Patent Application
20240350884
The invention relates to a bicycle trainer stand comprising supporting means for supporting to a base, a lower support connected to the supporting means, and an upper support connected to the lower support, the upper support comprising fastening means for connecting to a bicycle, and the upper support being tiltable with respect to the lower support around an imaginary rotation axis, and the lower support being movable with respect to the supporting means in a direction perpendicular to said rotation axis, as well as first spring elements for subjecting the upper support to a force opposing the tilting. The invention also relates to a bicycle trainer device comprising a first trainer stand to be connected to the front fork of a bicycle, and a second trainer stand to be connected to the rear fork of the bicycle.
Racing cyclists and actively training recreational cyclists practise cycling not only outdoors but also indoors. For indoor workouts, many cyclists want to use a bicycle that is the same as, or at least similar to, the bicycle they ride outdoors, instead of a stationary exercise bicycle. For indoor training, the bicycle is fastened to a so-called bike trainer, whereby it remains safely in a vertical position during the exercise. During cycling outdoors along a road, the bicycle moves primarily forward but is also subjected to forces lateral to the direction of travel of the bicycle. These forces result from the cyclist's weight being borne by one of the two pedals after the other, from the tilting of the bicycle in the lateral direction when the position and the mass centre of the cyclist change during cycling, as well as from changes in the position of the handlebars when turning the bicycle. Moreover, cycling is different when riding either uphill or downhill instead of on a flat ground. Most bike trainers are rigidly fastened to the bicycle, whereby they do not enable tilting and/or a lateral movement of the bicycle during cycling. The rigid fastening of the bicycle to the bike trainer places a stress on the structures of the bicycle, particularly in the vicinity of the fastening points, and makes the cycling workout feel unnatural.
Document WO 2020/018930 A1 describes a bicycle trainer stand comprising a front translation mechanism to be fastened to the front fork of a bicycle, and a rear translation mechanism to be fastened to the rear fork. The translation mechanisms comprise a rail and a carriage movable along the rail. The bicycle fastened to the carriages is movable in the lateral direction along the rails. The movement of the carriages is controlled by a control device as well as by front and rear actuators which may be pneumatic or hydraulic actuators or linear motors.
Document US 2021/0146192 A1 describes a bicycle trainer stand comprising a bike trainer to be fastened to the rear fork of a bicycle. The document describes various mechanisms by which the bike trainer and the bicycle fastened to it are slightly movable in the longitudinal direction of the bicycle according to the movements of the rider.
Document U.S. Pat. No. 10,933,291 B2 describes a bicycle trainer comprising a front support assembly, on which the front fork of the bicycle is mounted, and a rear support assembly, on which the rear fork of the bicycle are mounted. The front fork mounted on the front support assembly can be moved in the longitudinal and transverse directions of the bicycle. A transverse motion of the front fork causes the frame of the bicycle to tilt sideways.
Document U.S. Pat. No. 10,974,118 B2 describes a bicycle trainer comprising a base to be placed against the ground, and a platform mounted above the base. The bicycle is rigidly supported to the platform. The platform can be moved with respect to the base in the longitudinal direction of the bicycle, tilted in a direction transverse to the longitudinal direction, and turned so that the longitudinal direction of the bicycle deviates from the longitudinal direction of the base. Cushion members are provided between the platform and the base, tending to return the platform to a position in alignment with the base.
In spite of the wide possibilities for the movement of the bicycle frame, a bicycle mounted on the trainers according to U.S. Ser. No. 10/933,291 B2 and U.S. Pat. No. 10,974,118 B2 still does not provide a riding experience comparable with a freely ridable bicycle.
It is an aim of the invention to present a bicycle trainer stand and a trainer device, whereby problems involved in the prior art can be reduced. The aims of the invention are achieved with a trainer stand and a trainer device which are characterized by what is presented in the independent claims. Some advantageous embodiments of the invention are presented in the dependent claims.
The invention relates to a bicycle trainer stand comprising supporting means for supporting to a base, a lower support connected to the supporting means, and an upper support connected to the lower support, wherein the upper support comprises fastening means for connecting to a bicycle. The upper support is tiltable with respect to the lower support around an imaginary rotation axis, and the trainer stand comprises first spring elements for subjecting the upper support to a force opposing the tilting. The lower support is movable with respect to the supporting means in a direction transverse to said rotation axis. The trainer stand comprises at least one first guide track, to which first guide track the lower support is fastened to be movable in the longitudinal direction of the guide track, as well as at least one second spring element opposing the movement of the lower support in the direction of the first guide track. The second spring element tends to return the lower support, displaced along the first guide track, to its initial position.
In a preferred embodiment of the trainer stand according to the invention, said first guide track is fastened at a first fastening point and a second fastening point to the supporting means so that the lower support is arranged between the first fastening point and the second fastening point. Preferably, said second spring element is a helical spring arranged around the first guide track and supported at its first end to the lower support and at its second end to said supporting means.
In another preferred embodiment of the trainer stand according to the invention, the force exerted by the first spring elements on the upper support and opposing tilting is adjustable. Preferably, the distance from the rotation axis to the first spring elements is adjustable. The effect of changing the distance between the rotation axis and the first spring elements on controlling the tilting of the upper support is similar to that obtained by changing the spring force opposing the tilting.
In yet another preferred embodiment of the trainer stand according to the invention, the first spring elements are elastic and compressible cushions between the lower support and the upper support.
In yet another preferred embodiment of the trainer stand according to the invention, said supporting means for supporting to the base comprise rollers, which rollers are arranged at the ends of said first guide tracks.
In yet another preferred embodiment of the trainer stand according to the invention, said supporting means for supporting to the base comprise a supporting frame with support legs to be placed against the ground, wherein said at least one first guide track is fastened to the supporting frame to be movable in a direction transverse to the longitudinal direction of the guide track. Supported by the support legs, the supporting frame is intended to be mounted on a horizontal base, such as a floor. Alternatively or in addition, said supporting frame may comprise fastening means for mounting to a substantially vertical plane or base.
In yet another preferred embodiment of the trainer stand according to the invention, said fastening means for fastening to a bicycle comprise a front shaft for fastening to the front fork of the bicycle. That is to say, this embodiment of the invention is intended to be fastened to the front fork of the bicycle, in place of the front wheel removed from the front fork. Preferably, it comprises a front resistance spaced from the front shaft, and a rear resistance, wherein the front resistance and the rear resistance are movable in a direction transverse to the longitudinal direction of the front shaft, and wherein the front fork can be fitted between the front resistance and the rear resistance.
In yet another preferred embodiment of the trainer stand according to the invention, the front shaft is fastened to the upper support to be rotatable around a vertical axis perpendicular to the front shaft. The rotation of the front shaft around the vertical axis makes it possible to turn the handlebars of the bicycle mounted on the trainer stand.
Yet another preferred embodiment of the trainer stand according to the invention comprises a bike trainer installed in the upper support, wherein the bike trainer comprises a rear shaft to be fastened to the rear fork of the bicycle. That is to say, this embodiment of the invention is intended to be fastened to the rear fork of the bicycle, in place of the rear wheel removed from the rear fork.
A bicycle trainer device according to the invention comprises a first trainer stand according to the above description, to be fastened to the front fork of a bicycle, and a second trainer stand to be fastened to the rear fork of the bicycle.
A preferred embodiment of the trainer device according to the invention further comprises a bicycle frame, a front fork fastened to said first trainer stand, and rear fork fastened to said second trainer stand.
The invention has the advantage that is increases the possibilities of movement of a bicycle mounted on the trainer stand, particularly in a direction transverse to the longitudinal direction of the bicycle, wherein the cycling workout corresponds better to cycling in nature.
Furthermore, the invention has the advantage of reducing forces and stresses on the frame of the bicycle mounted on the trainer stand and thereby reducing the risk of damage to the bicycle.
In the following, the invention will be described in detail. In the description, reference will be made to the appended drawings, in which
The supporting frame comprises two substantially parallel second guide tracks 42, to which a first guide track 16 is connected in such a way that the second guide tracks are substantially perpendicular to the first guide track. The first guide track and the second guide tracks are substantially identical metal pipes. At both ends, the first guide track is provided with a slidable fixing element 44 having a hole through which the respective second guide track extends. Inside the slidable fixing element, a bearing is provided which allows the slidable fixing element, and the first guide track fastened to it, to move along the second guide track. The bearing in the slidable fixing element may be a slide bearing, a ball bearing or, for example, a roller bearing implemented by means of plastic rollers. The first ends of the second guide tracks are connected by corner joint pieces 48 to the ends of a first support arm 46, and the second ends are connected by corner joint pieces to the ends of a second support arm 47. Support legs 28 are hinged to the corner joint pieces 48. Thanks to the hinged joint, the support legs can be turned to a passive position in a plane parallel to the first and second guide tracks, or to an active position, in which the support legs are substantially perpendicular to the direction of the first and second guide tracks. The support legs can be turned to the passive position, for example, for storage of the trainer stand. The supporting frame constitutes the supporting means for supporting the trainer stand on a horizontal base, such as a floor.
Two second spring elements 20 in the form of helical springs are arranged around each of the second guide tracks 42 so that one spring element is placed on each side of the slidable fixing element. The second spring element is thus supported at its first end to the slidable fixing element 44 and at its second end to the corner joint piece 48. The spring elements, i.e. helical springs, are dimensioned so that they are slightly compressed in the assembled supporting frame, whereby the spring force of the spring elements tends to keep the slidable fixing elements, provided at the ends of the first guide track, halfway along the length of the second guide tracks.
The upper support 14 (
The upper support fastened to the sliding support comprises a telescopic bar having an adjustable length. The bar comprises two nested tubular parts which can be fastened to each other by a locking screw 50 so that the bar has a desired length. At its first end, the bar is provided with two parallel lugs 54 and a plate-like stem 55 connecting them. The lugs are arranged on the sides of the sliding support and connected to the sliding support by a pin 56 extending through the lugs and the sliding support. The pin is placed on the imaginary central axis of the bar 53. The fastening by means of the pin and the lugs makes it possible for the bar 53 to tilt around the pin in either direction. A gap is provided between the substantially flat upper surface 51 of the sliding support and the stem 55, in which gap two first spring elements 18 are arranged so that the spring elements are placed on opposite sides of the imaginary central axis of the bar. The first spring elements are elastic cylindrical cushions made of a resilient material, preferably neoprene, rubber or silicone. The compressibility of the first spring elements allows limited tilting of the bar around the pin in either direction. By their spring force, however, the first spring elements tend to return the stem 55 and the upper surface 51 of the sliding support to a position where they are parallel to each other, whereby the bar is in a position perpendicular to the upper surface of the sliding support. In this embodiment of the trainer stand, the sliding support 52 constitutes a lower support, to which the upper support 14 is fastened to be tiltable around an imaginary rotation axis.
At the second end of the bar, two end plates are arranged on top of each other: a first end plate 58 and a second end plate 62. The first end plate is rigidly fastened to the second end of the bar 53, and the second end plate is fastened to the first end plate by a bolt 64 parallel to the bar in such a way that the second end plate can rotate around the bolt. On the rim of the second end plate, two parallel upper lugs 60 are provided, through which a front shaft 22 extends so that the ends of the front shaft protrude outside the space limited by the upper lugs. The free ends of the front shaft constitute first fastening means for fastening to the front fork 102 of the bicycle. The fastening of the second end plate 62 to the first end plate 58, implemented by means of the bolt 64, makes it possible to rotate the front fork, fastened to front shaft, around the bolt, that is, to turn the handlebars of the bicycle. A sensor 59 for measuring the rotation angle of the front shaft is installed in the first end plate.
A front resistance 34 is provided on the first side of the upper lugs, and a rear resistance 36 is provided on the second side. The front and rear resistances are substantially identical bar-like elements arranged parallel to and spaced from the front shaft 22. The front and rear resistances are fastened by their respective adjustment screws 61 to a plate connecting the upper lugs so that the front resistance and the rear resistance can be moved in the direction of the adjustment screw by turning the adjustment screw (
The embodiment comprises the supporting plate 6 shown in
In this embodiment, the rollers constitute supporting elements for supporting the trainer stand on a horizontal base, such as a floor. The first guide tracks are used as shafts, the rollers being installed at their ends. The lower beam 74 is used as a lower support which is fastened to the spacer plate 70 used as the upper support to be turnable around an imaginary rotation axis extending via the joint pins 76.
Two second spring elements 120 in the form of helical springs are arranged around the first guide tracks so that the sliding sleeve 45 is placed between the second spring elements. The second spring elements are slightly compressed between the roller 32 at the end of the first guide track and the sliding sleeve 45, whereby their spring force tends to keep the sliding sleeve 45 and the lower beam 74 halfway the length of the first guide track.
Two plate-like supporting brackets 78 are provided on each side surface of the lower beam. The supporting brackets on the same side of the lower beam are spaced from each other and from the ends of the lower beam in the longitudinal direction of the lower beam. The supporting brackets on opposite sides of the lower beam point away from the side surface of the lower beam and are aligned in the longitudinal direction of the lower beam. The supporting brackets are provided with a shaped plate-like spring support 80 having a section above the supporting bracket and a section below the supporting bracket. On top of the section above the spring support, a first spring element 118 is provided, which is slightly compressed between the spacer plate 70 and the supporting bracket 78. By their spring force, the spring elements tend to keep the spacer plate 70 and the supporting plate fastened to it substantially parallel to an imaginary plane extending via the first guide tracks 116. The first spring element shown in the figure is a cylindrical cushion made of an elastic material, such as neoprene, rubber or silicone.
The supporting brackets and the spacer plate 70 are provided with an elongate hole 84 extending in the longitudinal direction of the supporting bracket (holes of the supporting brackets are not shown in the figures). The first spring elements are fastened to the upper surface of the section on the lower side of the spring support 80 by a fastening bolt 82 (
A conventional bicycle used in road traffic, track cycling or mountain biking can be fastened to the bicycle trainer device according to the invention. The trainer device works best when a trainer stand according to the invention is fastened to each of the front fork and the rear fork of the bicycle, in place of the wheels of the bicycle. The trainer stands enable turning of the handlebars, tilting of the bicycle in the lateral direction, as well as a small lateral movement of the bicycle, so that a cycling workout corresponds very well to normal cycling. The device can also be applied in such a way that a trainer stand according to the invention is only fastened to either the front fork or the rear fork. The device can be used for cycling exercises for example in such a way that only the rear fork of the bicycle is fastened to a trainer stand according to the invention. In such a case, the front of the bicycle is supported to the base via the front wheel. Alternatively, only the front fork of the bicycle may be fastened to a trainer stand according to the invention, whereby the rear wheel of the bicycle may be supported to, for example, a pair of rollers resting on the base.
The trainer stand according to the invention, to be fastened to the front fork of the bicycle, may be equipped with fastening means for fastening it to a vertical plane, such as a wall, or a rail in a vertical position. A particular advantage of the fastening to a rail is that the distance of the trainer stand from the horizontal plane can be easily changed, which enables flexible training in cycling uphill and downhill.
Some advantageous embodiments of the trainer stand and the trainer device according to the invention have been described above. The invention is not limited to the solutions described above, but the inventive idea may be applied in different ways within the scope of the claims.
| Number | Date | Country | Kind |
|---|---|---|---|
| 20215769 | Jun 2021 | FI | national |
| Filing Document | Filing Date | Country | Kind |
|---|---|---|---|
| PCT/FI2022/050477 | 6/28/2022 | WO |
