System and method of getting for a bicycle and other pedal-driven vehicles mechanical energy output exceeded muscular energy input due to the gravitational lever

Abstract

Four rotatable and connectable to one gravity mass elements are making up a rotation, where mechanical energy output exceeds muscular energy input.

Description

BACKGROUND

The present invention is a logical completion of the sub-system, taken along, which is described in the U.S. Pat. Nos. 5,921,133A; 6,363,804B1; 6,601,478B2 as a system of transformation of gravitational energy into mechanical energy without loss of power and distance, due to the gravitational levers (GL).

The action of “GL” makes one rotatable part of sub-system turn faster than another rotatable part.

Here is a quotation from the U.S. Pat. No. 6,601,478B (see col. 7, lines 58-61): “in this case the outer force on the long shoulder of the “GL” is the long shoulder itself, because it tends to keep itself vertical, due to the gravitation”.

And (see col. 8, lines 8-9): “it means that “GL” gains in distance, but it doesn't lose in power, because it's power is gravitation”.

In the present invention the same function is carried out by a gravitational lever, as a special part of the pedal, which is powered by gravitational and muscular forces and because of that, it keeps itself vertical during rotation.

An important part of such pedal is the foot straps, as it also supports the combination of power.

Such a system, having a pedal with a gravitational lever, works more reliably and economically, especially when the speed of rotation and centrifugal forces are increasing.

The transmission of a new speedy bicycle and other pedal-driven vehicles were tested in a laboratory since 1999, after the U.S. Pat. No. 5,921,133 was published.

The positive results are the first steps toward large-scale production of new pedal-driven vehicles.

SUMMARY OF THE INVENTION

Accordingly, it is an object of the present invention to provide a new System and Method of getting, for a bicycle and other pedal-driven vehicles, mechanical energy output exceeding muscular energy input, due to the gravitational Lever.

In keeping with these objectives and with others, which will become apparent hereinafter, one feature of the present invention resides, briefly stated, in a system and method of getting, for a bicycle and other pedal-driven vehicles, mechanical energy output exceeding muscular energy input, which have a first rotatable unbalanced element, as a receiver of power from two different sources of energy, such as a foot's muscular energy and gravitational energy of its unbalanced part, which converts that energy into mechanical energy for transmission of the driving power, via a second one-way rotatable element and a third opposing rotatable element, to a driving sprocket of a vehicle, which is fixed to a third element and freely rotates with it on a crank's axle, for transmission of the driving power, via the chain to a freewheel and then to a drive wheel of the vehicle, where it is in the course of normal forward motion from the pedals. The first rotatable element being connected to a fourth rotatable element by means of a rotatable axle, rotates clockwise together with the fourth element around the fourth element axle and at the same time rotates counter-clockwise around its own geometric axle of rotation, together with a real axle, which is connecting both rotating elements to each other, while the second rotatable element, being connected to the first rotatable element by means of an overrunning clutch and to the third rotatable element by means of toothing, rotates clockwise around the third and fourth element's geometric axle and at the same time the second element rotates counter-clockwise around its own axle of rotation and due to that, makes the third element, as well as a driving sprocket of a vehicle, rotate faster than usual, than when the driving sprocket rotates together with a crank's axle under the same equal condition, and this proves that output energy in such a system exceeds the input energy.

The method of the invention includes the steps of interaction between four rotatable elements, which are powered by two different sources of energy, such as foot muscular energy and gravitational energy and, due to that provides mechanical energy output exceeding muscular energy input.

The invention itself, however, both as to its construction and as to its manner of operation, will be best understood from the following description of a preferred embodiment, which is accompanied by the following drawings.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a top view of a schematic representation of a System and method of getting, for a bicycle and other pedal-driven vehicles, mechanical energy output exceeding muscular energy input due to the gravitational Lever.

FIG. 2 is a view according to the arrow “A” of the System shown in FIG. 1.

FIG. 3 is a view according to the arrow “B” of the System shown in FIG. 1.

DESCRIPTION OF A PREFERRED EMBODIMENT

A system of getting, for a bicycle and other pedal-driven vehicles, mechanical energy output exceeding muscular energy input has two rotatable parts, one of which is placed on a crank's axle “I-I” for a free rotation on it, while the other part is placed on a crank's axle for a rotation with it.

The first one includes driving sprocket of a vehicle, which is fixed to a disk 5, having a chain periphery 6 [FIG. 1].

The second part [FIG. 1] includes crank 8 and all details, which are connecting with it: pedal 1, an axle 2, sprocket 4, combined with overrunning clutch 3 and bearing 5.

The pedal 1 performs three functions:

Getting power from two different sources of energy, such as a foot muscular energy and a gravitational energy of the unbalanced mass, which are, by means of this pedal convert themselves into mechanical energy;

Transmission of the driving power via the rotating axle 2, overrunning clutch 3, sprocket 4, and chain periphery 6 of disk 5, to the driving sprocket and then to a freewheel and driving wheel of a vehicle;

Transmission of the driving power straight on the driving sprocket of a vehicle without kinematic interaction between sprocket 4 and chain periphery 6 of a disk 5, as a kinematic couple [FIG. 1], [FIG. 2]

A section of a pedal 1 has a contour of a spherical sector as shown in [FIG. 3}. Practically such design is a gravitational lever, which s in combination with a pedal strap 7 provide vertical position of the pedal 1 during it rotation together with the axle 2 around the crank's axle “I-I” and its own geometric axle of rotation “II-II”. It means that in the course of normal forward motion of the pedals, they are rotating clockwise around axle “I-I” and at the same time they are rotating counter clockwise around its geometric axle of rotation “II-II”.

The sprocket 4 is powered by gravity weight of “GL” as an unbalanced part of a pedal 1 and by foot muscular force, which is supported also by strap 7 and rotates counter-clockwise, while disk 5 with a chain periphery 6 rotates clockwise, the same way as a pedal, but faster than pedal 1 itself.

The kinematic relations between the sprocket 4 and chain periphery 6 of a disk 5 is as follows: during one revolution disk 5 with a driving sprocket outstrips the crank 8 with a pedal 1 for one radius of the disk 5 because the length of a circle of the sprocket 4 is equal to the radius of disk 5 with a chain periphery (according to a working model).

Unbalanced part of a pedal 1 starts make an additional turn of the disk 5 (and same of the driving sprocket) during a ride, and this proves that the output energy in such a system exceeds the input energy.

The application is not limited to the details shown, since various modifications and changes are possible, without changing the patent in any way from the spirit of the invention.

Claims

1. A system of getting, for a bicycle and other pedal-driven vehicles, mechanical energy output exceeding muscular energy input, due to the gravitational Lever, Comprising: The first rotatable unbalanced element, as a receiver of power from two different sources of energy, such as a foot's muscular energy and gravitational energy which converts that energy into mechanical energy for transmission of the driving power, via a second one-way rotatable element and a third opposing rotatable element to a driving sprocket of a vehicle, which is fixed to a third element and freely rotates with it, on a crank's axle, for transmission of the driving power, via the chain to a freewheel and then to a drive wheel of the vehicle, where it is in the course of normal forward motion from the pedals. The first rotatable element being connected to a fourth rotatable element by means of a rotatable axle, rotates clockwise together with the fourth element around the fourth element axle and at the same time rotates counter-clockwise around it's own geometric axle of rotation together with a real axle, which is connecting both rotating elements to each other, while the second rotatable element, being connected to the first rotatable element by means of overrunning clutch and to the third rotatable element by means of toothing, rotates clockwise around the third and fourth element's geometric axle of rotation, as well as a first element, and at the same time the second element rotates counter-clockwise around it's own axle of rotation and due to that, makes the third element, as well as driving sprocket of a vehicle, rotate faster than usual, than when the driving sprocket rotates together with a crank's axle under the same equal condition, and this proves that output energy, in such a system, exceeds the input energy.

2. The system of claim 1, wherein the first rotatable element is a special pedal, as a receiver of power, from its unbalanced mass and from foot turning, which is supported also by a foot strap, and can be changed to a regular pedal to involve more muscles for training by means of riding or stationary bicycles.

3. The system of claim 1, wherein the third element is a disk with a chain periphery instead of a gear periphery, while the second element is a sprocket, combined with an overrunning clutch for one-way kinematic interaction with a chain periphery.

4. The system of claim 1, wherein the fourth element is a crank, as a support for a special pedal.

5. A method of getting, for a bicycle and other pedal-driven vehicles mechanical energy output exceeding muscular energy input, due to the gravitational Lever, comprising the steps of: placing the first unbalanced element on a fourth rotatable element, placing the second rotatable element on a first element, connecting the first element and the second element to one another by means of an overrunning clutch, placing the third element on a crank's axle for a free rotation on it, attaching the fourth element to a crank's axle for rotation together with it, rotating the first element powered by two different sources of energy, such as a foot muscular energy and gravitational energy and converts that energy into mechanical energy for transmission of the driving power, via a second one-way rotatable element to a third opposing rotatable element, which is together with a driving sprocket freely rotates on a crank's axle, the fourth rotatable element, being connected to a crank's axle rotates clockwise together with a first element, the first and second elements at the same time rotate counter-clockwise around their own geometric axle together with a real axle, which is connected the first and the fourth elements to each other, the second rotatable element, being connected to the first and to the third elements at the same time, makes the third element, as well as a driving sprocket of a vehicle, rotates faster than usual, then when a driving sprocket rotates together with a crank's axle under the same equal power conditions, and this proves that output energy in such a case, exceeds the input energy.