ITTO940904A1 - PNEUMATIC, WATER, MECHANICAL AND GRAVITATIONAL SYSTEM FOR THE CREATION OF ENERGY. - Google Patents

Abstract

Pneumo, water, mechanical and gravitational apparatus suitable for the creation of a significant amount of mechanical energy, which can be transformed into other forms of energy, especially in electricity for better use.

Description

PNEUMATIC, WATER, MECHANICAL AND GRAVITATIONAL AREARATE SUITABLE FOR THE CREATION OF ENERGY

SUMMARY

Pneumo, water, mechanical and gravitational apparatus to the erection of a considerable quantity of mechanical energy which can be transformed into other forms of energy. especially in electricity for its better use.

PREMISE

It must first be said that the apparatus to be described and mentioned in the title and in the summary was conceived on the basis of important studies and discoveries in the biophysical field, both plant and animal. You don't seem like a cheerful indifference to physical laws or a badly concealed rust like the monopolizers of official science (if you can say so) or that mathematics has been left aside for convenience. the logic and the laws of physics to run like a stubborn and blind ram to conquest - let's face it with the perpetual motion of the first degree: How can you doubt the principle of conservation of energy? But, from when life appeared on Earth or not long after, it took shape and set in motion, and in very different ways in forms and principles an apparatus for dispensing free energy that for us men has always seemed so confused with life. itself that you never feel its presence. Aware of this reality and without reacting against the dialectic and rhetoric of the Aristotelians, the idea, the desire and then the need to artificially create such an apparatus was born, no longer strictly conjugated to life as happens in nature but, in any case, with different materials, different dimensions and very different systems, but an apparatus still capable of producing energy without the continuous need to keep alive the tissues constituting its structure with the continuous supply of substances. All the components of the apparatus are made of inert material with the characteristic of remaining as unaltered as possible over time and of being chemically stable. If what has been rightly said does not seem neither exhaustive nor convincing, here we are forced to move on to begin the real description by following as much as possible the regulation that governs the matter in terms of patents.

Let it be clear that you do not want to (and would not be allowed to) patent a discovery. We want to patent an apparatus that produces changes in the existing reality as the regulation on the subject preaches and allows the law.

DESCRIPTION

In the text of the description, a summary mention of the invention must be made, expanding what is apparent from the title of the invention itself and a brief description of the state of the art at the moment in which the description is compiled. To the summary mention of the invention, expanding what appears from the title of the invention itself, it can be added that here the principle of energy conservation is turned upside down, which, if it remains valid for what has so far been considered valid, however, it offers an exception as shown here and which seems to cancel or at least mutilate it. But the principle on the conservation of energy remains very valid, as and for what has been considered up to now, but no longer so monolithic as a whole, offering energy, a principle that has never been contradicted even by nuclear reactions (if they have seen correctly) as on the basis of Einstein's famous formula E = mc2 also matter is just a form of energy.

The main feature that is immediately noticeable in our apparatus is the simplicity that cannot fail to disconcert when encountering it in such a shocking mechanism. What is certain is that nature, in order to have the same effects, has resorted to devices that are no longer simple and certainly more effective.

To us, after long and painful adventures among the many possible, feasible and at the same time effective ways, it seemed to us what we are now going to describe. Attached to the description are four tables of drawings which very schematically indicate the position of the various few but essential components. Each table indicates a different position of the components in a particular phase of our apparatus during the energy producing cycle.

Normally then, while the simple apparatus could also work in a single unit, it is preferred to have it work in pairs with another unit that is completely identical but in opposite phases. To reduce and simplify this description we will pause to talk about one particular exceptions.

A brief description of the state of the art is then required, always at the moment in which the description is compiled.

Although I do not fully understand what is meant by state of the art "which may mean to allude to art in its practice or to the particular artistic technical language or even to the possibilities that it has or does not have of translating the invention into concrete when the technique is currently introduced in the field which is the object of the invention Briefly and with the most complete assurance, it is stated that the current capabilities of the technique enable the technique itself to produce with extreme ease each component of the invention in object making it concrete and if he never did it, it is only because the problem was never posed, the thing was not invented!

At the moment in which the present description is drawn up, nothing exists similar that has been produced by man and understood as the result of his ingenuity or by the technique at his disposal, nothing The object of the invention, at the cost of repeating itself, is a apparatus suitable for the creation of energy and which goes against the principle of conservation only of the apparatuses and which will then form a couple with another identical apparatus.

With the help of the attached tables of drawings, we now pass on to describe the elements that make up the apparatus, which in all are LITTLE MORE than a dozen. However, even if few, they are able and sufficient to produce free mechanical energy.

We do not take into consideration or, better still, we do not describe transformation processes from mechanical energy into electrical energy or other forms of energy. That remains an elementary engineering task that would be out of place or at least useless to deal with. Mechanical energy is the first and only energy that we tend to reach and produce with the apparatus we are going to describe here.

Let's look at the attached table number one which schematically represents the apparatus and the essential elements of which it is composed and let's describe them individually.

The element marked in the drawing with the number one is the tank, partly filled with liquid, which can also be water and not necessarily very pure, in which all the other elements are immersed or submerged.

The requisites of the tank are the impermeability which prevents loss of liquid where this cannot be restored, and the shape which can vary, although it allows the free movement of the apparatus in it.

The tubular element closed at the upper end and open at the lower end marked in the plate with the number two. it is always immersed in the tank liquid. It contains most of the remaining elements that make up the apparatus; element number three element number four and for the totality of its capacity filled with liquid of the same nature as that contained in the tank and always contains in itself part of element number five

In the upper part of it in that part marked in the table number one with the number seven contains gas and the vapor deriving from the liquid contained in the tank marked in the table with

number one and in the tubular element seen in the table with number two

The element that in table number one appears with the number three, as well as constituting the axis of the whole apparatus, in a special way of the tubular element number two, also has the function of always following. extending and shortening, the excursions in the vertical direction of the tubular element number two and, as we shall see, it has still other functions. The element number three, is composed of tubular elements contained one in the other and sliding between them like a telescope. The tubular element that anchors itself to the bottom of the tank as well as being of greater diameter than the others, so as to be able to contain them all, is also as high as the liquid contained in the tank. thus reaching the line A-B which marks the surface of the liquid. The remaining tubular elements making up element number three are inserted in succession into this first tube. The last tubular element of the high end of element number three is fixed, as clearly indicated in plate number one and also in plates number two and three, to tubular element number two. So that the element number three can accompany and eventually guide in the continuous vertical movements and in both directions, the element number two and so also the elements number four and five

Element number four. This important element consists of two distinct parts which are superimposed and saidate to each other. The upper part has a specific weight equal to that of the liquid contained in the tank; the lower part has a very low specific weight and weight-to-volume ratio such that if the element number four is placed to float in the liquid of the tank, turning its light part to the latter, this receives an upward hydrostatic thrust such that it can lift out of the liquid its upper parate heavy as the liquid.

Element number five. a rigid and sturdy element solidly anchored to element number four. It can take on different shapes and be anchored to element number four in points. different and different ways his element just suggests a way to take mechanical energy from element number four that produces it as we will see later.

Element number six forms a body with element number two and slides vertically in both directions along the piece of tube which constitutes the first section at the bottom of element number three.

Apart from the elements described and contained in tables number one, two and three, we will encounter others contained in table number four. They are also simple and few and that we could define auxiliary: useful for the operation in pairs of two apparatuses

OPERATION Leaving aside on purpose and for the sake of brevity how a single apparatus could work, not paired with another apparatus, let us describe immediately and only how an apparatus works with another apparatus. So we have to turn to the table of drawings number four attached here ..

Table number four is schematized in such a way as to simplify understanding as much as possible.

The basin still marked with number one in the attached table number four now takes the form of two communicating vessels only to better highlight the

in the liquid of the vessels, perpendicular to the surface of the liquid itself and marked in table number four with Z 'the one on the left and with Z "the one on the right. To them, segments Z1 and Z" are solidly and rigidly connected other segments, marked in the table with P1 the one connected with the left apparatus and with P "the one connected with the right apparatus. If these segments P1 and P11, as shown schematically but clearly by table number four, are tangent to a wheel that rotates freely on its axis, a wheel that is marked with the letter R on the table, assuming that such segments P 'and P "are forced to move rigorously and only at the peripheral speed of the wheel R, it follows that if the right apparatus is lowered for a distance equal to x, the left apparatus must also rise for an equal distance and vice versa. phases which are quite opposite and opposite to each other. In table number four, the apparatus on the right can be compared in the position in which the devices depicted in tables number two three are found: the column of liquid contained in element number two is located at maximum height; the apparatus which is on the left and again in table number four is found on the contrary in the conditions shown in

table number one in the opposite position and in the opposite Condition: minimum liquid column height (to say nothing).

With what has been said and always referring to table number four, a few can escape the analogy that actually exists between what has been said, aided by the scheme of table number four, with the pendulum the laws that govern it. The periodic movement and the inversion of position of the apparatuses Including the possible artificial and indispensable for us to stop at the point of greatest amplitude of oscillation, everything falls within the laws of the pendulum.

regardless of passive resistances, it would oscillate indefinitely ".

No we do not want to ignore the resistances! Perfectly aware that the pendular motion, in order to preserve itself, requires the restoration of the lost forces to last, we add exactly the lost forces. If we do this (plate number four), the left apparatus will rise up to and precisely at the height where the right one was, raising a

precise and identical column of liquid. The right apparatus will instead find itself in the precise position in which the left one was: devoid of a column of liquid weight and level that previously belonged to the left apparatus: this is a simple oscillation.

As for the pendulum, if we stop it at the point i maximum amplitude of the oscillation, we keep all the potential energy in it, so if we release it free, even after a long time, that energy will find it all again and it will be highlighted; the pendulum will resume swinging as if nothing had happened Our apparatus, as well as the pendulum if they are stopped at the point of the maximum amplitude of the

their oscillation just like the pendulum, they can resume swinging after a time that does not need to be specified.

After all this arguing, let's get back to us and proceed with the description.

We have already said how the left apparatus of table four can be compared to the apparatus represented in table number one, where element number four, by means of element number five, was pushed just below the line A-B or in any case collimating with its top to the line itself.

very clearly evident that the energy for this operation is not lost but totally recoverable. Element number four is temporarily fixed by means of a simple utomatic mechanism to element number three and thus can also be automatically released at the appropriate time by the same elementary simple mechanism.

The apparatuses held and hitherto immobile on the point of the greatest amplitude of oscillation, are now released. An up and down occurs whereby the devices invert their position (simple oscillation) The left device (table number four) rises to assume the positions, fully raised, of table number two, while element number four remained in the tank liquid bounded on the surface by line A-B. At this point the devices automatically stop and are immobilized. Also at this point, element number four is automatically released and, reminding us that it is composed of two joined parts, of which the upper one has a specific weight equal to that of the liquid, so that in the liquid it is neither useful nor hindering, the lower one of low specific weight rises, pushing all the element number four towards the top of the liquid column pushed by the hydrostatic pressure: free force, created force!

When the upper part of element number four reaches the space, marked in tables number one, two and three with the number seven, in addition to slowing the upward stroke of the element itself, it keeps the half submerged in the liquid, the lower half of it the low weight one. specific. and ensures that the weight of the liquid contained in element number two does not vary. In fact, if the element number four invading the space number seven inevitably causes a decrease in the level of the liquid contained in the element number two that same quantity of liquid. it will always be found in the element number two and in the space number seven as it is contained in the upper part of the element number four precisely in that part that has invaded space number seven and in exactly the same measure. Meanwhile, in the other apparatus, which is also immobilized. element number four was pushed below line A-B and automatically fixed to respective element number three. From this moment on, the apparatuses are still automatically released and will perform a second oscillation making, after all, a complete oscillation. Allow us to use from time to time where necessary that terminology proper to the laws governing the motion of pendo are. At the end of the second oscillation and only when the apparatuses have reached the exact starting position by virtue of the complete artificial restoration of the energy lost due to friction or other causes will they automatically return to being held motionless on that position.

Now as already happened for the other apparatus, the element number four which is still fixed to the element number three and under the line A-B is automatically released and its forced ascent towards the top of the liquid column contained in the element number two, propelled by the hydrostatic force and still creating energy. In a complete oscillation of our two paired apparatuses, we have also had two moments of producing free energy which is that energy our invention tends towards.

Basically, our apparatus considered individually, is a set of two intimately intertwined systems: one that provides for the circulation of the liquid and that is the oscillatory one almost entirely obedient to the law of the pendulum, which does not produce energy but absorbs it; a second system instead that produces only energy and much more than the first one absorbs.

It is clear that the first system could not exist without the help of the second and vice versa, the second could not exist without the help of the first.

Thus, from oscillation to oscillation interspersed, all from a suspension of movement where the paired apparatuses reach the maximum amplitude of oscillation, the production of free mechanical energy and movement is repeated indefinitely. achieving the PURPOSE prefixed by the present invention to produce free energy, created energy.

Let's spend a few words considering the remarkable versatility of the apparatus described here. Keep in mind that each component boasts the rare requirement of elementary simplicity and that each of them can be built from various and economically convenient materials. None of the elements must necessarily have fixed shapes. Some elements described may, in some cases, even be suppressed. Consider in particular the case of the tub: if the sea were to be replaced instead of the tub, it would not be necessary at all. But if the sea lends itself wonderfully well, it does not detract from the fact that our apparatus can also function in the waters of a lake, natural or artificial, or on dry land. HOW IT WORKS It can also be simply said that there is no area on the globe where it cannot function, including the polar areas.

Clean energy? No other energy source surpasses it in this, not even remotely.

Renewable? It is simply perpetual, barring deliberate or accidental interruptions.

Mechanical energy originates from the apparatus which can be used as such but which can be easily transformed into electrical energy which, as we know, can easily be transported and distributed and become versatile in its applications.

The attached tables have the sole purpose of helping to understand and are certainly not valid proportions, measures or relationships: everything, including shapes, can vary in practice. All the details of execution may in any case vary without departing from the scope of the invention and therefore from the domain of the invention patent.

Claims (5)

CLAIMS 1) Pneumo, water, mechanical and gravitational apparatus for the creation of considerable quantities of mechanical energy. susceptible to being transformed into other forms of energy in an articulated way into electrical energy for its best application and use. 2) First successful attempt to imitate that organ or those very diversified systems. with which or with which Nature supplied and endowed almost all living beings. animal and vegetative, always and in any case in close union with Life itself, both animal and vegetable. 3) First degree perpetual motion. but which has nothing to do with the concept of perpetual motion · taken into consideration by official science in the principle of conservation of energy; that remains so and valid. Here we draw on and try to imitate a hidden reality that has already existed for many hundreds of millions of years, nested in physical biology not in the chemical or physical elements considered individually in matter in general. 4) The only apparatus described or summarized in point 1) and taken into consideration in the description and in the attached drawings is claimed, absolutely leaving aside the discovery of a biological nature even if it is the merit of the same author, aware of the non-patentability of the discoveries. 5) The synergistic juxtaposition is claimed between what is the oscillatory system, with periodic motor interruption, of which we have spoken extensively in the description and which absorbs energy, with the ergomotor system which is also an interruption opposite and opposite to that of the first system (to that oscillatory) which, on the other hand, produces energy and much more than the oscillatory system absorbs in order to maintain an oscillatory motion of constant amplitude even if at times interrupted.