conditioning the cardio-vascular system, for training agility or co-ordination of movements
  • A63B22/16—Platforms for rocking motion about a horizontal axis, e.g. axis through the middle of the platform; Balancing drums; Balancing boards or the like
• • A—HUMAN NECESSITIES
  • A63—SPORTS; GAMES; AMUSEMENTS
  • A63B—APPARATUS FOR PHYSICAL TRAINING, GYMNASTICS, SWIMMING, CLIMBING, OR FENCING; BALL GAMES; TRAINING EQUIPMENT
  • A63B2225/00—Miscellaneous features of sport apparatus, devices or equipment
  • A63B2225/09—Adjustable dimensions
  • A63B2225/093—Height

Definitions

• the present invention relates to a training device to be used for training in the activity of skiing and more in particular for learning and perfecting the techniques necessary for the speciality of slalom.
• slalom is certainly one of the most difficult to practise since it entails learning a particular technique.
• the basic feature of this technique consists in applying different levels of pressure on the skis to control the direction and acceleration.
• the skier exerts a certain pressure on the internal edge of the ski so that this will assume a curvature inwards, which enables the skier to change direction.
• the skier hence has to apply weight on the outer ski, at the same time taking weight off the inner one.
• the skier can advantageously repeat the process in the other direction, thus turning in the opposite direction.
• the radius and speed at which the turn is made depend upon the inclination, the pressure exerted on the skis, and obviously the conditions of the snow.
• the above training devices comprise a supporting structure, mounted on which are two mobile platforms, which define a resting surface for the feet of a user.
• the platform is rendered mobile through a plurality of kinematic chains that allow one or more degrees of freedom, with respect to the structure, in order to enable the skier to simulate some of the movements typical of slalom.
• the device in question comprises a pair of ski-shaped elements supported at the back by an adjustable support and at the front by a slide rendered mobile along a horizontal guide.
• the adjustable support provides an inclination upon the ski-shaped elements such that it basically simulates a slope, whilst reaching of the end-of-travel position by the slide has the aim - or at least this is the intention, though not satisfactorily realized - of enabling the user to simulate the position for performing the turn.
• the device just described presents evident functional limits in so far as its structure is rather “rigid” since its parts are provided with an insufficient number of degrees of freedom to reproduce correctly the position that a skier has to assume during slalom.
• the guide since the guide is clearly horizontal, it does not enable the skier to incline his legs correctly with respect to his trunk when the slide reaches the end-of-travel position.
• the ski-shaped elements assume the same inclination, so "inducing" the skier to apply thereon identical pressures.
• said device does not enable the skier to exercise properly in changing inclination of his legs, i.e., in performing the movement that he has to perform during slalom to make two turns in succession.
• the patent application No. US 4880226 relates, instead, to a training device, which comprises a frame that defines an opening set inside which is a supporting disk.
• the latter is suspended from the frame by means of a plurality of elastic springs and comprises a pair of openings aimed at receiving platforms, which are shaped like a sole and are able to rotate about an axis parallel to the direction in which the platforms themselves develop.
• a parallelogram linkage is provided underneath the disk between the two platforms in order to enable them to move simultaneously.
• the device is completed by a damping element connected between the disk and the platforms in order to provide a force of contrast that opposes rotation of the platforms. From the functional standpoint, this device affords the user a greater number of degrees of freedom as compared to the device of the previous example, in particular favouring lateral displacements and front and rear inclinations of the trunk.
• this structural constraint does not allow the user to assume the most correct positions to perform change of slope. If, in fact, on the one hand, the modern technique of skiing requires a parallelism between the skis (evaluated with respect to an axis orthogonal to the plane of sliding of the skis), on the other hand it in any case requires the user to incline the skis differently along their longitudinal axis. In the example cited, this latter possibility is evidently not allowed.
• the patent applications Nos. US 5374228 and US 5496239 relate to a second type of training devices for skiers.
• said devices basically comprise, a frame, which supports a pair of ski-shaped elements, the rear ends of which rest on a mobile support set slidably on a curved guide defined by a rear part of the frame.
• the front ends of the ski-shaped elements are, instead, pivoted on a front support that is physically connected to the rear one to complete the frame.
• a grip is provided to be gripped by the user once he places his feet on the ski-shaped elements.
• the user exploiting the grips and the mobile support, pushes himself alternately from one end to the other of the curved guide, simulating, also in this case, a turn to the right and a turn to the left.
• said latter devices in most of the variant embodiments thereof, are partially effective only for muscular training, but disadvantageously lead the athlete to assume, during exercise, a position that is quite distant from the ideal one for slalom.
• the skier is frequently tempted to move along the curved guide by exploiting not only his legs but also his arms in view of the inviting position of the grips. This is in marked contrast with what is required for making a descent on a ski run, where the skier grips the sticks, which purely have the purpose of providing a rest, given that displacement should be determined exclusively by movement of the legs and by inclination of the trunk.
• the above type of devices moreover tends disadvantageously to "direct" the athlete towards a lateral sliding that is too accentuated during simulation of the turn, basically accustoming him to concentrating on the torsion of his legs to create sliding instead of focusing his attention on shifting his weight from one leg to the other when curving.
• the devices traditionally used for off-slope training of skiers do not allow the latter to maintain and/or improve their slalom technique.
• known devices do not put the user in the conditions of simulating the execution of the turn correctly, i.e., of assuming the correct inclination of his feet and legs.
• the traditional devices can be defined as normal gym-training equipment, which enable a skier to keep his lower limbs trained or to strengthen some of their muscles, but are such as not to enable the skier at all to maintain, correct, and/or improve the technique demanded by the discipline of slalom. Consequently, the main task of what forms the subject of the present invention is to provide a training device for skiing that enables the drawbacks referred to above to be overcome.
• a purpose of the present invention is to provide a training device for skiing that enables the user to learn, maintain, correct, and/or improve the slalom technique.
• a further purpose of the present invention is to provide a training device for skiing that will enable a user to practice assuming correct inclinations of his feet and legs in conformance with the ones required by slalom techniques.
• a training device for skiing that is characterized in that it comprises: a guide element turning mounted on a supporting structure, which defines a resting surface for the training device, said guide element defining an axis of translation for a slide slidably coupled thereto and being mounted on the supporting structure so as to preserve a first freedom of rotation about a first axis of rotation substantially parallel to the resting surface, said slide being coupled in a slidable way to the guide element for preserving a freedom of translation in the two directions of the axis of translation defined by the guide element; first elastic means, operatively set between the supporting structure and the guide element for counteracting said first freedom of rotation; second elastic means, operatively set between the guide element and the slide for counteracting the freedom of translation of the slide along the guide element; a first platform and a second platform, mounted on the slide (in such a way as) so as to preserve with respect thereto
• the structure of the training device according to the invention advantageously enables a dual motion of the slide, added to which is a dual movement of rotation of the platforms mounted on the slide itself to provide a rest for the user's feet.
• the dual motion of the slide is obtained through just one guide element mounted on the supporting structure so as to enable inclination during translation of the slide in order to provide a further movement to force the user to incline his legs and feet accordingly.
• Said dual motion of the slide in fact enables the user to exercise on changes of slope that are constantly present during a descent in particular during slalom.
• the two platforms by advantageously preserving two degrees of freedom of rotation with respect to the slide, enable the user to incline his feet in a different way similar to what he is forced to do during slalom for exerting different pressures on the skis, i.e., for correctly making a turn.
• Figure 1 is a first front view of a first embodiment of a training device according to the present invention.
• Figure 2 is a first lateral view of the training device illustrated in Figure 1;
• Figure 3 is a first plan view of the training device illustrated in Figures 1 and 2;
• Figure 4 is a second front view that illustrates some degrees of freedom of the training device according to the invention illustrated in Figures 1 to 3;
• Figure 5 is a second side view that illustrates other degrees of freedom of the training device according to the invention illustrated in Figures 1 to 3;
• Figure 6 is a second plan view that illustrates further degrees of freedom of the training device according to the invention illustrated in Figures 1 to 3.
• Figure 7 is a further plan view of a second embodiment of a training device according to the present invention.
• the training device 1 is characterized in that it comprises a supporting structure 2, which defines a resting surface 3 for the device 1 itself.
• a guide element 10 is turning mounted on the supporting structure 2 at a pre-set height H, from the resting surface 3, so as to define a rectilinear axis of translation 11 for sliding of a slide 20 coupled to said guide element 10.
• the slide 20 is coupled so as to preserve a freedom of translation 5 in the two directions defined by the first axis of translation 11 (see Figure 4). That wants to indicate the possibility for the slide 20 to displace from one end to the other of the guide element 10 i.e., from right to left and vice versa.
• the guide element 10 is mounted on the supporting structure 2, in the proximity of its middle part, so as to preserve, with respect to the structure itself, a first freedom of rotation 4A about a first axis of rotation 51 substantially parallel to the aforesaid resting surface 3 (see Figure 2).
• said freedom of rotation 4A is expressed in the two directions, this meaning that it can occur both in a clockwise direction that in a counterclockwise direction.
• the training device 1 comprises first elastic means 81 operatively set between the supporting structure 2 and the guide element 10 to counteract said first freedom of rotation 4A.
• the first elastic means 81 cause, according to their rigidity and operative position, rotation 4A of the guide element 10 between two end positions.
• the training device 1 further comprises second elastic means 82, operatively set between the guide element 10 and the slide 20 in order to contrast the freedom of translation 5 of the latter. More precisely, the second elastic means 82 are arranged in such a way as to limit translation of the slide 20 between two opposite end-of-travel positions, at the same time preventing the slide 20 from coming into contact with the terminal parts of the guide element 10.
• each platform 31 and 32 are mounted in an independent way on the slide 20 to provide a support surface for the user's feet.
• each platform 31 and 32 comprises a plane surface 33, which is designed to simulate the plane surface of the skis.
• this plane surface can be integrated with an attachment for "ski boots", in order to enable the user to practice on the training device 1 with the same boots that he normally wears during on-slope activity.
• first platform 31 and second platform 32 are mounted so as to preserve, with respect to the slide 20, a second freedom of rotation 4B (see Figure 6), respectively, about a second axis of rotation 52 and a third axis of rotation 53, which are parallel to one another and orthogonal to the axis of translation 11 of the slide 20 (see Figure 1).
• the first platform 31 and the second platform 32 are likewise mounted on the slide 20 so as to preserve, once again with respect to the latter, a third freedom of rotation 4C, respectively, about a fourth axis of rotation 54 and a fifth axis of rotation 55, which are substantially parallel to one another and orthogonal to said second axis of rotation 52 and to said third axis of rotation 53 (see Figures 3 and 4).
• said fourth axis 54 and fifth axis 55 are substantially orthogonal also to said axis of translation 11.
• the training device 1 further comprises third elastic means 83 A, 83B, which are set between the two platforms 31 and 32 and the slide 20 in order to contrast the second freedom of rotation 4B and third freedom of rotation 4C allowed to the platforms themselves. More precisely, the third elastic means 83A, 83B have the function of bringing the two platforms 31 and 32 back into a position of equilibrium with respect to the slide 20. Said position of equilibrium is to be considered as a position preferably assumed by the two platforms 31 and 32 when the training device is not being used.
• the training device 1 advantageously comprises connection means 38 for connecting the two platforms 31 and 32 together in such a way that rotation of the first platform 31 about the second axis of rotation 52 will bring about a corresponding rotation of the second platform 32 about the third axis of rotation 53 parallel, as has been said, to the second axis 52.
• the connection means 38 have the purpose of keeping the two platforms 3 Ie 32 parallel to one another during their rotation about the aforesaid second axis of rotation 52 and third axis of rotation 53 in order to train the user to keep his feet, and consequently his skis, parallel during the descent, as is required in particular in modern slalom techniques.
• the guide element 10 is preferably mounted on the supporting structure 2 so as to preserve also a fourth freedom of rotation 4D, with respect to the structure itself, about a sixth axis of rotation 56 substantially orthogonal to the aforesaid resting surface 3.
• the guide element 10 can rotate with respect to the supporting structure 2 both with respect to the first axis of rotation 51 and with respect to the sixth axis of rotation 56, which is substantially orthogonal to said first axis of rotation 51.
• the device 1 comprises also fourth elastic means 84 (see Figure 2) operatively set between the supporting structure 2 and the guide element 10 so as to contrast the fourth freedom of rotation 4D allowed to said guide element 10.
• this further freedom of rotation 4D allowed to the guide element 10, i.e., to the slide 20, enables the user to reproduce in a faithful way the movements that he has to perform during slalom in the proximity of a stake that delimits the slalom ski run.
• the latter advantageously comprises adjustable inclination means 9, which enable variation, when the device is not being used, of the inclination of the two platforms 31 and 32 with respect to the resting surface 3 and in particular the inclination of the plane surface 33 of said platforms.
• said adjustable means 9 enable an initial set-up of the training device 1 in order to enable the user to establish a priori the inclination of the plane surface 33 of the platforms 31 and 32 selecting a more or less accentuated inclination according, for example, to the characteristics of the slope on which the user will actually have to make the slalom descent.
• the adjustable-inclination means 9 perform their function, enabling a rotation of the guide element 10 about an axis substantially parallel to the axis of translation 11.
• the adjustable inclination means 9 could, for example, enable a variation of the inclination of the resting surface 3 and/or of the inclination of the two platforms 31 and 32 with respect to the slide 20.
• Figures 1 and 2 are, respectively, a front view and a side view of a training device 1 according to the present invention and show a possible embodiment of the guide element 10.
• this comprises a connection bracket 48, which enables connection thereof to the supporting structure 2 and supports one or more rectilinear guides 41, 42 that basically define the direction of the axis of translation 11.
• the guide element 10 comprises in a specific way a first guide 41 and a second guide 42 arranged parallel to one another and axially blocked in a position corresponding to their ends through a first flange 44 A and a second flange 44B, each of which is in turn connected to a terminal portion 49 ( Figures 1 and 4) of the connection bracket 48.
• the aforesaid adjustable inclination means 9 are operatively set between the terminal portions 49 of the connection bracket 48 and the flanges 44A and 44B of the guide element 10 in order to enable inclination of the guide element 10 with respect to the bracket itself, i.e., with respect to the supporting structure 2 connected thereto. More in particular, the adjustable inclination means 9 perform their function by enabling a rotation of the guide element 10 about an axis substantially parallel to the axis of translation 11, as indicated clearly by the arrow (with reference 18) in Figure 5. In this figure, the guide element 10 is represented in two possible operative configurations both considered with the device stationary.
• the first configuration (represented with a solid line) is distinguished by a substantially horizontal arrangement of the guide element 10, whilst the second (represented with a dashed line) shows the same element 10 inclined with respect to the horizontal position.
• the adjustable means 9 hence enable choice of the inclination of the guide element 10, and consequently of the slide 20 and of the platforms 31 and 32, in a range of possible angles defined between an initial position and a position of maximum inclination. Said choice is to be considered precisely as an operation of setting up the training device 1, which is carried out prior to use thereof.
• connection device 1 can advantageously comprise also resting means 19 set between the supporting structure 2 and the guide element 10 to render more stable the movement to which the same guide element 10 is subject as a result of rotation about the first axis of rotation 51 and about the sixth axis of rotation 56.
• said resting means 19 preferably comprise a pair of guides 19A connected to the supporting structure 2 on opposite sides with respect to the first axis of rotation 51 or the sixth axis of rotation 56.
• Each of these guides 19A defines a track for a rolling element 19B, such as, for example, a wheel, associated to a bottom part of the connection bracket 48 opposite to a top part, associated to which are the rectilinear guides 41 and 42.
• a rolling element 19B by rolling on a corresponding guide 19A, increases the stability of movement, at the same time providing a further point for discharging the stresses to which the guide element 10 is subjected.
• Figures 1 and 4 likewise show a possible embodiment of the first elastic means 81, which preferably comprise a pair of elastic dampers, which emerge from the supporting structure 2 on opposite sides with respect to the first axis of rotation 51 of the guide element 10.
• said damping elements enable the guide element to rotate in a symmetrical way about the first axis of rotation 51 basically describing opposite oscillations, but ones of the same amplitude.
• the amplitude of the oscillations is an inverse function of the rigidity of the dampers, and increases as said rigidity decreases.
• the guide element 10 is mounted on the supporting structure 2 via interposition of a connection arm 6 particularly visible in Figure 2.
• the supporting arm 6 comprises a first end 6 A and a second end 6B, which are operatively connected to the supporting structure 2 and to the guide element 10 through the hinge pairs.
• the first end 6 A is hinged to a terminal portion 7A of a leg 7 of the supporting structure 2 so as to define the sixth axis of rotation 56.
• the second end 6B is, instead, kinematically coupled to the connection bracket 48 through a hinge articulation in order to define the first axis of rotation 51.
• the slide 20 comprises a plurality of sliding bushings 21, each kinematically coupled to one of the rectilinear guides 41, 42 of the guide element 10.
• the slide 20 moreover comprises a plane plate 27, which is operatively connected to the bushings 21 to define a surface 13 of attachment for the two platforms 31 and 32 (see Figure 2).
• the slide 20 comprises a first pair of bushings 2 IA, kinematically coupled to the first rectilinear guide 41 and mutually connected together through a first plate 71.
• a second plate (not visible) connects, instead, one to another a second pair of bushings 2 IB, which are kinematically coupled to the second rectilinear guide 42.
• Said plates have the function of supporting the plate 27, which defines the resting surface 13 for the platforms and constitute advantageously a technological solution that renders the structure of the slide 20 particularly "light".
• Said structure could in any case assume other functionally equivalent configurations, all of which are hence to be considered as falling within the scope of the same inventive idea.
• Figure 3 likewise shows a possible configuration of the second elastic means 82A,82B prearranged for limiting movement of the slide 20 between two end-of-travel positions.
• said means preferably comprise a pair of elastic ropes 82A connected to said slide 20 on opposite sides.
• each of said elastic ropes 82A connects said slide 20 to one of the two flanges 44A,44B designed to block the two rectilinear guides 41 and 42 axially.
• the elastic ropes 82A perform an action of contrast against the translation movement of the slide 20.
• the second elastic means also comprise a pair of helical springs 82B, each of which associated to one of the two flanges 44A and 44B.
• Each helical spring 82B is arranged so as to surround (along its length) one of the two rectilinear guides 41 and 42. In this way, the helical springs 82B can perform an action of damping on the movement of the slide 20, preventing the latter from striking alternately the two flanges 44 A, 44B.
• the first platform 31 and the second platform 32 both comprise a first portion 45 coupled to the plane plate 27 through a first hinge connection. Said coupling physically defines the second axis of rotation 52 for the first platform 31, whilst in the case of the second platform 32 it defines the third axis of rotation 53 thereof.
• Each of the two platforms 31 and 32 likewise comprises a second portion 46 mobile with respect to the first portion 45 through a second hinge connection, which defines the fourth axis of rotation 54 in the case of the first platform 31 and the fifth axis of rotation 55 in the case of second platform 32.
• the third elastic means comprise a first pair of elastic elements 83 A, each of which is set between a first portion 45 of one of the platforms 31 and 32 and the plane plate 27 (see Figure 1).
• Said elastic elements 83A could be each constituted by a tension spring anchored at one end thereof to a platform 31 or 32 and at the opposite end to the plate 27.
• each elastic element 83A exerts on the first portion 45 of one of the platforms 31 or 32 a contrast force that tends to bring the platform back into a position of equilibrium with respect to the plate 27, as could be, for example, the one illustrated in Figure 1.
• connection means 38 which have the function of mutually constraining the platforms 31 and 32 in such a way that their rotation about the second axis of rotation 52 and the third axis of rotation 53, respectively, is synchronous.
• said connection means 38 are constituted by a pair of parallel rods, which connect the first portion 45 of the first platform 31 to the corresponding first portion 45 of the second platform 32.
• the use of the two rods keeps the rotation of the two platforms effectively synchronous, thus training the user to maintain his feet, and consequently his skis, parallel.
• the third elastic means likewise comprise a second pair of elastic elements 83B, such as, for example, a pair of torsion springs, each of which is set between a first portion 45 and a second portion 46 of one of the platforms 31 and 32 (see Figure 2).
• Each of the latter elastic elements 83B has the function of counteracting the third freedom of rotation 4C of one of the two platforms 31 or 32, exerting a force of contrast on its second portion 46, which tends to bring it back into a position of equilibrium with respect to the first portion 45 (see once again, by way of example, the position illustrated in Figure 1).
• the training device 1 comprises a mobile rod 99 simulating a stake moved through a drawing mechanism 95, operatively associated to the mobile slide 20.
• the drawing mechanism 95 acts so as to enable the stake 99 to assume a first position, when the slide 20 reaches, in its translation, an end-of-travel position, and a second position, when the guide element 10 assumes a position such that the axis of translation 11 is substantially parallel to the resting surface 3.
• the two positions assumed by the stake 99 are defined by the ends of a guide 92, mounted on the supporting structure 2 so as to face the resting surface 3 in order to define a direction of sliding 12 (see Figure 6) substantially orthogonal to the axis of translation 11 when the latter is considered in a position parallel to said resting surface 3.
• the presence of this mobile stake 99 bestows, in fact, a further functionality upon the training device 1 in so far as it allows the latter to reproduce in a way that is even more adherent to reality what occurs during slalom.
• the drawing mechanism 95 acts so as to bring the stake 99 up to the user in the same way in which the latter would approach a stake set on a slalom ski run.
• the stake 99 is located at the minimum distance from the user's legs (first reference position) and provides a useful reference to the latter for controlling, correcting, learning and keeping the correct position of his feet and legs. Instead, when the slide 20 is located in a central position (i.e., when the element 10 is substantially parallel to the resting surface 3), then the stake 99 is located at the maximum distance from the guide element 10, i.e., from the user's legs (second reference position).
• the drawing mechanism 95 comprises an elastic member 102 which is connected at one of its end to the stake 99 and at another end to a fixed point of the structure support (2).
• This fixed point can be formed, for example, by a protrusion of the guide 92 (see figure 3) or alternatively by another part of the supporting structure 2 (for example the grips following described).
• the elastic member 102 performs a continuous action on the stake 99 to bring back the same from the first towards the second reference position.
• the drawing mechanism 95 comprises a round bar 93, for example, made of metal material, which is bent so as to describe substantially a semicircle.
• Said round bar 93 comprises a first end 93A and a second end 93B, which are connected to the slide 20 on opposite sides considered along the direction of the axis of translation 11 (see plan view of Figure 3).
• the stake 99 comprises a grooved pulley 97, prearranged for being coupled in a slidable way to the round bar 93 and such as to be operatively located within the semicircle defined by the round bar 93.
• Operation of the drawing mechanism 95 can be understood from the plan view of Figure 6, marked in which are (with a dashed line) two opposite positions, with respect to the drawing axis 12, assumed by the round bar 93 following upon two corresponding opposite positions assumed by the slide 20.
• the round bar 93 since the round bar 93 is fixed with respect to the slide 20, it follows the movement thereof by drawing, as a result of its semicircular shape, the stake 99 in the drawing direction 12 between the first and second positions defined by the ends of the guide 92.
• the drawing mechanism 95 comprises a flexible cord 106 which replace functionally the round bar 93 of the previous embodiment.
• opposite ends 106A,106B of the flexible cord 106 are connected to the slide 20 on opposite sides considered along the direction of the axis of translation 11.
• a cross plate 108 is connected to the guide 92 so as to be substantially perpendicular to the direction of sliding 12 of the stake 99.
• a pair of rollers 109 are mounted on opposite sides of the cross plate 108 so as to provide bending point for the flexible cord 106.
• the rollers 109 have the function to maintain stretched the cord 106 when the slide 20 moves towards one of its end position (corresponding to the first reference position of the stake 99).
• the training device 1 advantageously comprises a first grip 64A and a second grip 64B designed to be gripped by the user during use of the device itself.
• said grips 64A, 64B have the function of simulating what is normally allowed by the sticks used by a skier for maintaining equilibrium during descent on the ski run.
• the grips 64A, 64B are each defined at a top end of a first rod 65 and of a second rod 65B connected to the supporting structure 2 in such a way as to develop according to a direction substantially orthogonal to the resting surface 3.
• each rod 65 A, 65B is connected to the supporting structure 2 in an adjustable way in order to vary the height Hl of the grips according to the requirements.
• the bottom end of each rod 65 A, 65B is telescopically inserted in a seat defined by a hollow support associated to the supporting structure 2.
• each rod 65 A, 65B is bent at the top in such a way that the grips 64A, 64B are inclined with respect to the vertical.
• This characteristic is advantageous in training the user to maintain a position of his body projecting forwards, which is indispensable during descent in order to prevent falls due to his centre of gravity remaining too far back.
• falling within the scope of the inventive idea is the possibility of making the rods 45 vertical throughout their length, as likewise the possibility for the latter not to be adjustable in height.
• the training device described clearly presents a prevalently mechanical structure, which could, however, be integrated by an electronic component in a further embodiment.
• the training device could comprise a plurality of sensors designed to generate a series of signals that are to be sent to a control unit. These signals could regard, for example, positions, speeds or forces assumed or performed by the mobile parts of the training device 1 and, once processed by the control unit, could advantageously provide useful information on the angles of inclination or the efforts exerted by the user during the exercise.
• the control unit could also be used in a more complex control, for example aimed at use of a virtual display that stimulates a slalom ski run.
• the control unit could likewise enable an automatic movement of the reference stake 99 to provide an alternative embodiment to the drawing system described above.
• the technical solutions adopted for the training device according to the invention enable the pre-set tasks and purposes to be fully achieved.
• the device proves particularly effective by virtue of its structure, which enables a user to learn, improve, and practice the technique necessary for skiing and in particular the one linked to the discipline of slalom.
• the training device 1 enables the user to train and particularly to train his legs to the change of slope by correcting possible setting errors.
• the training device thus conceived proves moreover particularly reliable by virtue of its structure made up of a relatively contained number of elements that can be readily assembled together at contained costs.
• the materials used, as well as the corresponding dimensions and shapes may be any whatsoever according to the requirements and the state of the art.

Landscapes

• Health & Medical Sciences (AREA)
• General Health & Medical Sciences (AREA)
• Physical Education & Sports Medicine (AREA)
• Cardiology (AREA)
• Vascular Medicine (AREA)
• Rehabilitation Tools (AREA)

Applications Claiming Priority (2)

Publications (1)

Family

ID=38230186

Family Applications (1)

Country Status (3)

Families Citing this family (5)

Family Cites Families (8)

• 2006
  • 2006-10-18 IT ITBG20060056 patent/ITBG20060056A1/it unknown
  • 2006-12-18 EP EP06841433A patent/EP2089123A1/en not_active Withdrawn
  • 2006-12-18 WO PCT/EP2006/069867 patent/WO2008046455A1/en active Application Filing

Non-Patent Citations (1)

Also Published As

Similar Documents

Legal Events