BE1025237B1 - Operating method of the rotary and extensible levers having their heads rotating in circuit other than perfect circle - Google Patents

Abstract

The invention is a mechanism, and a method and method and concept of amplification of force and power based on the variation of the lengths of the extensible rotary lever 1 and having its movable part 2 sliding on the basic part 3 rotating on its axis. work 24 when the head 43 is driven via the pinion 5 in the path of the belt bypassing a geometric shape of constant geometry but variable in one of various structures having a shape other than a perfect circle optionally operating guide wheel (s), 68 69- Optional whose optional belt is active by the optional driving wheel 34/377 optionally equipped with a lace crown 38 whose shape of path of the belt causes the extensions and retractions of the extensible rotary lever 1 acting on its working axis 24 and this in each of the basic forms just as in each of various levels of mergers such as abcd levels spread in su rface or compacted all having an indefinite number of extendable rotary levers 1 and wherein less than one lever per most basic structure supplemented by an optional intermediation wheel 168 for controlling and changing the direction and speed of variable rotations by variable number of belts operated all to turn the output wheel 35 and optional receiving wheels.

Description

Operating method of the rotary and extensible levers having their heads rotating in circuit other than perfect circle

Description: The invention is all at once; it is a mechanism, it is a method a process a concept and a design, having, and exploiting a mechanism of amplification of force and power via a specific geometrical mechanics and with constant but variable geometry Enabling the amplification of forces of the extensible lever (with variable and adjustable length) and rotating 1 exploited in the said mechanism according to the said methods and proceeds in bringing it to the possibility of going beyond the physical rules known in the matter such that literally (as metaphor) it is possible to call them "the physical rule of balance of the swing". Even to the point of overtaking and allowing the optional leaning of the lightest side of the scale, (in reverse of these known physical rules) thus encompassing everything that depends and function according to this rule and physical law, or even allow to choose arbitrarily and optionally the inclination of the balance -physical as literary. And the said capacity of the amplification of force is bi polar. And the said amplification of force is already manifested at the edge (same advent movement- already in a starting tendency) (and this in all and each of the motricse instrument or speed-force ratio variator). But, and in particular, last the circular action (s) and turn (s) of said "adjustable adjustable lever revolving" 1-turning around its axis of anchoring 4. And this thanks to the ability of the mechanism and said lever 1 included in this mechanism to extend (s) and retraction (s) length (s) of this extensible lever 1 and the same in each of these substitutions and optional multiplication. And this in the context of the action path that allows the extension (s) and retraction (s) of the lengths of this extensible lever has a measurement varying to optional dimensions. Depending on the measure (s) and size (s) multiple optional choices. And this according to the basic geometrical shape chosen to frame the working axis 24 of the force lever 1 (said extendible lever). The borders of this geometric shape (frame) will be the surface in which the head 43 of the lever will be driven, at least in one of the options that allow it to move in a slalomed (curved) path depending on the geometric shape optionally involved. will be chosen. And its effectiveness depends on the fact that each of the basic geometric form (s) intervening, (in the said frame) are not a perfect circle. (Whatever, all of its / these hybrid connection (s) can form an entire circle). And this, when / since in each of the forms (of these forms) of this state / hybrid mode / fusion there is an individual. It follows that in each of the hybrid / fusion merge parts (there is) at least one circular expandable lever 1 - independent of all the others. But the efficiency of the mechanism itself and the explanation of this process (es), is / are complex (s) and pass by the exposure and the explanation of the same type of lever, (and / or these component parties) repeatedly but in various angles. Or / and various structures and framework (s) sometimes even co / hybrid / fusion. And when she / he (s) is (are) in various structures, she / he carries a slightly modified individual signaling symbol to better distinguish them, such as (# ** 1A / # 1 / ** 1 / * 1 / IA / 1 ** / ** 1A). All these symbols (# ** 1A / # 1 / ** / / * 1 / 1A / 1 ** / ** 1A) are used / used to describe the same lever or the same type of extendable lever, and these small Additional symbols / additives are there to be able to distinguish it in the description text according to its particular place in the description (s). And these additive symbols are added in the text according to the need for precision occasioned by the description of a particular angle of view of the same lever (7). But in a particular perspective, and according to the form explained / explained follows. And each of these lever (s) 7 consists of several parts / particles. From the base 3 (each of these bases) is fixed (firmly) to the axis of work 24 (the same for each of these lever (s) (7) connected to one of the axial / axial teammates (*** 24 / ## 24 / ** 24 / * 24) (each having an independent distinctive sign, whereas they have the same function in their individual frames, as it is explained later.) And the said base ( 3) is an integral part - and of said lever (7) - and Tax 24, and rotates with it (with Tax 24) while the movable part 2 of the lever slides / slips / surf / slides and moves on the part 3. It is in this moving part 2 that the head 43 (of the lever) which is movable and which is driven / towed towards the outer edge of the trajectory bypassing the structure, is trailed (and each of the trajectories). - according to its particular and individual form - as explained and detailed later) or to Anchorage Fee 4 and Work Tax 24 which are combined one in the other In this way are each of these levers 7. That they be in mono direction / dimension 7 such that this (# ** IA / # 1 / ** 1 / * 1 / IA / ** 1A ) Or they are double-sided 7 ** (and opposite head) on the same line in the 309 angle of each of the sides is the continuation of the opposite side. The whole is surrounded by the belt * / device or the trajectory of the geometric shape chosen optionally. This in this optional trajectory will be exercised the driving force. And this said trajectory can be substituted and / or represented by the belt (or by a chain and / or

similar) to which the head 43 of the lever is / will be connected. And this via the pinion / axle, towing / tractor 5 (as for each of these similar / multiplication) (# 5 / 5A / 5B / 5C / 5D) As explained later. And the axis / pivot (pinion) towing / tractor 5 is pushed into the two thing (objects) simultaneously (in the belt and in the head of the lever) But the absence of a belt, it and connected at least to the head 43 of the lever and that via a ball 59 that allows him to change the angle relative to the lever or relative to the belt to be able to pass the corners of (s) curve (s) of the trajectory of the belt while the working axis 24, he rotates with the lever 1 and via the lever 1 which rotates. And the same when the output wheel 35 which rotates via an inverse polarity- as explained later. But at the place or as in reverse, the location of the axis of work depends and sticks / superposes to that of the anchor axis 4 which does not move from its place. And this is possible thanks to the moving part 2 of the expandable lever. And all this when the belt takes shape, and marries the curve (s) of the path bypassing the curved / twisted applied geometric shape (at least in / according to one of the solution explained later). This curved trajectory / device is imposed on the belt via the guide wheels (s) which it bypasses. Each trajectory (each geometric shape) is effective as long as it is not a perfect circle, it is only then that it is effective as an exploited geometrical form. As a scale of measurement and comparison, the explanation / description concentrated / boils down to each illustrated geometric shape that does not have a circle but may contain a circle within that limit, and may be contained within the limit of the circle, (may be contained in the circle limiting it). Unless it exceeds the said circle worm outside these borders, and only that it is / may be more effective (more than the circle). But the comparison between the efficiency of the simple lever, are anchored in the center of a simple perfect circle, with a decentralized lever as indicated in the said mechanism / method / proceeds of this invention, and equitable / measurable comparable that in a frame of an identical outer circle (with identical diameter). And when he / she (the comparison) takes into account (among others) the length of the trajectory (circumference) in the basic geometrical form of mechanism taken for comparison. (Before any assembly or hybrid / fusion) (Or while at its hybrid / first-degree fusion / levels a '). Compared to the length / circumference of the ordinary circle and in relation to the circumference of the driving wheel. This comparison is valid only (only) if the circumference of the driving wheel of the two different geometric shapes is also identical. But a common driving wheel (one size fits all) will give various results. Advantages or disadvantages (as the case may be) and various measures -

from one geometrical form to another - from what can be hybridized / fused to the same circle. When one comes to compare the efficiencies with what happens in the so-called law of the swing, one must take into account the six main arguments / ingredients-influence. Among the four basic bases of physical law, some of which are visible and others invisible. And so the invention will discover it. And in which, only three dimensions are known among the four included. Such as / among them; - the length-, the initial force-, the speed - (the action time / speed of rotation). But the fourth is optional following the right combination - optionally. The six influencing elements are as follows: a) the ratios of (s) lengths between the two scales of the scale from Common Support Tax (and in the mechanism / process of the invention these are / their / their Similar - this work tax 24 when on one side acts on him the lever 1 and on the other side acts on him the output wheel 55). b) the size of the weight / force acting on them and its speed of movement (its kinetic force) (is in a motor it is the piston), whereas in the mechanism / process it is the initial and accumulated force acting in the path / circumference / device of the geometric shape on the head of the lever -or on the traction belt. c) the dimension of the lever acting on the support axis, and in said mechanism / process it is a / its variable length depending on the possibility of the maximum extension relative / relative to the maximum contraction of the lever 1 and in relation to the work tax placement 24 and / or the anchor tax 4. d) the completion time of a full revolution of the lever head 43, and the calculation of the force means acting on the common work tax 24 to the resistance average actuated / acting on it (on Tax 24) by the output wheel 55, and the result obtained by the analyzed structure. e) the completion time of a complete revolution of the head 43 of the lever, compared to the completion times of a complete revolution of a head of a lever (similar / comparative) acting on an axis of a perfect circle - (may contain and encompass / encompass the geometric form of the mechanism) (while their circumference (s) are never identical) (since that of the mechanism is smaller). h) the difference between these two items exposed in (eh) And when we succeed in improving the result of heading h preserving the capabilities listed in section d given that in section bya similar similarity between the constituent elements the said heading b while in rubrics c -d the elements cited / the data are different. And it is from these differences that was born the fourth fundamental basis (listed above),

which when one exploits a good report, it is / it is the key of the success. But to arrive? This is possible but at different degrees depending on the optional geometric shape that will be selected / selected. And so, in some geometric shapes exploited, the result will be inferior to the others. But this gap is catching and corrective, once they are combined (in) -hybrids / fusion according to the method explained later - (hybridization / fusion that is able to improve even the result obtained by the least successful form). But the explanation focuses on the most favorable and well-endowed forms (those that are effective already have their basic form even before all hybridization) and on these four -five preferred forms, the explanations will be based. And two of these four-five so-called favorite forms, are even beyond the circumference of said imaginary comparative circle 23 (assumed to be identical when calculating capacity comparison - compared to other preferred forms). And / or their hybrid / hybridization in first degrees / levels a '. And as it is said above, certain exploited geometrical forms that can be contained only in a circle 23 (larger proportionally) (see these two circles 23 - * 23) as a basis of comparisons in FIG. 5. But even lower-yielding (geometric) forms (producing lessened efficiency) (not detailed but enumerated above), will see their efficiency improve when they are hybridized / merged themselves . Such as when they are in hybridization / third degree fusion / levels c '). And so the evaluation of the effectiveness of the mechanism / process constantly pass through a permanent computation of efficiency in the face of the disadvantages-or relative inefficiency (Optional). And as a general rule, each geometrical shape that is not a perfect circle contains relative measures - lengths) 368 width (s) * 368 when the head 43 of the lever and the drive / work gear is traveling on said path around the anchoring axis 4 (and it does not matter in which of the basic shapes), (given that) the dimensions of the length (s) of the lever 1 these vary all the time since the traction pinion 5 is forced to circulate in the trajectory which is not a circle with respect to the stationary anchoring axis 4, whereas a radius of the circle 23 (which surrounds them) is at a constant length (as in everything and in no other circle ) and said constant changes (regular) alternemance (s) constant (s) lengths of the lever 1 allows to place a driving wheel diameter relatively smaller and therefore higher power relative to its circumference. Each of the forms envisaged in the said mechanism / proceeds, will work / will already operate from a single lever 1. But the efficiency of the mechanism also depends on the number of levers each of which

these so-called basic basic forms. The complexity of the concept of the invention and the complexity of the concept of the explanation of the various modes of operation are such that to make it simple is almost impossible unless one concentrates on the operation of a sample (a representative example). ) of one of its multiple geometrical forms and that when it is contains / composes of several levers 1 and in a certain well defined number And so if for example (by way of example) one explains that the geometrical form of the mechanism is that a rectangle 164 (double arc / double corner) and say that it works; either with a single extensible lever or with twenty extensible levers, the rotation speed of the working axis 24 will be the same (identical) in both cases, but the forces involved on the same axis of work, will be different. And the efficiency of the structure with twenty levers will probably be twenty times greater than that with a single lever. And this will occur when each of the levers 1 is securely attached to the working axis 24 and having a regular spacing (s) (optionally regular spacing and at an optionally regular spacing angle (s) from a lever to the other); And that when said working axis itself is anchored and overlaps the anchoring axis 4 anchored itself to the frame 18 in the center of the trajectory 64 in which will pass the head 43 of each of the levers 1 being fixed to the working axis 24 of the structure. And each of the levers is made up of two parts, in one (3) is fixed firmly to the working axis and serves as a bass to the other part (2) which is a movable part. And the head of the lever 43 is in the moving part 2 of the lever 1. At the head 43 of the lever 1 will find / found an axis / pinion / pivot 5 which will be taken, - is in the belt - and is in the head lever 1 - through / through pivot / bearing 59 allowing the modification of angles between the head of the lever 43 and the tractive / driving belt 64 during passage in the curves of the trajectory, or even when it passes on the straight lines of two parallels of the rectangle. Just as when he will pass on the two camouflaged and inlaid corners in the form of two arches 21 at the end of said rectangle. The belt is set in motion by the driving wheel 34, and this via the belt and the levers 1 that passes the transmission to the working axis 24 which rotates with and thanks to the lever (s), let intermediation between him and the belt. And when Workwheel 24 rotates, it rotates the output wheel 35 (or anything else) that we want to rotate by the force acting on the head 43 of the lever and / or the belt. Since the belt circuit is not in a well rounded circle, it includes corners held by small guide wheel (s) 68 (or optionally large wheel (s) 69). guidance - optional choice). And since each of them is optionally a driving wheel and (can be

I also) a guide wheel (optional choice). The so-called driving wheel (s) on the belt by friction, or by a wheel with denntels or by graduation system facing the holes (similar to the bike chain or similar) and all that according to a choice optional. When the driving wheel rotates, (actuated by the force that actuates it), it engages the movement of the belt, and it is it which actuates the levers 1 which actuates (in turn) the working axis which actuates the output wheel 35 and the like (such as the resistance lever 36). To obtain a uniform circular motion (at uniform speed) with an identical (relative) wheel but with delayed power. By associating an optional receiving wheel (not drawn) with the circumference of the output wheel 35, these are those relative dimensions which optionally fixed its rotation position in relation to the rotation of the output wheel 35. . At the edge, the structure 164 will look like a tube or a crushed rectangular wheel but having levers connecting its center to this circumference stretched to different lengths depending on the angle of their position relative to length line (horizontal) 368 and width line (vertical) * 368 sharing geometric shape (similar to those shown in Fig. 7. having 20 levers) (see also and in comparison Fig. 1. Having a single lever that is exposed at various angles / positions). As soon as the drive wheel 34 begins to rotate, the entire structure will rotate on the anchor axis 4 as a wheel. Except that the belt will rotate in the path of the rectangle 164 (and not in a circle as in a wheel) and that since the axis (s) anchoring (s) 4- 83 do not move from their place being firmly attached to Thus, the axis 24 rotates on itself - and on the anchor axis 4 and each of the wheels involved in the structure, each rotating on its individual anchoring axis. And only the belt runs on them with the drive / drive gear 5 caught in the belt. And during said movement, the lever (s) 1 will / will be extended and / or narrowed (shortcuts) in turn depending on the distance between their head 43 (with their individual handling pinion 5) and the working axis 24 to which they will be fixed. In such a structure (164) to which the driving wheel ** 34 is centralized having a similar diameter -see identical to the inner circle 45. And the only one / such a centralized drive wheel will be enough to turn the belt 64 at the same speed ( compared to a wheel having a diameter of the circle 23), while in order to overcome a resistance identical to the hubs, of the structure bringing together the three axes; 4/24/400 in the same place, the wheel * 23 must have a larger diameter. This (in high) is the summary of the explanation, and the unveiling of quality of the invention and the rest, will follow in further explanation later.

In such a structure (164) will be placed / placed a central drive wheel 34 or a driving or optionally external wheel 34 or at any other locations optionally in addition to or in place of one of the guide wheels 68/69 to optional choice. The most important and important is the proportional relationship of diameter (s) of these drive wheel (s) relative to the diameter and length of the belt. And this in proportional relation with the outer diameter of the diameter 23. (Bypassing the chosen geometric shape). And / or relative to the wheel # 23 when its diameter is identical to that of said outer circle 23 and when the axis of this wheel # 23 and concurence against the labor tax 24 or against the tax of the output wheel 35 when all are activated from the same common drive wheel. In each of the basic geometrical forms (and especially in the five of the so-called favorite form) there are at least two lines that intersect each other but which are never in parallel, and in the framework of the preferred geometrical form they are: length 368 line of width * 368. And in some circumstances they even cross at 90 ° see Fig.l. (But the angle of encounter depends on the form / format of the geometric form applied optionally). This and the traction pinion 5 is able to force the head 43 and the moving part 2 of the lever to extend / lengthen or compress and shorten, according to the relative angle of the line 309 which represents the relative lever angle 1. And when this line intersects / crosses one of the corners / comer the furthest away from Anchor Tax 4 (lie within the trajectory / geometric shape) it is a long lever. Or, (upside down) it is relatively from the nearest corner to this anchor axis 4 that a short lever. Any mode of motorization is valid to move / act the pinion / axis / pivote 5 and the belt (its belt), but the most representative mode is (that is) the drive wheel (34) optionally equipped with a lace crown 38 (or even any smooth) can matter, as long as it gets to force the belt to circulate. The same for each of its substitutes and substitutes (having individual distinctive symbols (* 377/377/34 external / §34 / # ** 34 / *** 34 / ** 34) As explained below: The optional driving wheel will be incorporated into the structure (s) and will be optionally located where it contacts the belt, (at least with one of these four sides of its profile - belt profiles) Each of the belts will be optionally connected to a number even or odd lever (s) 1 and pinion (s) 5 (the minimum number of - one lever per belt) and a higher number will be scattered optionally or good seems builder but so that they can act without disturbing to each other even in the turning and in the sharpest corners, and each of these lever 1 will be connected to one of these pinion (s) 5 and

it will be sufficiently rigid laterally but flexible in length or as needed, for each of the levers needs a minimum vital space (a minimum relative width) which reduces / limits the number of levers exploitable by a single belt. Said lever is interposed between the working axis 24 and the belt and allows each of these two to interact with one another to activate and rotate but with a polarity of force / reversed power, and as soon as one of these two is activated and starts moving, the other is obliged to follow it at the same pace. But as soon as the working axis 24 rotates on the spot (immobile), the belt will rotate around it but in curved / slalomed trajectory according to one of optional geometrical shapes indicated / applies (and not in circle - as precise in high). And when the drive wheel 34 rotates the belt, seen from the front / side it will resemble a crawler caterpillar track having its caterpillar turned / patina on the spot (or turned in the vacuum in the area) (without the vehicle moves). While the belt 'rolled' on the guide wheel (s) under the influence of the driving wheel (34) driving and with it the extensible levers 1 having the pinion 5 pressed simultaneously in both. And it is via the levers that the belt rotates the working axis 24 (which rotates / that is on the spot - without moving axis 4) (just like the guide wheels that do not move their axis Anchoring 83. But the activation of the belt via the drive wheel encompassing it * 377/377 and possible via the inner side of this wheel (* 377/377) and its lace crown 38 will be optionally internal or external. like that the belt, the lever (s) and the axis of work turn / all turn in the same direction, follow the direction of rotation of the driving wheel and / the image seen seems to a caterpillar (chain) -coined and turns in a wheel (* 377/377) - while the two elements (track and wheel) rotate together and the belt rotates simultaneously with its lever (s) extensible 1 and the axis 24 in the direction that the driving wheel is rotating ( like the caterpillar with the cheni in rotation without the vehicle moving) see Fig. 1. 5. During the In the process of the invention, in the power amplifier mechanism (s), the short belt 64 is activated to rotate at the edge of the optional geometrical shape (selected), in the most restricted form, among those having at least one overlapping corner of the contoument / contoumant circle (not drawn) - (as the point of an egg seen from the side, or as a camshaft upright corner cutout of the piston engine, but has its optional position when it ( the said camshaft) is at the total stop (not drawn). And the closest shape to that is the triangle (not drawn either). Compared to these two, the geometric shape of a square (four-cornered) trajectory (such as the rectangle or squared-acute cornering /) (or similar) are estimated the most

effective as explained later. The drawing, like the explanations, is on a structure having at least two vertices of lengths (or two corners) along the common line 368 (expressing the length side) similar to this description (s) / draws in FIG. 1. 4. 7. The head of the lever (s) extends to these corners after having been compressed and shortened previously (under the influence of pinion 5 and following its temporary position la in the path following activation by the belt) relative to a stationary fixed point on the trajectory. And the 'short' belt 64 takes on / embrace the geometric shape according to the guiding wheel arrangement which it bypasses. In the similar context of the rectangular / oval shape, (having two half circles at these ends, this shape produces two corners and two vertices 15 - ISA (and the like * 15) against two short corners (SA) see Fig. 1. Against (In relation to a) the other corners of the ordinary rectangle (not drawn) In this rectangular structure 164 is obtained / realized via two large guide wheels 69 (one on the right and one on the left 69A - * 69) (which determines them and the limits) or optionally a series of smaller guide wheels 68 arc-shaped array 21 (as produced by the outer half of said large wheel 69 see Fig. 1. (Unless otherwise indicated, a ferris wheel 69 is a wheel having the dimension of the inner circle 45 which simultaneously borders the two parallels of the rectangle and the arc 21 equals its half optionally.) In such a structure (the shape of the rectangle) there are two type restriction points. 5A of lengths during head recoil e of the lever 1, this two tip graze a centralized inner circle 45 which brushes the belt 64 during its passage in the two parallel lines that it passes. And this inner circle 45 with a diameter similar to / identical to that of the wheel 69 see FIG. 1. And when the anchoring pin 4 and the working axis 24 are embedded in the frame 18 in the center of this imaginary circle 45, the length of the lever (each lever involved) changes from single to double between its length in position 5A and its length in position 15 / 15A. And in a two-corner structure, the number of vertices is equal to two- for one turn (for a single turn) - for the belt and lever 1 (solemn) (as for each of the levers- optionally repeated) when his head 43 (individual) arrives at a single visit and in each of these two summits. It is only then that their length ** 1 is identical / similar and compared to that of (s) imaginary radius (s) of the circle 23 which bypass the said shape / structure 164 see FIG. 1.4. And when this lever 1 (the solemn one) extends and retracts twice per turn, it is equivallent (rivaled / similar) to two degrees of the said circumventing circle 23 (see Fig. 1). Until the basic form (basic) has been explained, but the invention and the process / concept also encompasses four levels a, b, c, d, hybridization / fusions, which increase

the efficiency and the capacity of the basic forms and allow at the same time; and overall number of levers per structure, (the overall structure), and the spacing / spacing of fixings of these levers from each other without having to modify the angles 309 which separates them. Which means ; If / when the imaginary circle 23 is transformed into a hypothetical real wheel # 23 (with its teeth outward), (or as in the larger wheel (s) 377 / * 377 than he, his teeth are directed inwards), and that his axis / their axes 400 (s) turn (s) / are (they) also at the same place is placed with an anchoring fee 4 (and in the center of the said rectangular shape 164), Then the drive wheel 34 which will brush and activate such wheel # 23 and the belt 64 (to rotate both simultaneously), then each solemn lever 1 will be in relative motion (approximately) the equivalent of two degrees (2 °) action of the radius of said wheel (# 23). And the meaning of such a relative quantitative comparison is equivalent to 180 extensible levers 1 for the single structure of the basic rectangle having the 'short' belt 64 as it is before even the level hybrid a. Or, a single 'long' belt 66 such that it (its length is) (after a hybrid level a) against 360 ° degrees (lining / radial) sharing the circumferential / surface of said circle 23 and the wheel # 23. (Fig. 7 shows several things simultaneously among which is a view of a said rectangle 164 having 20 extensible levers 1 (the drawing is artificially limited to 20 levers / only to give a lighter image) (but not limit the structure) And considering this picture - imagine yourself the same shape but having 180 levers. (At very great concentration since the belt and very short relatively) (An attempt of the placers all on the drawing (7) the would have turned into an incomprehensible black spot) (To expose them properly, the drawing size should be much higher than the patent filing profession regulations.) But according to this form of calculation, in a square structure # 66 in which there is four corners on the path of the belt §64 (long - short) in which can / it must optionally divide the said number of levers by two while keeping / maintaining the same efficiency / the same r As a result, and / or in exchange, (in the comparative calculation) the number of active (covered) degrees for / by each of the levers 1 can even be increased / considered differently: that is, according to this comparative computation each lever covers 4 degrees in (relative to) the wheel # 23 for each of the levers 1 for each of the degrees (1 °) of rotation of the driving wheel. But such a belt 64 / # 64 which will be activated by a driving wheel 34 together / simultaneously with a comparative wheel # 23 will rotate the working axis 24 much faster than the axis 400 of said comparative wheel # 23. Such a shift in speed of

Rotation will also be in each of the favorite geometric shapes - like any of the structures. And only an optional (non-drawn) adapter / variometer (relative speed matching mechanism) will be able to co-ordinate their relative velocities (when they are linked to each other and commonly to the common drive wheel and the common output wheel (When the common output wheel is optionally installed on the same working axis 24) and a parallel variable receiving wheel (another wheel) is mounted on a separate / distinct axis (individual) (not drawn) will be able to connect these two axes 24/400 and allow them to rotate together when (si) they are bound / consolidated together and when (if) their simultaneous movements come from the same driving wheel (to size / dimension identical for both), but the working spindle 24 and its counterpart, the output wheel 35 are free to be optionally connected to any other optional object auxchoi A large number of optional lever 1 pa r belt, will increase their concentration and risk to wear attient to their lateral stiffness, (to the detriment of), but by lengthening the belt in can solve the problem. At least a little lengthening. But an extended belt is equivalent to a deferred diameter / circumference - (and even if the difference is small, it is significant) a fortiori a large extension (such as optionally / as in the square shape). An optional rectangle-shaped square shaped passage (relative to the same imaginary circle (23) with a relatively lengthened belt, modified the minimum length of the lever upon retraction, and optionally transform the inner imaginary circle 45 into a circle larger * 33. But there are some forms of hybrids with a longer belt (66).

One of these produces the hybrid form 66 / 66A which is nothing other than the hybridization of two hybrid rectangular forms at levels a having an unoccupied internal space in the form of the imaginary circle 33 (which is larger and circumvents the other imaginary circle 45, but which is smaller than the imaginary circle * 33 of square shape) and the extended belt 66 / 66A can contain more levers 1 per trajectory (while keeping the 'vital' angular spacing 309 between the levers) for a complete trajectory (one turn) (see Fig. 2). In such a structure the recoil edge of the head 43 of the lever will be different than the basic structure of each of two rectangles (component said hybrid) and the pinion # 5 retracts only to the circle 33 and not to the circle 45 As in the rectangular form 164. For this, the outer guide wheels 67 pushing the belt 66 towards and up to the circle 33. Compared to the four vertices 15 to which it (the belt 66) will be pushed by the internal guide wheels 68

/ 69, having their individual anchoring axes 83 optionally dispersed to form the four arcs 21, touching one at the end of the other and bypassing the shape of the imaginary square 11. This finds inside the inner circle 33, and the two (all together) bypass the small inner circle 45 which in turn bypasses the axes (anchor and work) 24/4 see FIG. 1.2. In these two forms 66/164, the maximum lever length is identical (see arrow ** / in Fig. 4), but their length (s) are not identical at their maximum retraction. (And these are relatively modified during a level hybrid assembly '' since the inner circle 33 is larger than the circle 45 and even encompasses it) (See the various example of the temporary sprocket locations. / attraction 5 at various locations such as SA compared to 5C / # 5 / 5D). Likewise, any spacing / variation of the spacing angle of the various transverse lines of the lengths 368 in such a rectangular structure (having only one belt per geometrical shape) but having a belt longer than the 'short' belt 64 (the shorter for this form, has its basic shape) (but which is shorter than the belt 66- hybrid / fusion levels a) is optionally a new shape (which is neither the basic rectangle - nor the hybrid) having a width greater than that of the rectangle but smaller than that of the hybrid of the rectangles. (Just like the wings of a butterfly) (Or in the form of the number 8 - whose line 368 crosses its length, see drawing with broken line # & 64 in Fig. 7.) And that, since the dimension (s) (s) Long belt (s) 66 / 66A is / are longer in the hybrid form / fusion at levels a than their individual component parts- (the basic rectangles 164). And that when in a single geometric form-resulting from a hybrid level a, lie two lines of lengths 368 placed at a deferred angle with any offset - ranging from minimal and until their intersection at the angle right (90 °) see Fig. 2. And the line of diameter of the arches 21 are thus on the right (straight line) of the internal imaginary square shape 11. (See Fig. 2.) (This imaginary square 11 is the void surface that occurs when the hybrid has levels of two rectangles rounded with double corners). Such hybrid form / level fusion has (which is already presented in a previous invention IL215398) not (not assai) not as effective despite it allows to increase the numbers of levers 1 per belt with identical spacing. And although this hybrid form contains four corners in places and instead of two corners of basic rounded rectangular shapes 164. To remedy this defect, (belt plus lanyard (66) without increasing efficiency), in the invention acctuelle in him add another form

similar hybrid 66A merging & 66 together the two individually hybrid forms (66 -66A) via a common drive wheel *** 34 to form a b-level hybrid (containing two level a hybrids) (see FIG. 2). A hybrid in levels b is feasible on a wide surface (as shown in Fig. 2) and in compact space using intermediation / transmission wheels (not drawn) or a connecting belt 229 having the role of unifying and gather the force (s) of action (s) of two working axes (* 24 / # 24) for an optionally common result. And this hybrid / b-level fusion is possible in compact form when both belts (twice a belt in hybrid levels a) and these two belts will be activated by a common drive wheel * 34 with optional option to have an optionally united or bifurcated working axis (optional) (see Fig. 2.3). In another view of the invention; in one of its optional hybrid / merging options at levels c the same rounded basic rectangle shape (s) 164 (shown in Fig. 1.4.7.) will be coupled via a belt extra # & 64 (optionally having similar dimension or even identical) (at least one additional belt) but in a slightly deferred hybrid, containing; several units of basic shapes - such as rounded rectangle 164 not modified, but amplified - multiplied, having the 'short' belt 64 (together with its like # & 64 - see Fig. 7). and these two twinned (but not fused) belts (either two geometric shapes or 164 times 2 ((x2)) but having a common working axis (which unites them and passes through both when they are placed from these two). two sides) while allowing them to have an offset angle (s) of their line (s) of individual length (s) 368 (similar to the axis of two branches of the scissors) (allowing them to be installed side-by-side) (see simulation Fig. 3) regardless of the offset angle between them, and that in the individual center of each twin shape the shape of the imaginary central circle (similar to that of circle 45 and it is placed in the geometrical form in question (similar to what can be seen in Fig. 4.8) except that in / for each of the trajectories and geometrical shapes 164 among the component elements, there are guide wheels and so for each of the intervening belts. The guiding wheel (s) are attached to the chassis 18 for each belt individually rotating on their individual axis without displacement. Even in such a structure (164 (x2)) the axes 83 of these wheels (68/69) will be fixed to the chassis and will be immobile (as in the singular form having a single belt) but each of these geometric shapes / structures will be place / optionally rotated a different angle (to the choices) relative to its neighbors so

that the individual line 368 of each will not optionally be in parallel with any of its like but / while all of the lines of type 368 intersect at the anchorage rate 4 (as expounded in Fig. 7). And the angle of difference / gap between these lines reached up to the vertical at 90 ° relative (similar to what exposes in Fig. 8) but beyond the 90 ° and up to the 180 ° pivoting that will be the repetition but the opposite. (See also placement at various angles in Fig. 9.) This form of hybrid / fuss is considered c-level hybrid and in such hybrid form 180 elements / belts may optionally be duplicated even in a single hybrid structure - and even more. (Optionally). (That is to say - that 180 forms / elements / trajectories are united in a single hybrid) and when each line 368 pivots, (only has / and) at least one degree (1 °) from its neighbor, (to form a 180 homogeneous structure has 180 elements) they indeed cover 360 ° together an imaginary circle (since each of these lines 368 exceeds / travere the central axis 4 of two sides). And so; 180 individual rounded rectangle elements 164 were sufficient to cover all 360 ° of a normal circle. But even if each single-belt element 164 (xl 80) contains a (constitutes a) single lever 1 it expresses the equivalent of 720 elements of the angles 309 of the levers (compared to the 720 rays of the imaginary circle) (since each head Leverage in a rectangle 164 passes at least two vertices * 15 per turn). But in another perspective / formulation of evaluation / capacitance exposure of the concept / process, and assuming that each belt (in fiisine / hybrid structure) is linked to twenty (20 elements) of the levers 1, then it will suffice to 18 Hybrid / fusion c-type 64/164 belts to obtain 720 radiants (angles of action) of relative and optional levers at a solemn 23 comparative imaginary circle. And so on. And if each of the belts (fused / hybrid structure) will be linked to 40 similar levers, it will be enough 5 (five) belt (s), et cetera, et cetera. These figures are given only as an example, but in the true calculates we must take into account the effort required (exerted on the axis against movements and only in a form with a single corner (-cities above) ) there is an interest in looking for other optional angles even beyond 180 ° position - and that also in the fusion / hybrid framework at levels c. But similarly, a hybrid / fusion levels c not limit to two straps and can optionally have any additional number of more than two.And the more there will be straps by structure, the more the space from one lever to the other can be great.In addition, and optionally, their Individual transom lines 368 will optionally be scattered at various optional angles on the half-circle encompassing 23, see Fig. 8. The more participating belts will be, and at various optional angles of their lines 368 in intervals between two crisscrossed belts (having right angle ent re two similar-such as rectangle with rounded corners 164 and another of the same type -164), and the more levers 1 scattered at maximum angles 309 per structure - at best it is. More ; such a thing (a c-level hybrid / fusion with belt numbers and angle numbers (368/309) and optionally feasible and possible in any other geometrical form (put aside the perfect circle with centralized nuclei) - and for example in square-shaped # 66 (with belt §64 as explained later) See also optional example in Fig. 9 (although in Fig. 9 the form shown and slightly different-see particular explanation of this discussion in this drawing 9 Further included in the rounded double-cornered rectangular shape structure 164 as well as in its c-hybridized fusion / fusion hybridized form being composed of two or more paths / belts (one type 64 belt in each trajectories) the driving wheel ** 34 will be placed optionally even in the center of the said structure (banal / individual or its hybrid) (in perfect confusion with its imaginary inner circle 45 while the pin (s) 24 working as the axle (s) of anchor (s) 4 that are optionally also centralized. The greater the number of elements composing such a fusion / hybrid structure (one level c), the longer it (the structure) will be lugged (as camshaft or crankshaft of the engine of several cylinders in line) since each belt (element) additional that will be added / added takes its place as a piston of this said engine crankshaft in line.

In another aspect of the invention the exploited bass structure will be a geometric shape of the square (# 66) having the driving / driving gear rotating in such a path. And said single-path single-path shape (# * 66) only needs one belt to produce approximately what the rectangular shape 164 produces with two hybrid type 64 belts (levels a). b) (66 / 66A) (Figure 1.). But the §64-type belt is much shorter than the sum of two type 64 (64 × 2) belts of such a hybrid at level c (just like that of levels a) of two rectangular cross-section shapes 164. Or else their first-degree fusion (levels a) of these two geometric shapes (the two rectangles) necessitating a longer belt 66. (This whole comparison is valid only when they are all capable of being placed at the same time. However, while the §64-type belt is longer than the type 64 belts (of basic shape of the rounded-off rectangle 164), it is nevertheless shorter than the belt 66 (of the hybrid level a) Here again (in the so-called

mono form / trajectory (# * 66) the drive wheel will be optionally set to everything according to the optional facilitative options, and even inside straight lines of the said square shape (# * 66). Optionally, a centralized drive wheel having even (optionally) a larger dimension, and where its diameter is similar / identical - comparable to the imaginary circle * 33 capable of being installed between the walls of said square # * 66 to graze the belt (see Fig. 6). The relative advantage of such a structure is that; Despite the fact that the maximum lengths of the levers 1 in the extended position are identical for these two forms - (the rectangle 164 and / or as for the square # * 66 -), their points of limitation of the setbacks (their shortest lengths ) are not the same. And that of square form # * 66 are different and are already limited to the edge of the circumference of (large) inner imaginary circle * 33 which is of even greater size than the other inner circle (optionally imaginary) 33. (Such a circle 33 is optionally produced in the fusion / hybrid at levels a of several rectangular shapes 164) and therefore, the imaginary circle 45 of mono rectangle shape 164 is the smallest circle of these three imaginary circles see FIG. 6. And therefore the average lengths acting on the working axis 24 of square shape is greater by means of the lengths acting on the working axis 24 of shape of the rounded rectangle 164. And despite such a difference in capacity and of efficiency and sizes, (explained above), these two forms (# * 66 - 164 and their similar ones) merge optionally without difficulty when / for that, in relative / by adapting the dimensions of the intervening elements according to the dimensions of relative; such as drive wheels in diameter relativized to the rotational speed of their axes of work 24 (optionally in common) by adapting a relatively deferred speed for each of the two belts 64 - 64. The same for other elements added in optional fusion with each of these two there / and or with these two already in fusion. In each one of the structures / geometrical form (s) and their hybrid form (s) (mentioned above) one can optionally place several driving wheels by structure, and by global / general structure. But likewise can save in area and volume and optionally place the drive wheel at a central location, where it can be in optional contact and simultaneously with several belts and optionally activate several belts. See example in Fig. 1.4.8.9. And the like / etc. Including placing them in any angle (s) of crossing and regulation activity / speed and / or optional angles of each other (even if there is no parallelism between one element and the other) ( of these driving wheels (s) / element (s)) (See example the mechanism of the differential in the cars) and this even by exploiting them

optionally in dual function -in driving wheel and in guiding wheel of (any kind / type) -s -simultaneously. But it is already said, that; the exact location and relative angle of the drive wheel (s) and belt (s) that it (s) activates, and unimportant as long as the contact of these two (drive wheel-belt) and done correctly to activate the belt as intended and without accidental skidding. On the other hand, the relation -diameter and circumference relative / reciprocating (of the drive wheels and the belt) are intimately related since each variation of this initial relative ratio, modified the relative velocity and thus the relative powers (as it is known by the professional in the professions of field of-power-speed-force). In another view of the invention; there is an option according to which, in the geometrical shape / oval circuit 165 the trajectory shape of the pinion 5C will be slightly modified (relatively) and despite this, at the same short belt dimension 64 optionally applied to an oval mono-shaped 165 (as rectangular shape with rounded corners 164) (optionally having the same circumferences). And when the circumference of the trajectory is optionally identical to these two geometrical shapes -la 165 and 164 when they are superimposed on one another-it is possible to use optionally and alternatively, the same belt (common working axis 24 or superimposed too). But despite this the oval shape 165 allows a further extension of the lever ** 1A (see Fig. 4). And that when in these two structures (164-165) is optionally placed a central support wheel of the same type as the large wheel 69 and optionally centralized. Placed in the center of the form (s) / structure (s) or nearby and close to the centralized drive wheel ** 34 optionally having a diameter similar to the internal imaginary circle 45 (at the same size in the structure / form g of the rectangle to rounded corners 164, (or alternatively / substitute - optionally a drive wheel in place of a guide wheel.) This is easily possible thanks to these optional alternations of the large wheels * 69 - 69A (shown in the form 164 in Fig.l and by placing smaller guide wheels 68 at these two corners (see Fig. 4.9.) an oval trajectory geometrical shape 165 is obtained in which the short belt 64 will be optionally active via the same driving wheel and / or via the same centralized drive wheel ** 34 or external (34 external) (at the choice of the manufacturer) And with a quantity of levers 1 / ** 1A optionally the same Apart from that the (the) head (s) of lever (s) 43A will / will make an extension more long as indicates arrow 1 & (compare with the other arrows ** 1 indicating the maximum length (s) (relatively) in a rectangular structure (s) 164 (see Fig. 4), but the measure (s) of the retractions the lever (s) remained optional (in the two superimposed shapes 164 - 165) and remain similar / identical to that of the rectangular shape (164) and the difference (s) of the lengths between the lever 'short (s)' ** 1 and lever (s) 'long (s)' ** 1A modify) and increase the power and strength of the lever 1 to its furthest point of extension ** 15 relative to the same criterion (the top (s) of the lever (s) short (s) 1 1 relative to the same line of relative length of the structure 368. And as it is said above, all this is optionally possible with a 'short' belt with size optionally identical to the belt 64 (rectangle with rounded corners) and optionally with the same number of lever (s) .But for this (to form an oval trajectory 165) Tax / anchoring axes 83 (of small wheel (s) 68 will be further apart and placed farther from the common center (4) than that of large (s) wheel (s) 69. And / but the shape of Tare (arcs) of their trajectory, (in an oval 165) will be smaller than the arc (s) 21 of the half-wheel 69 (of the other form / structure 164). In the oval form 165 as in its rival, the rectangle, the size of the drive wheel (s) and / are optionally to be determined by the manufacturer. And / but, with a central drive wheel ** 34 (or outer * 34 similar size / identical) identical to that of rectangular shape with double rounded corners 164, the oval shape 165 assumed to produce / produces a higher result since speed identical to the identical belt (64) and identical drive wheel, the lengths of the levers 1 at their respective tops ** 15 and greater in the oval-shaped structure 165 (as can be seen in Fig. 4). Optionally, in this oval shape (165) the fusions at these three levels abc are feasible just as in the rectangular shape 164. Which will increase / enlarge the circumference of the outer circle * 23 and / or that of the drive wheel (s) ( s) exteme (s) -contourning * 377 (see illustrations Fig. 5.8.9.). These merged / hybrid forms - these mergers and hybrids, at their levels c can be optionally placed at various angles / positions so that their lines of individual lengths intersect at the center of the structure (where will also be placed the possible working axis 24 - see illustration Fig. 9. But at their fusion at the first levels a (complete) these same lines of lengths 368 will be optionally crossed vertically (90 °) (from one to the other) to the center of fusion, but at a combined fusion * & 66 at levels b the angles between these length lines 368 and the belt ** 66 and the belt *** 66 can be optionally modified (see illustration Fig. 5.9.) These merged forms (in all three levels) are optionally dispersed / spread over a wide area (illustrated in Fig. 2) or compact size (shown in Fig. 5) or according to the method illustrated in Fig. 3. Having wheels / a driving wheel (s) in mediation.

. . . A particular melting at a levels a of each of these two enumerated forms will produce in each form of fusion a hollow space of a size similar to / identical to that of the imaginary central circle 33 which is larger than the circle 45 and smaller than the circle. * 33 (see illustration Fig. 5).

In a further view of the invention, considering that even half of an oval or oval 165 is already a geometrical form 166 acceptable to be considered among the enumerated base forms at the top. And that's despite having only one arc that exceeds the shape of the imaginary circle 23. But the said arc / overtaking, produced a cut-out form of an egg, or a camshaft, as known in engine. (Except that the entire form itself (in this invention) does not rotate like the engine camshaft) and it is the belt that rotates in this path, (from the outer / outer line of the says form) (not drawn). And to be equivalent to the oval shape 165 it needs two separate belts and two separate levers 1, and optionally opposed. In two basic forms having their round circles superimposed. While their individual length lines 368 may optionally be crossed but at individual independent angles (non-parallel and non-identical) and such a superposition (of two forms) allows to exploit an output axis 24 in common. Such a basic geometrical shape 166 is a base for the triangle-shaped structure 167 to which the belt passes in a straight line between (on) the shoulders of the three guide wheels included in their common imaginary circle 23 and in which the working axis 24 is centralized or optionally at the center of the centralized imaginary circle 45 also (in the center of the imaginary circle 23 which encompasses the three elements of the triangle) (not drawn) in a triangular geometrical shape with three corners having the three lines of lengths traversing the shape will optionally produce the imaginary form of the Latin letter Y. And such a form (the triangle) only needs one hundred and twenty (120) levers 1 against 90 levers (/) in the square form # * 66 (and the same (90 ) in rectangular shape with four corners 163) (not drawn) or else with 180 levers in the shape of said rectangle 164 and oval 165. Or optionally 240/360 levers for the form of a so-called solemn arch 1 66 (egg cut-camshaft) and this when in fact relative efficiency comparison by measuring against the efficiency of a normal wheel # 23 having its axis of rotation 400 anchored to the same areas as the axis of anchoring 4 of these forms in comparison. Each geometric shape and its own anchor axis, and its individual / global trajectory, (which bypasses its individual form in question) (each individually).

A greater number of the elements (of said geometrical shape / structures / fusion / hybridization belts) can optionally reduce the minimum numbers of the belt levers (follow its melting level) or in exchange it can help to remedy the problem of too much concentration of the levers by belt, and thus be able to optionally place as many levers wanted and even cut into a larger number of divisions the comparative circle surface (imaginary or real) .And for example, to transfer a division to 360 particles / angles (or hypothetical levers) the totality of the 360 ° of a banal circle into the divisan in 720 parts / angle (or hypothetical levers) according to the mode explained above.

In another aspect of the invention, it should be understood that since optionally there is no limitation- or optional number of the driving wheels, nor their optional location- these wheels will optionally be used as speed variators according to an optional choice. Since without great diffrculter one can exploit them as variators rotation speeds very simple and optional and banal to control and regulate the speed of passage / rotation of the belt (the simple / mono, like that / its optional reproductions). And it is sufficient to optionally place two drive wheels 34 (with identical diameter or not) optionally, to be able to obtain that the belt can be activated and turned optionally at one of the various speeds variably). And two driving wheels with a non-identical diameter equate to two different speeds. And that depending on the optional locations of the driving wheels activated with an option of optional choices. This is easily feasible and better understood when operating a situation (a structure) optionally made up of relatively different diameter driving wheels as well as these various centralized circles (45/33 / * 33/23 / * 23) (see illustration # 23 / ** 34 / §34 / 377). Looking at these various central circles (45/33 / * 33/23 / * 23) optionally distinguishes five different circles having a different individual diameter, all surrounding the axis of the centralized anchorage 4. These five circles optionally being convertible into a centralized drive wheel optionally having these separate external driving / actuating teeth 34 or as an internally acting external drive wheel 377 / * 377 either. And placing two unequal diameter drive wheels in contact with the same belt, (and even if each one is placed on the other side of the belt) (internal or external - depending on their chosen optional location according to their relative dimensions in the structure) while simultaneously rotating at the same rotation speed (same number per minute)

N.T.P.M.) their circumferential difference will cause a deferred velocity belt displacement, and this depending on the size of the guard wheel (the active / activated wheel) (and its circumference) that will be in contact with it. All of this will optionally join an intermediation wheel 168 (and / or those similar in planetary rotation mechanics) and it will optionally juggle mediate (have the role of mediator) between unequal / unequal two-wheel drive to optionally allow the belt one / a direction of rotation controllable and optionally reversed / invertible alternately (to choose). And or to co-ordinate a speed by means of two-wheel drive with unequal diameter. All this and optionally at the choice of the manufacturer.

This intermediation wheel 168 (simulated / illustrated / insinuated in Fig. 2.) is a simple representative illustration of any other relative and optional intermediation system in the direction of rotation and the speed (and speeds) of rotations optionally controllable. and optionally variable. and the action / disposition of these intermediation wheels 168 will optionally accommodate a speed variator mechanism in planter mode. Each structure, as well as its fusion / hybrid - at each of the levels (a, b, c,) can possibly function individually and independently of the others. The same when passing through an optional higher melting level (d levels) of the structure (these d levels are not drawn but just insinuated in Fig. 3) Thus, the said mechanism / proceeds. and that at each of these fusion / rank levels (basic structures and / or their fusion / hybrid levels a, b, c,) may optionally be integrated into the method explained previously in a previous invention (IL 215398) of the inventing, treating differently the possibility of extension of a lever arm. The biggest problem / difficulty of the mechanism built according to this invention will be optionally the (relative) power loss due to friction or higher temperature by friction of moving parts. And especially that of the movable part 2 of the lever 1 by sliding on the base 3. This problem will be proportionally related to the number of extensible levers in the structure. And to remedy this, the integration and optional operation of ball bearings to the similar system and / or even a simple greasing (oiling) or any other anti friction system and method including stirring / twisting / inverted action system intervening between these two parts 2-3 of the lever will reduce friction and friction but optionally any valid method can intervene according to the optional choice of manufacturer. And even according to the method proposed and explained in the preceding invention - IL 238882 - of the inventor (in which is exploited a similar circuit / having four arcs wrapped by a single

. '1 belt (similar to what is exposed / presents the fusion to levels of form 164). To conclude we can say that; in this invention, a trajectory having a geometric shape that makes it possible to exploit the lever (s) 1 in the inner zone of the circle 23 (regardless of its size) in which it (the lever) is included. And as soon as this circle and overtaken by the head of the lever, it already produces / immediately an extension of the lever. An extension that exceeds the length of a single radius of the circle, (of a perfect circle). And a mechanism constructed according to this invention and process / design may be integrated into each mechanism requiring a higher force and / or higher power relative to its size and weight. (Like motors, gearbox, and the like), and the efficiency dimension of this mechanism (of the invention) is a mixed product resulting from the difference (and the ratio) between the numbers (quantity) of these levers 1 by belt and the number of corners it (the belt) goes through a turn. And this relatively related to the coefficient of ratio of the lengths of this same lever (s) 1 (between its (their) position (s) the (them) more retracted and its length greater-compared and relative to the dimension (diameter ) of the drive wheel, optionally selected by the manufacturer (and relative to, and said efficiency is compared to the result obtained by a normal wheel # 23 having the dimension of this imaginary circle 23 including the basic geometrical shape). these two bases will vary according to the mode of distribution of the internal ratios in said structure-relatively and proportionally to the diameter of the driving wheel, and all this is variable and varies according to the number and forms and levels of fusion / hybrid optionally applied. In brief and in an illustrated manner, it can be said that each of these basic-form structures, just like the fusion (their fi- nes / hybrids) described above, must be able to optionally, and can to be able to produce what until these days was defined as the impossible. That is, to increase the leverage (/) all and last its rotation and even reverse the polarities of "physical law managing the conduct of the balance"; Even to the point of leaning the lighter side (ie reversed the polarity of power relations in any instrument). In reverse and against all known logic in physical law intervening, as it was known / established before. (And this, without even having to involve external / external forces to the same structure - visible or invisible as for example the magnetic action forces). In fact, in reality, the invention and the so-called concept, process and method are something that breaks the prejudice known in the field about the law of physics. As they were known and operated by every mechanical engineer before. And according to which were

constructed all mechanical machines and instruments until these days, which, the principle of their dominant thinking was that it is the heavier side that always carries in a mechanism that imitates the physical rules of law (s) of the balance. And until those days there is no one who has contradicted them. But the invention and the said method and method are indeed the resolution of this enigma Until then, a theorem of the invention is described according to which in this invention all the elements listed (the lever (s) 1 and all its co-equipped optional or identical (in the most basic structure, as in the most combined melt / hybrid structure), the working axis (s) 24 and the belt (any size combined) turn (s) while moving together optional optional, and this optionally permanently around the axis of the anchorage 4 in uninterrupted circuits. But even an optional cutting of sections (in sections) in which the motion will be alternative-complementary or partial (optionally to choice) will be part of the qualities and capabilities of said mechanisms / structure (s). (Designed according to this invention). And that according to all and cacune of known methods these days to apply a reciprocating movement with double polarity and similar / etc. And at least as permitted by an ordinary instrument 32 (untrained) known to keep a ssns unidirectional rotation, while allowing the empty movement in the other direction. And he / they will be placed optionally at any place according to the choices of constructor. Optionally - inside circuits as well as outside -. All this - and more; the force acting on the working spindle 24 and considered according to the position of the most extensively expandable lever momentarily since its drive gear 5 and encompassed in the belt as in the head of the lever (via the ball 59 and or its optional bearing ) while the force of attraction of the belt is idem and unchanged throughout its length. But when the lever (the head of the lever) of guard is in its position of vertex * 15 temporary it is the / that while said lever 1 gets its maximum length (relative to the structure - and this during a short temporary inser ) and act on the working axis 24 with all its power / temporary force along this length. And that is why the relative number of levers per structure will be optionally relativized as a function of the number of corners possessed by the optional geometrical form involved. And this power / strength of the lever and ditto / unchanged at each corner but relative to each point of its passage on its device, where is its head (lever) (short or long - the proportions are kept), starting - beginning (same attempt) of action / movement as in high speed of the belt. A high rotation speed may (may) be coupled with the acquired kinetic forces and increase

Relatively the power releases from each lever (s) 1 according to the weight and velocity elements involved when they rotate in a relative circle around anchor point (immobile) and this (the suplements of the acquired kinetic forces) this according to the rule of law physics known in matter, but this is not the main condition for increasing the overall power obtained, (in this structure / invention) but a relative supplement only. Since even at the edge, (or trend boot), the power of the lever (s) 1 is relative and its length. And the overall calculation also takes into account its shortest size in proportional relativity. (Just as calculates the difference in the length of the radius (s) of the inner imaginary circle (s) 45 as of its imaginary middle 23 / * 23 (and in the largest circumference, that the head 43 gets its the greatest power / force, all the way through it, and each of the levers gets its maximum thrust in the farthest corners of its circuit, and its force / power last the other parts of the journey (at its low tide) is to be calculated according to the means of the set of points on its global trajectory (depending on whether its position is temporary at each of the points during the rotation) and it is only after having made this mode of calculation that one takes into account and one Adds the kinetic force acquired in the movement.This, and more, the placement of levers 1 and their attachment to Work Tax and the walking belt, goes through an additional difficulty: that the entire surface of the passage of the lever (s) ) 1 between its working axis 24 and the A belt and over its entire trajectory, must be free of any obstacle and allows the lever (s) 1 to pass unhindered over the entire surface of the geometric shape in each complete turn. Moreover; the efficiency and the result obtained from the same geometrical shape will be relative and according to the mode of dispersion of levers 1 on this form; and this dispersion may be optionally regular or irregular (by optionally grouping the intervening levers 1 into one or more groups (optionally) with an optionally equitable dispersion-or not, but still the overall result of effectiveness will depend on its relativity. This is why the dispersion will be more efficient by avoiding an initial lining of (in) the initial positions and production of the surplus angles 309 (unnecessary surplus) and the relative spacing between one angle 309 and another (of two levers and two separate 309 angles) will be a bare minimum / from any one of the fractions of 1 ° (0.01 °) go up to the almost opposite spacing of 179 ° (or even 179.99 ° or venting) ) when they are even almost superimposed or neighbors Apart from the opposite two-way levers ** 1 (which is better balanced but causes / generating unnecessary overweight) moreover the initial separation (regular) between two angles 309 of two

• 1 levers of an optional circuit with two levers, plays an important role for will be optionally fixed and favors when it is of the order of 45 ° or 90 ° from one to the other. And that according to basic geometrical form or its fusion. And the most effective are the 90 ° spacing from one lever to the next (in pairs) (see illustration Fig. 1.4.) And this optionally in the structure other than the triangles (since in the triangle l preferred spacing is approximately 60 ° / 85 °) and always with a minimum optional offset (more or less at 1 ° - even 0.01 ° - possibly) between the elements of the same torque. On the other hand, an initial spacing of 45 ° between two lines 309 in each of the merged / hybridized levels has forms listed as 66 / 66A / ** 66 / *** 66 when / when they are stored in a crossover of 90 ° between their length lines 368 will be an optional starting start for the distribution of the set of levers 1 of the structure. (See illustrations Fig. 2.5.). And from these bases of distribution will be the basis of distribution in mergers in levels c of these / their basic forms (see illustration Fig. 8. 9.). It should be noted that the efficiency of a 179 ° spacing between two levers of the same torque, will be similar to that of the efficiency of a spacing of one or two degrees side by side. And all this with the option of arbitrary and optional choice of; number of levers 1 per structure, as well as the distribution / distribution and order of sharing of the angles of the overall distances (as per each pair) and even if having other options of what is explained here in brief. The shape of the hybrid structure when it is formed by the merging at levels a of the rectangle 164 having a long belt 66 and having / consisting of four large guide wheels 69 / 69A 69B / 69C is optionally and effectively achievable only when the internal spaces of these wheels is restricted. And emblematic to what is explained and illustrated in the previous invention IL 238882. But such a thing is very difficult to achieve, unless; when a part of the surfaces of these wheels and superimposed on the surface of the other wheels. And by couples. As they are illustrated by the pairs (69- 69C) and (69A - 69B) when the wheels opposite these fringes (as illustrated with the pair * 69 / 69A which is also illustrated in the rectangle with two rounded corners 164. But this in a merging at levels of rectangle 164 that produces when each wheel shares its surface with its neighbor (optionally as illustrated in Fig. 2. (And in the various drawings of the invention preceding IL 238882). and for this, the structure (the chassis of the structure exploits a particular frame shape 86 (not drawn here) comprising a multi-layered frame and depths 16A-16B-16C (not drawn here) which allows relative and optional spacing in depth (similar

to that illustrated in the invention prior to IL 238882 of the inventing, number of levers 1 in a two-path structure / two melt belts, (depending on the optional melt form allowing this), will be more effective when the various angles of lines of lengths 368 will be deferred from each other, and that the angles 309 of gnashing / initial spacing (s) of various levers of the same belt will be different than that of the other belt. (And this in a space that can contain the common imaginary common circle 23) so that in a cross-cut side view, it will be possible always to see the offset of angles 309 of two levers coming from two individual shapes in merge as their lines of length 368 and superimposed so that constantly there will be an arrival of a lever (head of the lever) (of said guard lever) to one of the numbers vertices * 15 that contains the merger. Without an unwanted occasional duplication occurring. Since in such a dual use (of two levers arriving simultaneously at a vertex) (even distinct) the two levers have the same efficiency and the same influence on the result and therefore one of two is useless, and produces only unnecessary overweight. To illustrate these words, imagine your two hands face to face with the fingers stretched and spread in two positions; one in which they are superimposed and so we see that the fingers of one hand. Two; But when one pivots a little the hands, the (their) line of lengths 368 individual deviates from one another and then can see all ten fingers. Similar to this will optionally be the vertex point * 75 and the 24 / * 24 / # 24 work axes which will benefit from more frequent passage / visit of heads 43 to / on said * 75 summits at each turn. Such a thing is more visible / palpable / useful in a structure having optionally two side-by-side melt belts at levels b or c and in compact storage (similar to that shown in Fig. 3.). But the efficiency will be identical even during merger / twinning spread in melt surface level b. In this invention, the capacity and efficiency of the mechanism is already achievable from the basic geometrical form. Having the elements and structure organized in sufficient quantity to give the desired result, and this already even before any fusion at any level. The only hypothetical / optional problem will be the / a high concentration of levers. And in this case the square shape # * 66 is advantageous since it can contain with relative ease a greater number of levers 7 for four corners and thus optionally several extensible levers 7 rotating together (and in turn guard respective) a centralized working axis 24 via their individual idler gear 5 of each lever. And which actuating the heads 43 levers. And it is in this form that

also obtains a reduction (optional) of concentration of the levers that a reduction of the resistance by friction, since the movable part (s) 2 of each lever (s) has / have a recoil path and expansive / spreading will also be shorter and restrained. And when at these four corners (of the said square shape) we install internal guide wheels (small type 68 or large 69 unimportant) they allow and luffing the belt to pass in a straight line from one corner to another ( while each corner represents a vertex * 15 in length for the levers). That corners are / will be an acute or obtuse angle - no matter. It remains always square # * 66). And in this structure also the levers will be optionally scattered according to the choices of manufacturer. At an angle 309 to optional free choice. With such a square shape one obtains two lines of lengths 368 / §368 crossed in shape similar to the Latin letter -X- by mono basic form. And if, and when; a rounded two-cornered rectangular shape structure 164 will optionally be fused to a square-shaped structure # * 66 (having a proportional size in relation to the rectangular shape 164) (ie that the rectangle 164 can / will be instaled within the say square and between two of these corners (of said square) having the line of length §368 there transcendent while passing through the center of said square and transcending the axis 4 also) (at the same time that it transcends the center of said rectangular shape 164 and its anchor pin 4 (in common with square # 66) (see illustration Fig. 6) The working axis 24 in the center of square # 66 can be connected and optionally fixed even to 360 extendible levers 1 which bypassed it in an equitable distribution to cover a 360 ° circle (still according to the reasoning explained above), but thanks to these four corners (having 4 distinct vertices) it will suffice to 90 levers for performing 360-degree sharing as can be done in a wheel which may optionally include such a shape (as illustrated by the wheels 377/377/23) if, and when, their central axes 400/4 are superimposed in the center of this square shape. And all that is (of course such a construction / structure is of course optional and the exact number of lever (s) as well as the mode of their distribution and arrangement and optionally a choice of constructor.In the square-shaped structure # * 66 or its As the belt wraps around the device like a glove, the sprocket / traction ratchet stretches the length of the lever 1 to the outer side of the corner guide wheel (68/69), the belt and it (the rotates 5) bypass, but the straight line that passes between the wheels that form the corners and the length limitation / edges of this square shape.Therefore, the back of the head (s) 43 of the lever (s) follows this line (s) of limit and does not retreat more than that, so that the

dimension and circumference of the inner imaginary circle * 33, is the point of contact / rubbing with the four border lines (s) of the square, and constitute the points of the maximum setbacks (at the lever is at its shortest length) and this circle * 33 is larger than the circle 33 (merge) in levels a (of two rectangles 164). (See Fig. 2.5.) And this circle 33 is larger than the circle 45 of basic form (s) 164/165 (see Fig. 1. 6.) And an analysis and comparison of dimensions of these forms demonstrates that the line of head recoils 43 of the extendible lever in these basic forms 164/165 corresponds to the circumference border of the same imagined circle (s) 45 the smallest of these three imaginary circles (33/33 * / 45) (see Fig. 1.4 .6.) And it is for this reason that we can deduce that; In another view of the invention; a fusion / hybrid / twinning of various geometric shapes draw the trajectories of various structures in their primitive state is feasible. Just as their merger to any and all levels of fusion and crusade of forms without great difficulty, in the mechanism (s) achievable (s) according to this invention (and in each of that). The fusion illustrates in FIG. 6. expresses a feasible fusion even between two different basic forms such as the shape of the square # * 66 and the shape of the rounded double corner rectangle 164. And this is possible even when the drive wheel (34) which acts as a guide wheel also, is multi-level (with graduated diameters in progressive calibration) since each of these two basic forms (# * 66/164) has a dimension of contour (s) (circumference) different from the other then the mixed driving wheel (68 & / 34) is constituted with two (or optionally several) different diameters of fate than the two belts 64/64 (constitute this fusion) can rotate together despite the difference in size between them (while having the same axis of work). And the guide wheel location of this rectangular shape 164 (in such merge of these basic shapes # 66/164) will be optionally common with the guide wheels of said square shape # 66 in two of these corners. But the fusion of an oval form 165 with the square form # * 66 is possible also (not drawn) but having optionally a slight difference relative to the square-rectangle fusion (# * 66/164) according to which; Either the oval belt (165) will be shorter (if (if) it is placed entirely in the square # * 66) (not drawn) or the driving wheel (34) will be placed so that its outline The exterior will exceed the square-shaped border # * 66 to be able to operate the two belts simultaneously (that of the square §64 / and that of the oval 165 having the short belt 64). (Not drawn). But this will optionally produce two imaginary circles 23 / * 23 to bypass and encompass the same merge. And optionally two different lengths of their levers

1 individual. (See illustration Fig. 5). The said merged square shape # * 66 is possible and will optionally produce 8 corners (8 vertices) but having each basic form exploiting an individual short belt 64 optionally to the size of the relative square shape. But here, as in the fusions on the levels has the oval shape with the rectangular shape, (illustrated in Fig. 2. 5.) the gain (advantage) will be only the possibility of proportionally lengthening the belt (s) to be able to place more levers 1. But the effectiveness of operating force in action will probably be lower than that obtained by a single square shape alone. But if a double-melting (level b) faculty of two mergers in square-shaped levels will be performed, it will only set the record back on time and return to the starting square as in the rectangle mergers and / or ovals. But as it is said above, in the mergers at levels c can combine with a greater efficiency. Similarly to many of these square shapes # * 66 / # * 66 and optionally anything that looks like them. And that, years no difficulty and no limit imposed. (See illustration Fig. 6.) in each of the forms will be optionally integrated an output wheel 35 fixed on the extension of the working axis and (such a wheel added) it will allow to combine twinnings and adapt speeds of relative rotation optionally already between the various elements in a (the) merger (s) moderately by transmission wheels or optional belt (s) 229 as explained above and that via external wheels that would optionally to apply a single rotation speed (as desired) ). The direction (s) of the rotation (s) will be optionally unidirectional and unidirectional and the rotational speed too (unless otherwise decided). And so in this case, the (s) direction (s) will (optionally) be alternative (after marking an intermediate edge - optional time-optional). In addition, an inverter (a reverse direction mechanical) with an optional direction of rotation 32 (not drawn) will optionally be integrated. At each step / location (optionally) to allow optional bifurcation / modification of the directions of rotation (optionally) and this is optionally possible for unidirectional rotation as for two-way alternating bi-lateral rotation. And that too and optional to choose. Lubrication systems and friction elimination will be integrated wherever it will be useful (and especially between the parts 2 -3 of the lever and the rolling of the various wheels and various axes where the coefficient of friction is high, and among the said system one can enumerate the most known such as the balls, the bearings, the wheels, (including the said wheels of guides) of systems of lubrication and or of lubrications, systems with magnetic fields, and so on, according to the

thousand techniques known to those skilled in the field of friction. Two differing / various drive wheels optionally placed simultaneously on both sides of the belt (outer or inner of the form in question) may be active or passive optionally and separately and in turn. And the optional offset of their diameters to activate the belt at various speeds depending on the circumferential speed of the active drive wheel. And to such an option it will be possible to optionally add an additional option with an intermediate wheel 168 as a mechanical system planter with transmission wheels (all these are present symbolically by this single wheel 168) (exposed in theoretical / thematic example in Fig. 2.) to facilitate activation and control of the active / guard drive wheel without having to change its optional rotation speed. The possible drive wheel may be adapted to the belt optionally to each of these profile sides (having square or triangular profile or any other optional shape). And the possible drive wheel will be activated / optionally operated by its axis as (or) by its circumference. And its autonomous power will be influenced according to this optional choice (as it is known to those skilled in this field). And any optional resistance to the action of the belt and the lever 1 will be optionally pressing by the output wheel 35 (there is the maximum achievement / efficiency of their actions). But when reversing polarity the resistance to action will be made by the opposite wheel 34 and all (or) mode (s) calculates force ratios having to follow this opposite polarity. In a square-shaped structure, just as in a normal rectangle shape (not rounded) there are four corners and two lines of lengths 368 and in each of them one of these two lines of lengths are crossed forming the imaginary X-letter or center of the forms. But at a slightly different angle (since the rectangle is narrower than the square). But the triangular shape has a line of different lengths - forming the form of the letter (Latin) Y. The direction of rotation is not imposed. Neither when the rotation is continuous, nor when it is discontinuous and optionally alternative. And this without dependence of relative percentage (s) of the complete turn accomplished by the head (s) of the lever (s) 43 before the edge and the / the rotation in reverse when the alternating double direction rotation application. In all and each of the structures the efficiency is optimal when the belt perfectly adapts / marries the said basic shape, having the shortest possible circumference in its category - and relative to the diameter of its driving wheel. Thus, the dimensions of the mandatory corner arcs are optional. And the plurality of working axes 24 operated in a molten form, which can be installed side by side in compact format (melt at levels c or in extension similar to those known in camshaft or crankshaft (see illustration Fig. 3) And the operation of several optional working axes, allows to increase the number of levers without increasing their concentration.A full revolution of the §64 belt of square shape - having a single pinion / drive pivot / binding 5 connected with a single extendible lever 1 - will complete its rotation turn faster than a comparative wheel # 23 when both are operated by the same common driving wheel §§34 (see illustration Fig. 6.) But only when the 'filling / covering' of said square shape and made by several levers 1 and in good proportion by equipping the belt optionally with a sufficient amount of + - 90 levers 1, (optionally) that the pui The relative sums emitted by these two distinct forms (# 23 / # * 66) could be compared on equal terms or put in competition - possibly. A twinning / fusion of two working axes 24 of two independent structures (hand melt / hybrid) can be done by transmission wheels of adopted dimensions, or via the transmission belt 229 (as already mentioned above) but each of Exit wheels are individually exploitable even before any co-ordination with its neighbor (and their dimensions will be adapted (optionally) so that it can rotate together if their axial rotations are different). But the very last wheels of the ## 35 outlets are free to be coupled to any optional item, as well as its optional free dimensions.

And optionally; in another aspect of the invention, said output wheels 35 will optionally optionally be in contact with optional receiving (transmission) wheels optionally having an individual free diameter (not drawn) for mediation / unification and / or regulation of the rotational speed in the global mechanism using for this a number of indefinite wheel (s) with relativized diameters auchoix, installed by extension axes all relativized with respect to the primary shaft (which is the extension of the axis of work) (similar or known gear box). All this with an optional control clutch, optionally separating the line from the connection so that the belt can be rotated while the receiving wheels are at the edge, and vice versa. And that in any eventuality of design - rotating directional mono as alternating rotation of the mechanism optionally equipped with a reversal of direction 32 (not drawn). A mechanism / structure constructed according to the description above, when it will be equipped with a sufficient number of levers 1 (optionally adapted to each circuit according to its geometrical form exploited,

to obtain a power greater than that released by the comparative wheel, may optionally integrated into the mechanism described in the invention prior IL215398 of the inventor and was an optional improvement. All the descriptions, and the drawings used are interesting and are drawn and used only as an indication and examples to better clarify the explanations of this concept, method and procedure and the mechanism (s) used according to them. As the operating principle of a mechanism that will be constructed according to this invention and therefore the drawings are schematic and symbolic serving the explanation and not limiting the invention and / or the mechanism / structures that will be made according to this invention and this mode of explanation. Even if optional another geometric shape will be exploited in a structure exploiting the principles of the invention, will be considered as having been described herein. The description has given the principle with examples that can be realized but do not limit the invention to the (the) drawing dimension or to a scale of any size or measurement. The drawn lines of structures are schematic and do not limit the invention. And do not force it to be definitive and precise lines of real forms. This having to be done according to the precise criteria / researches the day of the construction.

Introduction and state of knowledge antecedent:

All the force and power amplification mechanism as well as the various engines undergoing the known physical rules. And specifically that which one can call: "the physical rules of the equilibrium of the swing". According to which the forces of the lever depends on its length and its effective length depends on its position and relative angle. In the engine and gearbox or power variators this and intimately linked with the completion time of each turn. And according to the methods known in the past, the physical rules of balance of the swing and the effective length of the lever are in permanent contradiction with the need to produce and translate the forces and powers in rotary motion.

And that's why even the most powerful engines have "broken the neck" by facing the problem. Bypassing this dam was not possible with the previous knowledge in the rule-of-law trade of levers and the so-called law rule of the scales. According to which once the lever is tilted up to the vertical of the scale - it has lost its lever status. (While all this trajectory of the horizontal line towards the vertical continues to lose its length and thus of its power relative to its axis of support / anchorage central.

It is known that the most primitive swing has only two lever with identical length having a central axis of support / anchoring and that we add weight or length to one side modifies the strength and power of the lever and the balance leans to the heavier side, and for the upright or inverted polarity it is necessary to add length or weight to the other side.

Only this is a rotary machine that is impossible without the application of what the invention describes. Since the temple of movement of two sides of the scale is identical and for that, added of weight or length where levers of the balance, does not modify the received power. And all that makes it to weigh down the scale (Let's go up to broken Central Press Tax) but without any useful result. (Similar in piston engine whose center crankshaft tax serves as axis of support). And that's why all the mounts (any type and style confused including jet engines and hydraulic turbine or electric motors and this.) Known, never exceeds the levels of 30% / 40% at 80% heat output in the best case. Let's not talk about the 100% objective or the. Since all this summarizes in this mathematical formula called "the law of the balance" in the attempts to solve this riddle of thousands of researchers and inventors have made ink flow and among them even a very famous name

F

Leonardo da Vinci who declared it impossible. But the world patent archive unveils thousands of invention of all that did not accept his statement. Among them is also invention No. IL 238882 of the inventor itself which was not effective enough without a modification of certain trajectories that it describes and some of which are included in the current invention with the necessary modification to be able to make it efficient and effective as the inventor anticipates. The increased pollution coming from power plant or factories like traffic and transports have push a lot of researcher looking for alternatives of clean energy but without really pierced the secret of the nature at the most they happen to inter-changed between solar energy with wind energy at waves at thermal depth but no more. Since the so-called "law of the balance" rule actually prevents them in advance; and for that another invention previous of the inventor the IL 215398 describes the way of exit of this mess but also it lacks a step because more in analysis the technique more observes that the physical law of the conservation of energy and the physical law of conservation of geometric shapes combined with the rule of balance and the dependence of power production and action time are linked and the enigma of being able to choose 'freely4' the leaning side of the scale is a major piece in the technological breakthrough necessary to be able to solve the enigma of the so-called "law of conservation of energy" and the invention preceding the IL 238882 indicates the direction but it remains to find the way. And what pretake to make the new invention here urgent.

Presentation drawing and figures: FIGURE 1: present a schematic view of a mechanism shown one side view of a favorable basic geometrical shapes of the mechanism and it include a rectangular shape with two rounded corners surrounded by the short belt bypassing two wheels type guide "large guide wheels" when they are anchored by their individual anchor axes set side by side and side by side by their circumference. And in the center of the form place the working axis on which are fixed two extendable levers, one of which is in maximum extension and the other in maximum retraction and relative to this form. The draw also features various optional placement options for guide wheels as well as a variety of drive wheel options and their optional internal as well as external locations. As well as the central location of work axis and the output wheel whose axis is placed in the same place as the working axis. This drawing also presents the (s) sprocket (s) of handling place at the head levers. The drawing also presents an option of a double-headed and two-way lever as well as the indication of top location of the said form. The whole crowns with relative and optional direction of rotation indications and a comparative imaginary circle and the optional exit wheel. FIGURE 2: present a schematic view of a mechanism shown seen from above and side of one of the merging forms of geometric level a and b of the mechanism and it include a double rectangular melt, and this when this merger to level a and b is spread out on the surface with two individual working axis combined by a transmission belt as well as a presentational mediation wheel. All with a common drive wheel external. And exit wheel- co-connected - where center of each basic form. Various guide wheels are present in mixed and varying option - in small and large relative size surrounded by long belts of each basic form in two fusions at level a. reorganizes into melt at level b FIGURE 3: present a view of a symbolically composed mechanism, shown in view of back fusions of the structure and belts side by side with an optionally common working axis and an exit towards the level d of mergers. FIGURE 4: present a schematic view of a mechanism shown side by side two different geometrical shapes and superposes, able to exploit the same belt having a common central anchor serving both forms respectively - the rectangle and the oval - having their unequal pitch tops and their respective imaginary circles and optionally identical drive wheels. FIGURE 5: presents a diagrammatic view of a mechanism presented a merged geometric shape merge side view at level a and b having optionally a common external drive wheel and two separate working axes (connected by belt) and that in spread assembly exposes respectively with a single lever (representative) by basic melt level a and as well as an imaginary circle and a drive wheel external to the size of the imaginary circle. The guide wheels are placed internally and externally, as well as the centralized output wheels (connected by belt) FIGURE 6: presents a schematic view of a mechanism present in plan view and the fusion side of two fused geometrical shape c-shaped square and rectangle (and square with rectangle) having optionally four internal guide wheel (various size) and a common drive wheel with fixed or declining diameter whose lever are in various relative position. FIGURE 7: presents a schematic view of a mechanism seen from the side of two basic form melt at level c and line shift lengths, and that when it contains several expandable levers all connected to a common working axis. FIGURE 8: presents a diagrammatic view of a mechanism seen from above and on the side being a c-shaped rectangular geometric shape merge with rounded corners, optionally having the drive wheels, the output wheel, and common and centralized work axis and several Representative levers exhibit in various position / relative angle. As well as representative guide wheels place externally and internally. FIGURE 9: presents a diagrammatic view of a mechanism seen from above and from the melting side a or c of several oval geometric shapes, optionally having the drive wheels and the output wheel, and the working axis is common and centralized the two representative levers exposed in various position / relative angle, represented all the others As well as representative guide wheels place internally and externally

Claims (1)

Claims: 1) The invention is characterized by the fact that it is at the same time a mechanism a method and a design, having the vocation and capacity of amplification of force and mechanical power of the extendable rotary lever 1 on its working axis 24 and optionally and possibly in the opposite manner and that of the possible favored basic form having at least one lever 1 as well as an optional unlimited number of such levers 1 (scattered or in groups having the same working axis 24) and this thus in each of the basic forms in possible mono form as in their optional fusion and hybridization in compound form having an optional choice of forms of fusion and hybridizations in several levels (a, b, c, d,) and in these multiples designs each lever 1 and composed of two main parties in a movable / sliding part 2 and its rotating but non-sliding base 3 based and fixed firmly to the axis of each movable / slidable piece 2 to a head 43 and the pinion (s) / pivot (s) 5 optionally actuated by a belt and / or driveway 34 via a peripheral or short or long 66/64 belt according to the possible form of the basic (peripheral) formation or its fusion at levels a and according to the optional choice of the said form as to its fusion in one of the four levels (a, b, c, d,) of optional fusions proving be spread over a wide surface as compact storage side by side exploiting an entire working axis 24 individual and / or optionally collective (s) and this in any size of the most preferred basic form the most reduced to the most complex compound and fused form Having optionally at least one corner for two opposing vertices (sharing the same length line 368 or not) and one vertex maximum backward point (sharing the same length line 368 or not) having an unlimited vertex number per form / p at the same time a small number of corners follow favored form In basic form (s) as in their hybrid in levels a Having optional and possible unlimited multiplication of corners and vertices depending on the chosen geometric shape and / or or the form and the numbers of fumes in each of the optional melting levels a, b, c, d. The initial separation angle of lines 309 between two levers 1 and optionally constant but made in free choice of distribution having a free offset prove to be from 0.01 ° to 180 ° per pair of the same basic form as by an optionally compounded couple through several optional / optional merging forms The levers 1 will be optionally grouped or dispersed along their peripherals / belt in the basic form as well as in fusion Also in fusion with levels a and idem in multiple fusion at any levels the speed of rotation is free like the direction of rotat the lever (s) 7 and (s) axis (s) 24 and any belt (s) will be optionally unidirectional or reciprocating in one direction or in two several optional directions Simultaneously or individually / progressively optionally with or without a possible reversing mechanism of the directions 32 The various possible working axes 24 of a merger at levels b will be grouped together by a possible belt 229 or optional transmission wheels. as the output wheel (s) 35 and optional and optional receiving wheels The number of levers 1 will be optionally adapted and will have an approximate number of 90/120/180 levers 1 per possible structure if the axis 24 is competing with an axis 400 of a normal wheel * 23 and will count approximately 90 levers 1 for the shape of the square # * 66 and 90-120 for the four-corner rectangle with 120 for the triangle shape and 180 for the oval shape 165 or rectangle to c These numbers are optionally not limited. Throughout the formation and their fusion, the individual device and / or the individual belt will be stretched in a straight line between the vertices and / or possibly shouldered guide wheels and the drive wheel. optionally fill / fulfill several possible functions simultaneously. 2) The invention is characterized by the fact that it is at one and the same time a mechanism a method and a design, having the vocation and capacity of amplification of forces and mechanical power of the extensible rotary lever 1 on its the working axis 24 and optionally and possibly in the opposite direction and that in the possible favored basic form having at least one lever 1 as well as an optional unlimited number of such levers 1 (scattered or groups having the same working axis 24) and that the said working axis 24 turning or center of the basic geometrical shape with square peripheral # * 66 having 4 sides stretched between four corners bypassing the anchoring axis 4 overlapped in collusion with / by the working axis 24 centralizing an unlimited number of levers 1 and a minimum lever 1 having their heads 43 directed to the belt §64 rotating in this device on and the four guide wheels to optionally free size 69 / 68 each placed in one of the possible corners of this square shape (without limitation of number) having the shortest possible belt peripheral §64 Just as via a specific frame optionally leveled 86 allowing multiple levels 16A / 16B / 16C for large wheels (69A / 69B / 69C / 69) of this square peripheral shape and the shortest possible belt §64 connecting in line (s) straight (s) the four corners bypassing the four guide wheels Each one of the levers 1 and composed of the two main parties in a movable / sliding part 2 and its rotating base but not sliding 3 based and firmly attached to the working axis 24 and each movable / sliding part 2 to a head 43 and the (s) pinion (s) / pivot (s) 5 optionally actuated by a belt and / or driving street 34 or those possible substitutes (s) §34 / 377 via a peripheral or short belt optional §64 in which and as one full turn of the belt / spindle 24 / lever (s) will be faster than one turn of the comparative wheel # 23 and the optional exit wheel will optionally be placed in front of or behind an optional clutch mechanism and will communicate with a or multiple receiving wheel (s) ie optional via transmission wheels and / or belt fits a possible and optional reversed-direction mechanism 32 will reverse direction (s) In basic form as merged form in each of levels a, b, c , d, of optional merge and ditto in each of the other forms and specifically in these four other basic forms such as the two forms of rectangle (rounded 164 or four corners) the oval 165 the triangle and even the mono-corner form ( egg) and their fusion (s) and hybridization in all levels even before generating the merger at level d. The invention is characterized in that it is at the same time a mechanism a method and a design having the vocation and capacity of amplification of force and mechanical power of the extensible rotary lever 1 on its axis 24 and optionally and possibly vice versa And that in the basic form favored possible having at least one lever 1 as an unlimited number optionally of such levers 1 (scatter or groups having the same axis of work 24) places with the anchoring axis 4 at the center of basic shape having its peripheral in a rectangle (rounded 164 or four corners) having their two lateral / lateral sides in parallel having 180 (or 90) levers against 360 ° of the comparative circle Having the axis of centralized work 24 and centralizing an unlimited number of levers 1 and at least a lever 1 having their heads 43 directed to the belt 64 rotating in this device on and the wheels of e guiding to optionally free size 69/68 placed each in one of possible corners of this form And each one of (s) levers 1 and composed of the two main parts in a movable / sliding part 2 and its rotating base but no slider 3 based and fixed firmly to the working axis 24 and each mobile / sliding 2 to a head 43 and the (s) pinion (s) / pivot (s) 5 optionally actuated by a short belt 64 and / or driving street 34 (centralized as external or external * as its / these possible replace (s) ** 34/377 in which and such that a complete revolution of the belt / axis 24 / lever (s) will be faster than a lap of the comparative wheel # 23 and the optional output wheel will optionally be placed in front of or behind an optional clutch mechanism and will communicate with one or more optional receiving wheels / outputs via suitable transmission wheels and / or belt. a possible and optional reverse directional mechanism 32 will allow reversing of direction in basic form as in fused form and that in each of the levels a, b, c, d, optional merging and ditto in each of the other forms and specifically in these four others basic shapes such as the square shapes # * 66 of the oval 165 of the triangle and even the form of mono-corner (egg) and their fusion (s) and hybridization in all levels even before causing the fusion at level d. 4) The invention is characterized by the fact that it is at one and the same time a mechanism a method and a design having the vocation and capacity of amplification of force and mechanical power of the extensible rotary lever 1 on its axis 24 and optionally and possibly vice versa And this in the possible basic form favored having at least one lever 1 as an unlimited number optionally such levers 1 (scattered or groups having the same working axis 24) placed with the anchoring axis 4 at the center of basic shape having its oval device 165 having 180 (or 90) levers against 360 ° of the comparative circle Having the centralized working axis 24 and centralizing an unlimited number of levers 1 and at least one lever 1 having their heads 43 directed towards the belt 64 rotating in this device on and the guide wheels to size optionally small 68 each placed in a corner of eventual s of this form And each of (s) levers 1 and composed of two main parts in a movable / sliding part 2 and its rotating base but not sliding 3 based and firmly attached to the working axis 24 and each moving / sliding part 2 to a head 43 and the pinion (s) / pivot (s) 5 optionally actuated by a short belt 64 and / or drive street 34 (centralized as external or external * as its / these possible replacement (s) * * 34 / * 377 / * 23 in which and such that a full revolution of the belt / shaft 24 / levers will be faster that a comparative wheel turn # 23 and the optional exit wheel optionally placed in front of or behind an optional clutch mechanism and will communicate with one or more optional receiving wheel (s) via transmission wheels and / or or adapted belt (s) While a possible and optional reversed-direction mechanism 32 will allow reversing direction in basic form as in fused form in each of the levels a, b, c, d, optional merging and ditto each of the other forms and specifically in these other four basic forms such as the square shapes # * 66 the two forms of rectangle (rounded 164 or at four corners) of the triangle and even the single-corner form (egg) and their merging ( s) and hybridization in all levels even before generating the merger at level d. 5) The invention is characterized by the fact that it is at the same time a mechanism a method and a design, having the vocation and capacity of amplification of force and mechanical power of the extendable rotary lever 1 on its working axis 24 and optionally and possibly in the opposite manner and that in the possible favored basic form having at least one lever 1 as well as an optional unlimited number of such levers 1 (scattered or groups having the same working axis 24) placed with the anchoring pin 4 in the center of the basic shape having its half-oval peripheral (egg) having its short dimension superimposed with the circle it contains so that two superimposed shapes and at the opposite corners together form an oval similar to the oval 165 but with option that their individual lines 368 will be only optionally continuity for both possessing an unlimited number of levers 1 versus 360 ° of the comparative circle having the centralized working axis 24 and centralizing an unlimited number of levers 1 and at least a lever 1 having their heads 43 directed towards the rotating belt in this peripheral and the guide wheels 69/68 placed in a possible device And each of (s) levers 1 is composed of the two main parts in a movable / sliding part 2 and its rotating but non-sliding base 3 based and fixed firmly to the working axis 24 and each movable / sliding part 2 to a head 43 and the (s) pinion (s) 5 optionally actuated by the belt and its drive wheel 34 (centralized or external or external * as its / these possible replacement (s) and the optional output wheel 35 will optionally be placed in front or behind an optional clutch mechanism and communicate with one or more optional receiving / output wheels via suitable transmission and / or belt wheels Then that a possible and optional reversed-direction mechanism 32 will allow direction in basic form as in merged form in each of the optional a, b, c, d, merge levels and idem in each of the other forms and specifically in these other four basic shapes such as square shapes # * 66 both rectangle shapes (rounded 164 or four corners) such as the entire oval 165 and the triangle as well as their fusion (s) and hybridization in any levels a, b, c , even before creating the merger at level d. 6) The invention is characterized in that it is at the same time a mechanism a method and a design, having the vocation and capacity of amplification of force and mechanical power of the extensible rotary lever 1 on its work axis 24 and optionally and optionally vice versa and this in the possible favored basic form having at least one lever 1 as an optionally unlimited number of such levers 1 (scattered or groups optionally having the same working axis 24) placed with the anchoring axis 4 in the center of the basic shape having its triangle shaped device having several levers (from 1 to 720 or more) against 360 ° of the comparative circle Having the centralized working axis 24 and centralizing an unlimited number of levers 1 or lever with a double opposite direction 1 ** and at least a lever 1 having their heads 43 directed towards the rotating belt in this device on and the guide wheels 69 168 each placed in one of the corners of this form and each of the (s) levers 1 is composed of two main parts, one of which is movable / sliding part 2 and the other is its rotating base but not sliding 3 based and firmly fixed a the working axis 24 and each movable / sliding member 2 to a head 43 and the pinion (s) / pivot (s) 5 Optionally actuated by a shortest possible belt depending on the guide wheel size when it is activated by the drive wheel 34 or any such substitute (s) in which a full revolution of the belt / spindle 24 / levers will be faster than a turn of the comparative wheel # 23 And the optional exit wheel 35 will optionally be placed in front of or behind an optional clutch mechanism and will communicate with one or more optional receiving / output wheels via transmission wheels and / or adapted belt While a possible and optional reversing mechanism 32 will make it possible to invert direction in basic form as in fused form in each of the levels a, b, c, d, optional fusion and ditto in each of the other forms and specifically in these other four basic forms such as square shapes * 66 both forms of rectangle (rounded 164 or four corners) of the oval 165 and even the form has mono corner i fusion (s) and hybridization in any level and even before it causes the merger at level d. 7) The invention is characterized in that according to claim 1; it is at one and the same time a mechanism a method and a design having the vocation and capacity of amplification of force and mechanical power of the extendable rotary lever 1 on its working axis 24 and optionally and possibly vice versa in starting from the exit wheel 35 and that in the possible favored basic form having at least one lever 1 as well as an optional unlimited number of such levers 1 (scattered or groups having the same working axis 24) and that the offset angle favorite and useful of the same pair and from 60 ° to 90 ° in basic form and 90 ° in melting formation in levels a and that the distribution / scattering of the other levers will be organized around these two with a free and regular shift of 1 ° (and or its optional proximity) by additional lever up to obtain a shift of 179 ° per homogeneous pair as in an inter-fusion pair and that with the optional option of r reduce or increase the number of leverage by structure and reduce it gradually and proportionally and optionally as the merger is more complex (richer in structures) in levels b and c of mergers but with moderation control this optional reduction and in any case the passage of the lever (s) will be clear of any obstacle to allow a complete shooting and easy lever (s) at each of these towers. 8) The invention is characterized in that according to claim 1 and the complement that follows; each belt and device designated for / as the path of the pinion 5 will be the path in which the head 43 of the lever passes behind or between the optional guide wheels 67/68/69 to reach its maximum extension once arrived on the corner / the spike the corner which crosses the length line 368 and the optionally perpendicular line * 368 crosses the most receding point of said head 43 and these two lines 368 / * 368 intersect at the center of the anchor axes and the work 4 / 24 and the crossing angle is an optional choice but they will never be in parallel in each of five basic forms favored there will be one or two traversable line indicating the lengths 368 and during their melt formation at levels c - the merger will contain an unlimited number of these lines 368 which will all be crossed at the center of the 4/24 axes of the merger but at various angles and optional consisting of an unlimited number of similar lines 368 all intersected at the center of 4/24 axes and as many line lengths short * 368 indicating the widths and they will cross the shortest recoil place of the structure and the circumference of the circle 45 will be optionally the recess point of rectangular format 164 and similar of the oval 165 while the line 368 will cross the vertices of these forms . 9) The invention is characterized in that according to claim 1 and the complement that follows; the location of the drive wheel will be optional in each of the structures and it will be operated optionally to do several functions simultaneously among that it will serve as a mediator and tool / tooling of regulation and relativization of rotation speed of the belt And this representing optionally all ( s) system (s) possible motorization / activation of the mechanism and the belt But as much as a driving wheel it will be optionally smooth or serrated 38 (or choice) and it will be alone or in multiple (by group) it will be internal or external * 377/377 to serrated 38 internally or serrated externally or even external type 34 at centralized or decentralized location and having a role optional and optional shape and location 34 / ** 34 / *** 34 being centralized or decentralized Having a single circumference or a graduated circumference 34 / §34 and optionally it can also replace a guide wheel Thus a pair of two wheels A driving motor with a varying / different diameter optionally making a regulator of vehicles with or without an intermediate mechanism (planetary or otherwise) with a pick wheel 168 the (s) said wheel (s) drive (s) will be in contact with the belt and optionally via one or more of these lateral profiles said wheel (s) will be activated optionally via their axis or via their circumference and will optionally be a resistance to activation from the output wheel 35. The invention is characterized in that according to claim 1 and according to the following supplement; the belt is an instrument / tool among an optional choice having the vocation / role of moving the head of the lever (s) along the individual device of the basic form to the merger in levels a to be able to rotate the working axis 24 against any resistance coming from the other side of the axis (wheel 35) And a ball / pivot 59 will be placed at the head of the lever as a belt to facilitate the passage corners of said trajectory / device The said belt is also and similar capable of pulling the head of the lever with the same efficiency (rigidity) Can follow the curve of the trajectory with the same flexibility as the belt Idem during activation in counter sense or in polarity tale when it is the wheel 35 which will be driving. H) The invention is characterized in that according to each of claims 1,2,3,4,5,6, and according to the complement that follows; any geometric shape having at least one corner is part of the valid and effective basic shape group but even at different degrees follow the number of corners it contains and even one circle at a non-centralized 4/24 axis (egg / half oval) (before any fusion) and therefore it is an automatic part of claims as a valid and efficient basic form and each of these forms can be or have a fusion / hybridization in levels a as in levels c even before being merged at levels A and at their melting at their 368 line lengths will optionally cross at any possible angle (even in # 64) but having the 90 ° perpendicular to the preferred angle and will be clad with optional strap or having a slightly longer peripheral 66 having the optional option of being activated by a wheel (in indefinite number but from a single wheel) driving by giving imaginary form variants / different from each one of form in However, when merging into levels c their lengths 368 will optionally be crossed at any possible angle with an optional option to have even 180/360 (like any other number and number) type 368 line by merge (this is lighter look in / as a basis for comparison between merging in levels a and the same basic elements in merging in levels c exposed by way of example and comparison in three drawings (the 5 faces 8 and 9.) These forms Basic merging into c-levels will have a short peripheral / belt 64 and work axis 24 individual but their work axes 24 will be linked to each other and optionally directly or indirectly to have a common action of all axes 24 in formation And their drive wheel (s) will optionally be individual or in common Ditto for the output wheel 35 optionally idem melting at levels b la the axes 24 (24/24 # / * 24/24 ## ) will be linked either by co urea 229 either by one transmission wheel of the other mergers can have an upper stage having the fusion at levels d and optionally have at all levels a single output wheel or combine 5 optional receiving / output wheels with or without adopted clutch mechanism. 12) The invention is characterized in that according to each of claims 1,2,3,4,5,6,8,10,11 and as it follows; Each path / device contains one or more corners and vertices * 15 along the line 368 having two vertexes per line. But the four-corner rectangular shape will consist of two X-crossing lines 368 having four corners while their backs will be placed on the line * 368 and will be lined up at the inner imaginary circle circumference (45/33 / * 33) placed in the center of the shape / device Idem in the shape of the square But in triangle shape the 3 line 368 will be crossed at the center for a form similar to the letter Y And ditto in their fusions / hybridization in all levels. The invention is characterized in that according to each of claims 1,2,3,4,5,6,8,10,11.12 and as follows; the ability of the mechanism constructed in accordance with the above-described invention to overcome the difficulty (s) and resistance (s) at their optional end (s) (such as wheel or wheel 34 follow polarity of action) (and even allow to reverse the rule of the scale) depends on the character of the basic form and relative number of the corners that it has and the relativity of that And (as well as) the length of the belt / device in application and these two elements in relativity with the number of lever (s) 1 per structure And all this (the set) in relativity with the dimension (diameter) and / or relative speed and relative circumference of the optional drive wheel and therefore it (the mechanism) will be optionally integrated in any sort of mechanism (s) to various function (s) and dimension allowing them to increase their output Whether in speed box or in variateurs de vos any kind and optionally to any and all of their similar and it will have a suitable lubrication system as well as optional ball bearing and / or other system to reduce friction placed optionally at any relative location and thus the mechanism power depends on optional choice of all these elements put in coherence according to the criteria sought While the flexibility of length (s) of the lever 1 will be only in its length but / whereas in width (lateral) it will be relatively rigid In action with one direction as in action with double sense In continuous movement as in movement altemativf. 14) The invention is characterized in that according to claims 1,2,3,4,5,6,8,9,10,11.12,13 and according to each of these claims and the complement that follows; The invention is at one and the same time a mechanism and method, a method and a design, having the vocation of the role and the capacity for amplification of force and mechanical power of the extendable rotary lever 1 on its working axis 24 and optionally and possibly vice versa And this in the possible favored basic form having at least one lever 1 as well as an optional unlimited number of such levers 1 (scattered or grouped optionally having a same working axis 24 -in communities or individually-) and thus in each of the basic forms possibly in mono form as well as in their optional fusion and hybridization in compound form having an optional choice of multi-level melting and hybridization forms that these melt / hybrid form will be side by side & * 66 or in surface spacing * & 66 / & 66 and any angle of variation / bifurcation having a common drive wheel 34 or inner or outer compound with or without laces operated in one or more functions simultaneously without major difficulty d to be one or the other But having all the various formation gathered (uniffied) for a joint action of their working axes 24 Of the same when passing to a merger at levels d And apart from any form having a corner is valid as a basic form among and just like the five basic forms enumerated above while these five are most useful / eficace all having an optional level merge option as well as higher merge levels (such as levels b, c d).