SK322017A3 - Kinematic arrangement of the independent left and / or right pedal drive mechanism with a continuous change of transmission - Google Patents

Abstract

The kinematic arrangement of the independent left and / or right drive mechanism of the pedal conveyor with continuous change of gear is designed so that the pedal mechanism (1) with the reciprocating or pivoted pedal reciprocating movement is coupled directly by the cable (2) to the pulley (6) indirectly with a swinging arm (3) of at least one freewheel (4) connected to at least one planetary gearbox or gearwheel assembly. In this case, a linear electrical-mechanical transmission mechanism (5) with a continuous change of gear is incorporated into the pedal mechanism and / or into the swinging arm (3) of the freewheel (4). This consists of a helix (7) attached to a servomotor (8) and an adjustable member (9) mounted on a screw (7), wherein the free end of the freewheel (3) of the freewheel (4) or the adjusting member (9) is mounted on the screw ( 7) one end of the cable (2) is anchored. The planetary gearbox is inserted into the left and / or right freewheel (4) inserted into the hub (15) of the driven wheel (16) or mounted on the left and / or right side of the frame (13) at the location of the driven wheel (16).

Description

Technical field

BACKGROUND OF THE INVENTION The present invention relates to the kinematic arrangement of an independent left and / or right drive mechanism of a continuously variable transmission of a pedal vehicle with a hub assembly with an integrated planetary gearbox in the driven wheel hub or an internal planetary gearbox on the pedal vehicle frame. powered by human power through the pedals. Such means are bicycles, scooters, tricycles and others. The invention falls within the field of engineering, light sports industry and passenger transport of non-motorized vehicles.

BACKGROUND OF THE INVENTION

Several methods of transmitting human power to the drive wheel of vehicles such as bicycles, scooters, tricycles and others are generally known in the art. In these means of transport, the drive mechanism most often consists of transmission keys, a chain and a cassette, which is located on the rear wheel hub. Cranks with integrated central axis are currently used. Transducers are located on the cranks. The standard, non-chain, city transmission with chain transmission has a 1: 2.75 gear ratio with a single drive-wheel hub. For mountain bikes three converters are used, but some professional riders only experiment with two converters. On road bikes are used two resp. three converters. Nowadays, bicycles with gear shifting are mostly used. Two to three gears are used for shifting the front gears on the cranks. A rear derailleur is used to shift the gears at the rear of the cartridge. Five to eleven gears are used. For their shifting is used shifting cable, or electronic mechanism, which move the movement from the lever to the derailleur, respectively. derailleur. A disadvantage of this mechanical arrangement is that the transmission can only be changed during movement and is structurally complex. A further disadvantage of the prior art bicycle constructions is that the optimal backing of a human foot can be adjusted by the height of the seat. Low figures must lower the seat so that the person's foot is in contact with the pedal at its lower dead center, and vice versa this applies to tall figures. Bicycles of classic construction have a dependent rotation of the left and right pedals, which may be a handicap for some cyclists.

Among the non-traditional bicycle designs, mention should be made of the bicycle design disclosed in U.S. Pat. No. 3,759,543. The solution consists of an oscillating pedal mechanism, where the pedal arms are coupled via a pulley by cables and a chain with freewheels of the rear wheel hub. The clamping of the cable to the pedal arm is adjustable on the length of the pedal arm via friction thrust rollers operated mechanically by a lever. The disadvantage of this system is the used chain transmission.

Another non-traditional construction of a bicycle is described in published international patent application WO 98/56646. The solution is an oscillating pedal mechanism where the pedal arms are coupled via a pulley with a freewheel of the rear wheel hub. The clamping of the chain to the pedal arm can be adjusted mechanically by a lever on the length of the pedal arm via a rack. Another disadvantage of this system is the complexity of the structure, where a pendulum mechanism connecting the left and right pedal arms is mounted behind the seat, and a pantograph system is mounted on the pedal arms to operate the rack member. The disadvantage of this system is again used chain transmission. Thus, the oscillating pedal mechanism becomes addicted, limiting its use for the disabled.

Another non-traditional construction of a bicycle is described in published international patent application WO 2010/084363. The solution consists of a rotating pedal mechanism with short, fixed arms rolling on the inner link, which are coupled via a pulley with freewheeling cables of the rear wheel hub. The pulley can be adjusted mechanically on the second toothed link.

A common disadvantage of the above-described mechanisms is that mostly a chain mechanism is used to drive the freewheel, which is prone to failure due to contamination and is also difficult to maintain such as chain lubrication and the like. Motion physiology analysis has shown that transmission of power from the cyclist's foot to the pedal is effective within a maximum angle of ± 60 ° from the horizontal. In addition, an additional angle of 30 ° to the top and bottom dead center of the pedal contributes minimally to the power transmission. There is no transmission of force when the pedal is within ± 90 ° of the horizontal. It is also a time loss when the foot cannot exert force on the pedal.

The above-described facts evoked the creation of such an independent oscillating pedal mechanism with a comfortable continuous gear change and with a wheel hub and a built-in planetary gear assembly that would provide reliable torque transmission and sufficient speed to drive a human-powered vehicle through a pedal-free pivot mechanism. chain drives, without pendulum or pantograph mechanism. Since a standard city bike without a chain transmission has a gear ratio of 1: 2.75, it is necessary to achieve a gear ratio four times higher than that of chain gears to achieve optimal speed of the independent pedal swing mechanism. This is solved by a planetary gearbox by placing two planets

SK32-2017 A3 Serial in-line transmissions with fixed ratio ratio of 1: 9 to 1:16 as required, and a different ratio can also be used.

As a result of this effort, the kinematic arrangement of the independent left and / or right drive mechanism of the pedal vehicle with a continuously variable transmission with a special wheel hub and a built-in planetary gearbox and its application is particularly described in human power driven means through the pedals in the present invention.

SUMMARY OF THE INVENTION

The aforementioned drawbacks in the human-powered oscillating pedal mechanism designs of oscillating pedal mechanisms of the prior art are overcome by pedal vehicles with a kinematic arrangement of the independent left and / or right drive mechanism of the pedal vehicle with a continuously variable transmission and a planetary gear hub. located in the driven wheel hub, or located on the left and / or right side of the bicycle frame at the location of the driven wheel and at least one freewheel according to the invention. Other types of planetary gears or gear-wheel assemblies may also be used for this purpose when mounted primarily on a bi-cycle frame. The principle of the invention is based on the fact that the pedal mechanism with a linear reciprocating movement for the foot or hand drive or the pivoting reciprocating movement of the pedal for the foot or hand drive is coupled by a cable over the pulley directly or indirectly with the pivoting freewheel arm. The pulley is anchored in the frame and is engaged to reduce stress on the system. The pedal mechanism and / or the pivot arm of the freewheel comprises a linear electromechanical transmission mechanism with a continuously variable transmission consisting of a helical connected to the servomotor and an adjustable member mounted on the helical and moving linearly on the rotating helical about its axis. Linear electro-mechanical transmission mechanisms are controlled by control electronics. One end of the cable is anchored by the free end of the freewheel swivel arm or by an adjustable member mounted on a helical linear electromechanical transmission mechanism with a continuously variable transmission mounted in the freewheel swivel arm.

The pedal mechanism with a pivoting reciprocating movement of the pedal consists of a pedal arm at one end provided with a pedal and at the other end pivotally mounted in a pivot on a frame with an angle of α = 1 ° to 100 ° of the pedal swing. The pedal arm comprises a resilient element (not shown) that returns it to its initial position. A linear electro-mechanical transmission mechanism with a continuously variable transmission is inserted into the pedal arm, where the other end of the cable is anchored by an adjustable member mounted on a helix. The linear electro-mechanical transmission mechanism with continuous gear change is parallel to the pedal arm or has a deflection from the pedal arm by a bearing angle β = 1 ° to 180 °.

In another variation, the pedal mechanism with a linear reciprocating motion of the pedal comprises a push pedal against which the other end of the cable is anchored. If the pedal mechanism with a linear reciprocating motion of the pedal consists of a pulling pedal, then the other end of the cable is anchored by the additional pulley.

Two variants are possible. In a first variant, the planetary gearbox is located directly in the hub of the driven wheel. In a second variant, the planetary gearbox is located directly on the left and / or right side of the bicycle frame at the location of the driven wheel.

If the planetary gearbox is located directly in the hub of the driven wheel, the hub of the driven wheel consists of an outer drum body with a central bore, in the axis of which a pinion is located on the inside. The planetary gearbox consists of an inner tubular body having a freewheel on one face and an outer disk. On the other front, he has the right freewheel. At least one planetary gear stage is interposed between the outer disk and the face of the outer drum body such that the satellites loosely mounted in pins on the outer disk of the first planetary gear stage and optionally the satellites loosely mounted in pins on at least one inner disk of the next planetary gear stage In this case, the satellites of the first or last planetary gear stage are engaged with the pinion of the outer drum body or are engaged with the pinion of the next planetary gear stage. The inner disk of the planetary gear stage is loosely slid on the inner tubular body and the outer drum body is loosely slid on the inner tubular body through the central bore. From a constructional point of view, it is advantageous if at least the right freewheel located on the front of the inner tubular body is removable.

If the planetary gearbox is located directly on the left and / or right side of the bicycle frame at the location of the driven wheel between the hub and the freewheel with the freewheel arm, the planetary gearbox consists of an outer left freewheel disk behind which two planetary gears are mounted. The satellites freely stored in the pins on the outer disk of the first planetary gear stage and the satellites freely stored in the pins on the inner disk of the second planetary gear stage are, on the one hand, engaged with the ring gear which is attached to the bicycle frame. Here, the satellites of the first planetary gear

SK32-2017 A3 of the second planetary gear is engaged with the second planetary gear pinion and the second planetary gear satellites are engaged with the pinion. which is attached to the driven wheel hub. The right side is mirrored.

Alternatively, it is also possible for the right and left sides of the bicycle frame to be fitted with a set of gear wheels replacing the planetary gearbox.

The design of the kinematic arrangement of the independent left and / or right drive pedal with a continuously variable transmission provides possibilities for its use in bicycles, where the pedal arms of the pedal mechanism with pivoting reciprocating pedals are pivoted at the other end and which are connected by ropes to the swinging arms of the cross-country skis.

It can also be used for scooters, where the pedal arm of the pedal mechanism with a pivoting reciprocating movement of the pedals is pivotably mounted at the other end in a pin on the frame in the region between the rear wheel and the driven front wheel. It can also be used in tricycles, where the pedal arm is pivoted at the other end in a pin on the frame in the region of the front wheel.

Advantages of the kinematic arrangement of the independent left and / or right drive mechanism of the continuously variable transmission pedal vehicle with the wheel hub assembly with built-in planetary gearbox and its application especially in the human-powered means by the pedals according to the invention are evident from its external effects . The effects are mainly that it provides better transmission of power from the human foot to the lever. Independent gripping of each pedal gives rise to a variety of pedal options, including both. The electromechanical gearbox with control electronics gives the possibility to change the transmission continuously over the whole range, both during movement and when standing. It is understood that the mechanism can be used in various positions and applications in small human-powered vehicles such as bicycles, scooters, tricycles and the like. Another advantage is that the movement of the pedal is limited only by the boundary positions between which the pedal is free, so that each user can freely adjust the range of movement and position. This is also advantageous at different user heights.

BRIEF DESCRIPTION OF THE DRAWINGS

The kinematic arrangement of the independent left and / or right drive mechanism of the continuously variable transmission pedal vehicle according to the invention will be explained in more detail in the drawings, where FIG. 1 shows its kinematic diagram with a pivoted reciprocating pedal with gear engaged. In FIG. 2 shows a kinematic diagram with a pivoted reciprocating pedal with the gear engaged for the lowest speed. In FIG. 3 shows a kinematic diagram with a linear electromechanical transmission mechanism applied both in a pedal arm with a pivoting reciprocating movement of the pedal in the uppermost position and a linear electromechanical transmission mechanism applied in a pivoting arm of a freewheel with the gear engaged for the highest speed. In FIG. 4 shows a kinematic diagram with a linear electromechanical transmission mechanism applied both in a pedal arm with a pivoting pedal reciprocating movement in the lower end position and a linear electromechanical transmission mechanism applied in a freewheel arm with the gear engaged for the lowest speed. In FIG. 5 shows a kinematic diagram with a linear reciprocating pedal movement and a linear electro-mechanical transmission mechanism applied in the freewheel arm with the gear engaged for the lowest speed. In FIG. 6 shows a kinematic diagram with a linear reciprocating pedal movement and a linear electromechanical transmission mechanism applied in the pivot arm of the freewheel with the gear engaged for the highest speed. In FIG. 7 is a side view of a kinematic arrangement of the independent left and right bicycle drive mechanism with a continuously variable transmission disposed on the bicycle frame. In FIG. 8 shows in perspective only the kinematic arrangement of the independent left and right bicycle drive mechanism with a continuously variable transmission. In FIG. 9 shows a rear side view of the control of the independent left and right bicycle drive mechanism with a continuously variable transmission. In FIG. 10 is a side rear view of the kinematic arrangement of the independent left and right bicycle drive mechanism with a detail of the linear electro-mechanical transmission mechanism by continuously changing the transmission. In FIG. 11 is a front left side view showing the kinematic arrangement of the independent left and right tricycle drive mechanism with a continuously variable transmission. In FIG. 11 is a front right side view of the kinematic arrangement of the independent left and right tricycle drive mechanism with a continuously variable transmission. In FIG. 13 is a side view showing the kinematic arrangement of the independent left and right scooter drive mechanism with a continuously variable transmission. In FIG. 14 is a cross-sectional view of a driven wheel hub structure with an inboard planetary gearbox. In FIG. 15 shows an exploded drive wheel hub assembly with a built-in planetary gearbox. In FIG. 16 is shown in FIG

SK32-2017 A3 melts linear gear mechanism. In FIG. 17 is a cross-sectional view of a planetary gearbox structure for mounting in a bicycle frame.

DETAILED DESCRIPTION OF THE INVENTION

It is understood that individual embodiments of the kinematic arrangement of the independent left and / or right drive mechanism of the continuously variable transmission pedal vehicle with the wheel hub assembly of the invention are presented for illustration and not as limitations of the technical solutions. Those skilled in the art will find, or will be able to ascertain, using no more than routine experimentation, many equivalents to specific embodiments of the invention of such a non-traditional design and their application in similar means outside the art. Such equivalents will also fall within the scope of the following claims.

For those skilled in the art, the dimensioning of such a construction and the appropriate choice of its materials and construction arrangements cannot be a problem, therefore these features have not been solved in detail.

Example 1

In this example of a particular embodiment of the invention, a basic constructional assembly of the kinematic arrangement of the independent left and right drive mechanism of the pedal vehicle with a continuously variable transmission applied to the bicycle, as shown in principle in FIG. 1 a

2. The pedal mechanism J with a reciprocating reciprocating movement of the pedal is clamped by a cable 2 through the jaws 6 directly with the free end of the pivot arm 3 of the freewheel 4. The pedal mechanism 1 is mounted in a pin 12 on the frame 13. The pulley 6 is also mounted on the frame 13. . 1, an anchorage of the cable 2 at point A of the linear electromechanical transmission mechanism 5 with a continuously variable transmission is apparent, which corresponds to a 45 ° swing of the freewheel arm 3 for a full swing of 45 ° of the pedal mechanism 1. FIG. 2 shows an anchorage of the cable 2 at point B of the linear electromechanical transmission mechanism 5 with a continuously variable transmission, which corresponds to a 13 ° swing of the freewheel arm 3 for a full swing of 45 ° of the pedal mechanism 1. Its detailed construction is shown in FIG. The pedal mechanism 1 with a pivoting reciprocating movement of the pedals consists of a left and right pedal arm 10 at one end provided with a pedal 11 and at the other end pivotally mounted in pins 12 on the frame 13 with an angle of α = 45 ° of pedal arm swing. 10. Each pedal arm 10 includes a resilient element (not shown) that returns it to its initial position. In each pedal arm 10 is inserted a linear electromechanics transmission mechanism 5 with a continuously variable transmission as shown in FIG. 10. The linearly electromechanical transmission mechanism 5 with a continuously variable transmission inserted into the pedal arm 10 is offset from the axis of the pedal arm 10 by a bearing angle β = 80 ° as shown in FIG. 7. The linearly electro-mechanical transmission mechanism 5 with a continuously variable transmission consists of a screw 7 connected to the servomotor 8 and an adjustable member 9 of the so-called. a stone mounted on the helix 7 as shown in FIG. 16. The actuator 8 is connected to a power supply (not shown) and is actuated by an actuator 18 on the handlebar handle. The drive mechanism also includes a cable 2, the other end of which is anchored by an adjustable member 9 mounted on a helix 7 of the electro-mechanical transmission mechanism 5 with a continuously variable transmission. Fig. 9 shows a simplified electrical actuator 18 of an independent left and right bicycle drive mechanism with a continuously variable transmission from the steering handle without the servomotor power batteries shown. The use of bicycles assumes that the pedal arms 10 are pivoted at the other end in pins 12 on the frame 13 in the region of the hub 15 of the rear wheel 16, which in this case is driven.

Example 2

In this example of a particular embodiment of the present invention, a derived kinematic arrangement of an independent left and right drive mechanism of a pedal vehicle with a continuously variable transmission applied to a bicycle is described, as shown in principle in FIG. 3 and 4. To achieve higher transmission ratios, two linear electromechanical transmission mechanisms 5 are used with a continuously variable transmission for each side of the drive mechanism. One linear electro-mechanical transmission mechanism 5 with continuous transmission change is applied to the left and right pedal arm 10 of the pedal mechanism 1 with pivoting reciprocating movement of the pedals as described in Example 1. The second linear electro-mechanical transmission mechanism 5 with continuous transmission change is left and right swing arms 3 of the left and right freewheels 4. FIG. 3 shows the indirect anchoring of the cable 2 in point A of the linear electromechanical transmission mechanism 5 with a continuously variable transmission of the pedal mechanism 1 with a swinging reciprocating movement of the pedals and the anchoring of the cable 2 in point C of the fractured electromechanical transmission mechanism 5 the freewheel 4, which corresponds to the 47 ° swinging arm of the freewheel 3 for the freewheel 4

SK32-2017 A3 45 ° swing of pedal mechanism 1. From fig. 4 shows the anchorage of the cable 2 in point B of the linear electromechanical transmission mechanism 5 with a continuously variable transmission of the pedal mechanism 1 with the pivoting reciprocating movement of the pedals and the anchorage of the cable 2 in point D of the linear electromechanical transmission mechanism 5 with a continuous change of the transmission of the swinging arm 3 4, which corresponds to a 7 ° swing of the freewheel arm 3 of the freewheel 4 for a full swing of the 45 ° pedal mechanism 1.

Example 3

An important feature of the solution for Examples 1 and 2, wherein the planetary gearbox is located directly in the hub 15 of the driven wheel 16, is the array of features shown in FIG. 14 and 15. The hub 15 of the driven wheel 16 consists of an outer drum body with a central bore in which an axle with a pinion is located on the inside of the outer drum body. The planetary gearbox consists of an inner tubular body having a freewheel 4 on one face and an outer disk. It has a freewheel 4 on the second face. Two planetary gears are interposed between the outer disk and the front of the outer drum body. The satellites loosely housed in the studs on the outer disk of the first planetary gear stage and the satellites loosely housed in the studs on the inner disk of the second planetary gear stage are engaged on one side with the ring gear which is fixed to the frame 13. Here, the satellites of the first planetary gear are engaged with the pinion of the second planetary gear and the satellites of the second planetary gear are engaged with the pinion of the outer drum body. The inner disk of the second planetary gear stage is freely slid on the inner tubular body and the outer drum body is freely slid on the inner tubular body through the central opening. The right freewheel 4 located on the front of the inner tubular body is removable.

Example 4

An important feature of the solution where the planetary gearbox is located directly on the left and right sides of the bicycle frame 13 at the location of the driven wheel h6 is the array of features shown in FIG. 17. The hub 15 of the driven wheel 16 is simple without any transmission having an axle mounted in the bicycle frame 13. On the outside, the left and right planetary gears are connected by the left and right freewheel 4. The left and right freewheel 4 is connected by the left and right arm 3 of the left and right freewheel 4. On the inside the left and right planetary gear is h6. The left and mirror-image planetary gearbox consists of an outer disk with a left freewheel 4, behind which two planetary gears are located. The satellites loosely mounted in the stubs on the outer disk of the first planetary gear stage and the satellites loosely mounted in the stubs on the inner disk of the second planetary gear stage are on one side engaged with the ring gear which is secured to the bicycle frame 13. The satellites of the first planetary gear are engaged with the pinion of the second planetary gear and the satellites of the second planetary gear are engaged with the pinion, which is connected to the hub 15 of the driven wheel 16. The right side is designed in a mirror image.

In a further alternative, there is a solution wherein a gear assembly replacing the planetary gear is mounted on the right and left sides of the bicycle frame.

Example 5

In this example of a particular embodiment of the present invention, a further derived kinematic arrangement of an independent left and right drive mechanism of the pedal vehicle with a continuously variable transmission applied to the scooter, as shown in principle in FIG. 13. The construction is sufficiently described in the basic features in Examples 1 to 3. The difference in construction consists in that the pedal mechanism 1 with the pivotable pedal reciprocating movement and the integrated linear electro-mechanical transmission mechanism 5 is coupled with a cable 2 directly over the pulley 6 The pedal arm 10 is pivotably mounted at the other end in a pin 12 on the frame 13 in the region between the rear wheel 16 and the driven front wheel 11 '.

Example 6

In this example of a specific embodiment of the present invention, a further derived kinematic arrangement of the independent left and right drive mechanism of the pedal vehicle with a continuously variable transmission applied to the tricycle is shown as shown in FIG. 11 and 12. The construction is sufficiently described in the basic features in Examples 1 to 3. The difference in construction consists in that the pedal mechanism 1 with the pivotable reciprocating movement of the left and right pedals 11 and the integrated linear electromechanical transmission mechanism 5 is coupled by cable 2 via The left and right pedal arms 10 are pivoted at the other end in pivot 12 on a frame (not shown) 13 in the region between the rear driven wheel 16 and the front wheels 17.

SK32-2017 A3

In such a tricycle, it is alternatively possible for the left and right pedal arms 10 terminated by the pedals 11 driven by the human foot to be adapted to be driven by the hands, where the pedal 11 would be an extended handle. Example 7

In this example of a particular embodiment of the present invention, a further derived kinematic arrangement of an independent left and right drive mechanism of the pedal vehicle with a continuously variable transmission applied to the tricycle is described, as shown in principle in FIG. The construction is sufficiently described in Example 5 in the basic features. The difference in construction consists in that it comprises a pedal mechanism 1 with a linear reciprocating movement of the push pedal 11, which is coupled by a cable 2 via a roller 6 indirectly with the free end of the freewheel 3 4. The pedal mechanism 1 is slidably mounted on the frame 13. The pulley 6 is mounted on the frame 13. From FIG. 5, an anchorage of the cable 2 at point A of the linear electromechanical transmission mechanism 5 with a continuously variable transmission and anchorage at point B of the push pedal 11 is apparent, corresponding to a 47 ° swing of the freewheel arm 3 for the entire path L of the push pedal 11. FIG. 6, an anchorage of the cable 2 at point C of the linear electromechanical transmission mechanism 5 with a continuously variable transmission and anchorage at point B of the push pedal 11 is apparent, corresponding to a 27 ° swing of the freewheel arm 3 for the entire path L of the push pedal 11.

Example 8

In this example of a particular embodiment of the present invention, a further derived kinematic arrangement of an independent left and right drive mechanism of the pedal vehicle with a continuously variable transmission applied to the tricycle is described. The construction is sufficiently described in Example 6 in the essential features. The difference in construction is that it comprises a pedal mechanism 1 with a linear reciprocating movement of the hand-driven pull pedal 11, where the cable 2 encircles the additional pulley, not shown in any figure.

Example 9

In this example of a particular embodiment of the invention, a further application of the kinematic arrangement of the drive mechanism of the pedal vehicle with a continuously variable transmission is described. This drive mechanism can only be realized on the right or left. This is sufficient for disabled persons with one leg or one hand. A further analogy is that the drive mechanism can be operated as dependent, with both feet simultaneously pushing the pedal 11 at the same pace.

Industrial usability

The kinematic arrangement of the independent left and / or right drive mechanism of the continuously variable transmission pedal vehicle according to the invention finds application particularly in the field of engineering and light sports industry and passenger transport of non-motorized vehicles.

Claims (11)

PATENT CLAIMS Kinematic arrangement of an independent left and / or right drive mechanism of a continuously variable transmission of a pedal vehicle, characterized in that the pedal mechanism (1) with a linear or reciprocating reciprocating movement of the pedal is coupled by a cable (2) over the pulley (6) ) directly or indirectly with a pivot arm (3) of the at least one freewheel (4) connected to the at least one planetary gear or gearwheel assembly, wherein the pedal mechanism (1) and / or the pivot arm (3) of the freewheel (4) is linear an electro-mechanical transmission mechanism (5) with a continuously variable transmission comprising a helix (7) connected to the servomotor (8) and an adjustable member (9) mounted on the helix (7), the free end of the pivot arm (3) of the freewheel (4) or an adjustable member (9) mounted on a spiral (7) linearly on the electromechanical transmission mechanism (5) One end of the cable (2) is anchored by changing the gear mounted in the pivot arm (3) of the freewheel (4). Kinematic arrangement of the independent left and / or right drive mechanism of the continuously variable transmission pedal vehicle according to claim 1, characterized in that the pedal mechanism (1) with a reciprocating reciprocating movement of the pedal consists of a pedal arm (10) at one end the pedal (11) and at the other end of the pivoting seat (12) on the frame (13) with an angle of α = 1 ° to 100 ° of the pedal pivoting. The kinematic arrangement of the independent left and / or right drive mechanism of the continuously variable transmission pedal means according to claims 1 and 2, characterized in that a linear electromechanically transmission mechanism (5) is inserted into the pedal arm (10). by continuously changing the transmission, wherein the other end of the cable (2) is anchored by an adjustable member (9) mounted on the helix (7). ....... . Kinematic arrangement of the independent left and / or right drive mechanism of the continuously variable transmission pedal means according to claims 1 and 2, characterized in that the linear electromechanical transmission unit (5) with continuous transmission transmission has a deflection from the pedal arm (10) ) a bearing angle β = 1 ° to 180 °. Kinematic arrangement of the independent left and / or right drive mechanism of the continuously variable transmission pedal vehicle according to claim 1, characterized in that the pedal mechanism (1) with a linear reciprocating movement of the pedal consists of a push pedal (11) of which anchored the other end of the cable (2). Kinematic arrangement of the independent left and / or right drive mechanism of the continuously variable transmission pedal vehicle according to claim 1, characterized in that the pedal mechanism (1) with a linear reciprocating movement of the pedal consists of a traction pedal (11) of which anchored the other end of the cable (2) via an additional pulley (14). Kinematic arrangement of the independent left and / or right drive mechanism of the continuously variable transmission pedal vehicle according to claim 1, characterized in that in application to a bicycle the pedal arm (10) is pivotably mounted at the other end in a pin (12) on the frame (13) in the hub region (15) of the rear driven wheel (16). The kinematic arrangement of the independent left and / or right drive mechanism of the continuously variable transmission pedal vehicle according to claim 1, characterized in that, in application to a tricycle, the pedal arm (10) is pivotably mounted at the other end in a pin (12) on the frame. (13) in the area of the front wheel (17). The kinematic arrangement of the independent left and / or right drive mechanism of the continuously variable transmission pedal vehicle according to claim 1, characterized in that, in application to a scooter, the pedal arm (10) is pivotably mounted at the other end in a pin (12) on the frame. (13) in the region between the rear wheel (16) and the driven front wheel (17). The kinematic arrangement of the independent left and / or right drive mechanism of the continuously variable transmission pedal vehicle according to claim 1, characterized in that the left and / or right freewheel (4) is connected to a planetary gear inserted in the driven wheel hub (15); (16). Kinematic arrangement of the independent left and / or right drive mechanism of the continuously variable transmission pedal according to claim 1, characterized in that the left and / or right freewheel (4) is connected to a planetary gear mounted on the left and / or right side of the frame (13) at the location of the driven wheel (16).