RU88566U1 - BIKE - HORSE RIDING SIMULATOR - Google Patents

Abstract

1. Exercise bike - a simulator of riding a horse, containing a frame, a saddle mounted on it, a steering wheel and wheels with a rotation drive, characterized in that it is equipped with at least one device for adjustable displacement of the axis of rotation of the wheel in its plane mounted on axis of rotation of at least one wheel comprising a housing with a through hole in the shape of a parallelepiped, a sleeve made in the form of a parallelepiped corresponding to the shape of the opening of the housing and mounted in the housing of the device with the possibility of movement in housing holes, as in guides. ! 2. The exercise bike according to claim 1, characterized in that the casing of the device for adjustable displacement of the axis of rotation of the wheel in its plane is fixed in the wheel using mechanical connections. ! 3. The exercise bike according to claim 1, characterized in that the wheel is made in the form of a disk, the housing of the device for adjustable displacement of the axis of rotation of the wheel is made in one piece with the wheel disk. ! 4. The exercise bike according to claim 3, characterized in that between the short ends of the casing of the device for adjustable displacement of the axis of rotation of the wheel and the wheel rim are made through technological holes to enable manual displacement of the wheel axis. ! 5. The exercise bike according to claim 1, characterized in that the movement of the sleeve in the hole of the housing is carried out using screws that abut their ends against blind holes made in the lateral planes of the sleeve, and the screw thread enters the corresponding threaded through holes made in the short ends of the housing . ! 6. The exercise bike according to claim 1, characterized in that the elements fixing it in the hole are attached to the front plane of the sleeve

Description

The utility model relates to vehicles and can be used as a bicycle and a simulator for riding, with spa treatment and rehabilitation treatment for training the vestibular apparatus, etc., and also as an attraction.

A simulator is known for competitors according to the copyright certificate of Russia No. 588994, А63В 69/04, containing a model of a horse’s body mounted on the base, bearing a saddle for placing a competitor, and means for communicating the model of movement in two mutually perpendicular directions in a vertical plane to simulate the horse’s natural gait.

The disadvantage is the inability to use it as a bicycle, since the design is stationary, which narrows the operational capabilities.

A bicycle is also known according to the copyright certificate of Russia No. 1366440, B62M 1/02, B62K 3/00, adopted as a prototype and containing a frame, a saddle, a wheel, wheels with pedals of rotation drive mounted on it. The seat is mounted on the rocker arm. The pedals are mounted on long levers, providing the ability to use the efforts of the driver standing on the pedals. These driver efforts are similar to those made by a rider on a galloping horse, standing in stirrups.

However, in the role of a simulator to simulate horse riding, the design provides only one option for the horse to move when the rider is standing on stirrups, which limits its operational capabilities. When using a bicycle for its intended purpose, its speed is slow and it is difficult to set it in motion at the initial time, since the device uses a complex and heavier construction of a wheel rotation drive with heavy long levers that is not traditional for bicycles.

The disadvantage is the distance between the pedals and the saddle, the frame with the pedals and the steering wheel, which constantly changes when driving, which creates an additional load.

In addition, the disadvantage is the large number of small parts, assemblies and connections between them, the complex and bulky design of the saddle to the frame, the drive unit and the supporting arc of the panels. All this complicates and complicates the design as a whole, which reduces its reliability and complicates maintenance.

Finally, the rider’s movements on the bicycle do not differ in a wide variety of oscillatory movements and are not of interest as an attraction.

The objective of the utility model is to eliminate the above disadvantages, expand operational capabilities and simplify the design, increasing its reliability.

An exercise bike - a simulator of riding a horse, contains a frame, a saddle, a steering wheel, and wheels with a rotation drive mounted on it.

Unlike the prototype, it is equipped with at least one device for adjustable displacement of the axis of rotation of the wheel in its plane, mounted on the axis of rotation of at least one wheel, comprising a housing with a through hole in the shape of a parallelepiped, a sleeve made in the form of a parallelepiped corresponding to the shape of the opening of the housing and installed in the housing of the device with the possibility of movement in the opening of the housing, as in the guides.

The casing of the device for adjustable displacement of the axis of rotation of the wheel in its plane is fixed in the wheel using mechanical connections.

The wheel is made in the form of a disk, the housing of the device for adjustable displacement of the axis of rotation of the wheel is made in one piece with the wheel disk. Between the short ends of the casing of the device for adjustable displacement of the axis of rotation of the wheel and the rim of the wheel, through technological holes are made to enable manual displacement of the wheel axis.

The movement of the sleeve in the hole of the housing is carried out using screws that abut against their ends in blind holes made on the side planes of the sleeve, and the screw thread enters the corresponding threaded through holes made in the short ends of the housing.

Elements are fixed to the front plane of the sleeve, fixing it in the opening of the housing.

Providing the exercise bike with a device for adjustable displacement of the axis of rotation of the wheel in its plane, mounted on the axis of rotation of at least one wheel, allows, if necessary, to convert each wheel into an eccentric with an adjustable eccentricity value (from zero to the maximum value) determined by the length (long side) of the housing opening in the plane of the wheel. At the same time, the geometric shape of the wheels does not change, and the movements of the rider when riding on a flat surface will be similar to the movements of a rider on a horse during horse riding. You can vary the displacement of the axes of rotation of both wheels by the same distance or different. This will provide a change in the amplitude of oscillations of the axis of rotation of both wheels over a wide range, which will expand the ability to simulate different horse gait when riding. In addition, the axis of rotation of the wheels can make eccentric movements independently of each other (both the same and different). The magnitude of the eccentricity depends on the distance of the axes of rotation of the wheels from the geometric center of the wheels. The axis of rotation of the wheel makes elliptical movements, the exercise bike - sinusoidal. A wide variety of oscillatory movements also increases the entertainment and interest when using the device as an attraction and for therapeutic purposes, training the vestibular apparatus and more. This extends operational capabilities.

The execution of the sleeve in the form corresponding to the shape of the hole of the housing of the device for adjustable displacement of the axis of rotation of the wheel, provides reliable and convenient movement of it along the length of this hole.

The supply of the sleeve with screws from both ends, screwed with their threaded part into the threads of the corresponding ends of the housing and abutting the ends against the ends of the blind holes on the lateral planes of the sleeve, will ensure free rotation of the sleeve along with the axis of rotation of the wheel along the length of the housing bore when the screws rotate. The design provides the ability to rotate the screws manually for their head (lamb) without the use of improvised means. The forces applied to the screws are small, and technological holes between the ends of the housing having threaded holes and the wheel rim provide convenient access to them. These holes also facilitate the design of the wheel when it is made in the form of a disk.

When performing the device for the adjustable displacement of the axis of rotation of the wheel in one piece with the wheel disk, a thickening is made in the middle part of the disk, which is the case of the device in which the sleeve is installed. To make the disc easier, the wheels can be cut apart from technological holes and other holes.

The use of mechanical connections, such as knitting needles, for mounting the device casing for adjustable displacement of the axis of rotation of the wheel in its plane is another embodiment of the wheel and facilitates its construction.

Elements in the form of plates attached to the front plane of the hub securely fix it in the hole of the housing, excluding displacement in the plane perpendicular to the plane of the wheel and are limiting guides when moving the hub with the axis of rotation of the wheel. This increases the reliability of the design.

The inventive device has a small number of parts and assemblies of simple shape with small dimensions and simple connections between them, for example, using screws, which facilitates, simplifies the design, increasing its reliability, and also simplifies maintenance.

Thus, all the claimed features are significant and solve the problem.

The invention is presented in the drawings.

Figure 1 Exercise bike - a simulator of riding a horse. General form.

Figure 2 Wheel disk. General form.

Figure 3 Section aa in Figure 2

Figure 4 Section BB in Figure 2

5 Wheel disk assembly with a device for shifting the axis of rotation of the wheel.

Fig.6 Cross-section aa in Fig.5, enlarged.

Fig. 7 Sleeve. General form.

The exercise bike of FIG. 1 contains a frame 1, a saddle 2 mounted on it, a steering wheel 3, and wheels 4 with a rotation drive 5. The wheels 4 are, for example, in the form of a disk, made of solid aluminum with a thickening (injection tide) 6 in the middle and technological holes 7, adjacent to the ends of the bulge 8, 9. Holes 7 provide access to the ends 8, 9 of Fig.2-5. Along the thickening (body) 6, a through hole 10 is made in the form of a parallelepiped passing through the geometric center of the wheel and offset relative to it along the axis X-X. The length d of the hole 10 relative to the geometric center of the wheel on both sides of the x-axis is different d ₁ and d ₂ and is the ratio d ₁ : d ₂ ≈1: 2. A device for adjustable displacement of the axis of rotation of the wheel 11 is a housing 6 and a sleeve 12 (steel) with four screws 13, Fig.6-7. The sleeve 12 is made in the form of a parallelepiped with a length L equal to the depth h of the housing opening 10 and a height b equal to the height t of the housing opening 10. The sleeve 12 is installed in the hole 10 of the housing with the possibility of movement along the axis of symmetry of the wheel XX. To two free opposite ends of the sleeve 12 are attached plates 14, fixing it in the hole 10 of the housing, for example by screws 15, Fig.6.

Since the height of the plates 14 is greater than the height t of the housing opening 10, they securely fasten the sleeve 12 in the housing opening 10 and serve as guides when moving, keeping it from axial displacement. On both lateral planes of the sleeve 12 are made two blind holes 16, Fig.7. In each end face 8 and 9 of the bulge (case) 6, two through holes with a thread 17 are made, into which the screws 13 are screwed. The ends of the screwless 18 screws are rotatably inserted into the holes 16 and abut against their bottom, FIG. 6 , 7. The holes 7 are arranged in such a way and have such dimensions that they provide access to the hand for the possibility of rotation of the screws 13 manually. The sleeve 12 is mounted on the axis of rotation of the wheel 19. The exercise bike can be manufactured according to the classical bicycle scheme by lengthening the front fork 20 and structural elements of the rear of the frame 21, which forms the attachment point of the axis of rotation of the rear wheel, by the maximum possible eccentricity of the wheels or reducing the diameter of the wheels.

The device operates as follows.

1. All four screws 13 on each wheel are manually tightened, their ends are pressed to the bottom of the corresponding holes 16 during rotation, thereby shifting the sleeve 12 to the extreme position of the housing hole 10 in the direction of its shorter length with respect to the geometric center of the wheel 4, for example, to the right, as in figure 5. This ensures that the axis of rotation of the wheel (the point of intersection of the axis of symmetry of the sleeve 12) is combined with the geometric center of the wheel 4. The exercise bike takes the standard look of a bicycle, moves like a regular bicycle and is used for its intended purpose.

2. Two screws 13, located on one end of the bulge (housing) 8, are unscrewed, the other two screws 13, located on the other end of the bulge 9, are turned in turn by the same number of turns. The sleeve 12 will move towards the longer length of the hole 10 of the housing with respect to the geometric center of the wheel 4, for example, to the left. The axis of rotation of the wheel 4 will shift to the left of its geometric center, and it will turn into an eccentric. The further the axis of rotation of the wheel is shifted, the greater the amplitude of the oscillations of the saddle 2 of the stationary bike when moving on a flat surface. If you shift the axis of rotation of the front wheel, then when the wheel moves, its axis of rotation will oscillate in the vertical plane, like an eccentric, and the front of the exercise bike will oscillate sinusoidal motion in the vertical plane. The rear wheel will move in a straight path (without hesitation). As a result, the exercise bike makes movements similar to the movements of the one-armed lever, that is, the front part of the exercise bike seems to be jumping. If you shift the axis of rotation of the rear wheel, then the back of the exercise bike will make similar movements as described above. When the axes of rotation of both wheels 4 are shifted by the same distance, the frame 1 and the saddle 2 perform synchronous sinusoidal oscillatory movements (up and down) in the vertical plane. In this case, all parts of the rider's body make (jumping) sinusoidal oscillatory movements in a vertical plane when moving on a flat surface. When the axes of rotation of both wheels are shifted to different distances from the geometric center of the corresponding wheel, the amplitude of the oscillation axes of rotation of the front and rear wheels (i.e. the front and rear of the exercise bike) will be different. At the same time, the rider on the exercise bike makes not only oscillatory sinusoidal movements in the vertical plane up-down, back-and-forth, but also chaotic. With the simultaneous displacement of the axes of rotation of both wheels from their geometric centers in the case of short-term braking of one wheel, its rotation speed will change. This will change the amplitude of oscillations of this wheel relative to the exercise bike. As a result of such adjustment, the exercise bike performs the function of a simulator, simulating a different gait of a horse when riding.

Claims (6)

1. Exercise bike - a simulator of riding a horse, containing a frame, a saddle mounted on it, a steering wheel and wheels with a rotation drive, characterized in that it is equipped with at least one device for adjustable displacement of the axis of rotation of the wheel in its plane mounted on axis of rotation of at least one wheel comprising a housing with a through hole in the shape of a parallelepiped, a sleeve made in the form of a parallelepiped corresponding to the shape of the opening of the housing and mounted in the housing of the device with the possibility of movement in housing holes, as in guides. 2. The exercise bike according to claim 1, characterized in that the casing of the device for adjustable displacement of the axis of rotation of the wheel in its plane is fixed in the wheel using mechanical connections. 3. The exercise bike according to claim 1, characterized in that the wheel is made in the form of a disk, the housing of the device for adjustable displacement of the axis of rotation of the wheel is made in one piece with the wheel disk. 4. The exercise bike according to claim 3, characterized in that between the short ends of the casing of the device for adjustable displacement of the axis of rotation of the wheel and the wheel rim are made through technological holes to enable manual displacement of the wheel axis. 5. The exercise bike according to claim 1, characterized in that the movement of the sleeve in the hole of the housing is carried out using screws that abut their ends against blind holes made in the lateral planes of the sleeve, and the screw thread enters the corresponding threaded through holes made in the short ends of the housing . 6. The exercise bike according to claim 1, characterized in that elements are fixed to the front plane of the sleeve to fix it in the opening of the housing.