ITPG990047A1 - MUTUAL SUPPORT OF TIE RODS BETWEEN TWO CONCENTRIC CIRCLES FOR SINGLE AUTOROTAN TE - Google Patents

Description

DESCRIPTION of the Industrial Invention entitled = MUTUAL SUPPORT OF TIE RODS BETWEEN TWO CONCENTRIC CIRCLES FOR SINGLE SELF-ROTATING =

SUMMARY

Unlimited energy for alternators, M A CCH I N E and pumps.

TEXT of the Description

The perpetual motion of WHEEL two is done with two circles (fig. N.

3.408) and two tie rods whose winding, leaning on the median circle, rises close to the attachment of the larger wheel, whose hook is the fibnal part (tail) of the other tie rod, whose R R is absorbed (canceled) by the Action (Α-Α ') and unified to the opposite and opposite Action which becomes active, so that the two circles become a spinning wheel (mysteriously ... mystery more mysterious less Italian universities, they are full of mysteries .. .), capable of developing any force, especially with half weight in both centrifugal and Newton's (circular pendulum) function. Figures 3.404 and 3.405 have a 1st type lever, angled in function aR (anti-reactive) against the reaction (oblique radius) of the 1st type bicycle lever with teeth against the middle wheel. Thus fig. 4.3.407 has a square figure in function aR at the end of the thrust of the tie rod from bicycle to radius of second bicycle. Fig. 3.410 crosses the tie rods twice for two supports on the arm (long-but too short) to balance it.

Claims (1)

CLAIMS 3.416) As above in number 3.414 (which includes them all) and as in the present that he wants to make a self-supporting with two side bicycles (or other geomm. in the hypothesis) has the Active thrust with hooks against the rim (or hook and bridge of sections) and whose reaction is blocked by a rope in function aR (anti-reactive) coming from the middle wheel (large ring) and cata to the other ring e coming from the left bicycle activated by a tie rod between the ring spoke (internal in the hypo thesis) and the medium wheel spoke which has its reaction blocked by the spoke of the other ring, with tie rod (and / or weight; if any) between its radius and that of the first bicycle (right) with or without Centrifugation (C.) and Newton (N.), so the Force (F = = A) where A indicates Initial Action or push. double anti-reaction, therefore free to spin WHEEL TWO, whose thrust, especially if aided by weight, which doubles (almost) at each revolution, is unlimited. Either with one or two tie rods, or with weight without tie rod, tie rods or tie rod only, tie rods only. With no spokes or drag rope (synchrony) between the two wheels. 3.417) Bicycle in eccentric traction of the larger wheel with antireactive ray from the other median, from which also the tie from the oblique ray, with or without trailing rays. 3,418) - 3,419) As above from n.0001 to n.3.417 and to this self-rotating system with 1st type lever on the middle wheel and short arm with hook (rope in traction) pushing the larger wheel with or without hooks (spokes. rope). short arm with hook (rope in traction, or other) pushing the larger wheel, with or without hooks (spokes, rope) for dragging. 3.419} As above in n.3.416 and previous up to n.1, with the go on the middle wheel and rope from the short arm to the rim of the larger wheel. With or without spokes, or rope, or deck hooks. by dragging (or synchrony). 3.420) Pair of tie rods and lever from the rim of the major (bicycles orientable in the center) to the levers on the medium wheel na (opposite side), on which also the other end of the tie rod, and eccentric ropes from the short arm to the same middle wheel, or against the greater wheel. With or without synchronization spokes (ropes, hooks) between the two wheels. 3.421) The usual two concentric wheels with copy tie rods departing from the major rim in alternating traction of two first type levers, one pivoted in the center on the median r.the other on the long arm (but much shorter) of the first lever with eccentric rope against the larger rim. and drag spokes of the two wheels 3.422) Quadrangle of the forces with support in the center hanging between the two concentric wheels and tie rod from a point (open), on the side of the support on the rim, and return of the tie rod on the side opposite to it (support) after the central bicycle, with or without trailing spokes (incronia). 3.423) As the previous 3.422 with open quadrangular fig (other fig.geom.) With eccentric support or rope on the rim side of the single wheel, and two bicycles on the opposite side for the tie rod (with or without weight) with or without hooks towards the center and the two ends of the tie rod from the short arm (side of the quadrangle almost halfway) to the long side (arm). 3.424) Single tie rod crisscrossed on central ring and resting on the rim of the single wheel (more called central ring or small concentric central wheel) on two bicycles and the two ends attached to the double II type lever rod in double lateral thrust of the (true ) concentric median wheel. And drag radii from the middle rim to the larger one. Two bicycles with or without weight (one or the other or both) of weight. 3.425) As above from n.0001 to n.3.424 and to this he constructs a self-rotating system between two concentric wheels of which the rim of the R.Maggiore cancels the two thrusts in the center with one (and lever, levers) or two bicycles ( Active and Reactive: A - R) of the tie rod that goes from the long arm of the lever pivoted on the median wheel to the radius of the lever (or of the other bicycle) that folds at 90 (or in any case) on the oblique radius of the median wheel which with a radius turns said rim - major wheel; added to that of the short arm of said I) ° lever against the other lever. drag (synchrony) for F = A A 'A " 3. 426) As above in n. 3,425 and 3,426 also self-rotating; takes, energy from the eccentric tie rod (spring stretched with or without weight between tie rod and middle wheel), with a fulcrum resting on said middle wheel or on a central axis ring, smaller than it, with 1st type lever, with long arm Active and short arm partially braked by the head altar of the tie rod, lowered, and extended to push (A) the rim of the larger wheel, and using the uniform Reaction (R) to the motion. 3.42740 As the previous 3. 426, but with two levers (one of which is a mixed type: I ° and II °). Superimposed on the long arm of the underlying one, pivoted towards the center with an adjustable bicycle and two pushes against the rim, of the two I ° t levers. With or without drag hooks (spokes or rope). 3.428) As the previous one, also this fig. 3.428 proposes a self-rotating one made with a rim and / or wheel, with an external rope pulled by the short arm of the only 1st type lever pivoted: on the rim or rim of the single wheel, which it also uses the: Uniform reaction (R) to motion. 3.429) As above from n.0001 to n.3.428 and to this 3.429, which makes the motor wheel with the strongest tie rod on the right for the long arm pivoted on the radius of the central ring, opposite from that of the wheel (or rim) pushed by its radius, and pulled by the short inclined and lowered arm to pull the rope on the lateral eccentric radius. 3,430) - As above from n0001 to n.3.429 and to this n. 3.430, which wants to make the WHEEL-MOTOR with 1st type lever pivoted on the ring of the center or one of the two (or only) wheels with centers = that at the greater external pushed by the cortex arm, angled of the aforementioned lever, on which it ends the tie rod, which on the other side pulls the long arm. 3.431) As above in 3.430 each self-rotating with traction and c = centric tie rod with or without weight, which starts from the long arm, on the left (in the hypothesis.) Of 1st type lever, pivoted. on the median wheel (with or without weight) and the short arm, which pushes the angled rod against the bicycle inside the larger rim, pushing the oblique radius of the median wheel, with or without spokes (hooks, rope) for dragging between the rims of the two wheels. 2.432) As above in n.3, 430 each motor wheel made with two concentric wheels of which the median for the support of the tie whose two ends grip the long arm of the 1st type lever, pivoted on the rim of the r.magg . with bicycle or other fulcrum, and the short arm in traction (with rope) or in thrust with wheel hook, med; with or without weight. transc. 3. 433) As the previous 3. 432, but weightless; with or without dragging ropes or hooks (or rope) or synchrony.