GR20180100452A - Engine incessantly producing kinetic energy from gravity - Google Patents

Abstract

An engine designed to generate energy from gravity is disclosed. It consists of a big cylinder where the water force is emerging and bound, a small cylinder, a switch and a propeller all converting the water energy into exploitable kinetic one. When the float descends, the water flows to the upper side to gain dynamic energy so that the float’s energy passes to the water that can now be exploited by conversion into kinetic energy what is carried out by the float, the switch and the propeller. Its low cost of production and its simplicity make it reliable for any application as it has no limitations on the power generation size.

Description

MACHINE THAT PRODUCES KINETIC ENERGY CONTINUOUSLY FROM GRAVITY

DESCRIPTION

The engine refers to the production of energy.

The energy that is produced today has many forms and all of them alternate according to the needs. Whatever its form, it puts a heavy burden on the environment, with the only exception being the mild forms of energy, which are not enough, while the need for more energy leads us to almost destructive ones. environment options. The need to reduce pollution is obvious, culminating in climate change.

This machine makes use of the earth's gravitational field which, with a technique, converts it into an exploitable form of energy. The energy produced is completely clean in the sense of pollution and almost free since the original form exists natively. It does not pollute even sonically.

This very simple machine which in its main functional points has been verified and experimentally follows reverently the laws and rules of physics on which it is based. During the development of the machine and at the points where there is verification, the PE will be written which means experimental verification.

It is divided into two parts: the first concerns the large cylinder whose purpose is to highlight the potential energy of the water and bind it for mining, while the second, through the small cylinder, the switch and the propeller, converts the potential energy into kinetic energy.

A plastic cylindrical tube with a diameter of 40.4 cm and a height of 150 cm, open at the top and closed at the bottom, which from here on I will call a large cylinder (Meg. K) encloses the float, which is plastic with dimensions: Diameter 40 cm and height 40 cm.cylindrical and is 2 millimeters from the (Meg.K) perimeter. In the center of the float there is a cylindrical plastic tube which I will call a small cylinder (Mik.K) with dimensions: diameter 4 cm and height 40 cm. Inside it rests a propeller whose blades start from the surface of the float down to the bottom with an inclination of about 45 degrees and good fit but not necessarily

watertight. The purpose of the propeller is to convert the water flow energy due to gravity and momentum into kinetic-rotational.

Inside the float there is also another pipe between the (Mic.K) and the circumference of the float 8 cm in diameter and 40 cm high, which at the bottom has a mechanical or electric water switch in order to block the flow of water from above down when closed.

The dynamic characteristics of the float are: Area = 3.14 times the square of the radius, i.e. E = 1256 sq.cm. effective float area Een=1256-62.8=1 193.2 sq.cm. Its volume is: Og=Een times H. that is Og=1 193.2 times 40=47728 cubic cm. therefore 47.728 liters and since the specific weight of of water is one the buoyancy of the float is A=47.728 kilograms. As the active path of the float I call its path in (Max.K) during the operation of the engine. This is 100 cm. Therefore, if the float had no weight at all, the work it would produce during the rise would be Ergo=47.728 x 1 = 47.728 kilograms.

We fill the float with water until it gains a weight of 45 kilograms. Now its lifting force is: Dyn.=A-B=2.728 kilograms. While for the float to sink it requires a force of 4.728 kilograms PE. Therefore, its work is Erg.byth.=4.728 x 1=4.728 kilogrammeters. Because the friction is small and cannot affect the operation of the machine, I do not take it into account. A big role is played by the distance of the float from the walls, which is 2 millimeters because it lubricates.

In the helix between the fins there is a helical column of water since it follows the helix downwards which is constant regardless of rotation or not of the helix with a very important peculiarity. Its area changes numerically not really according to the flow of water. Because in the same space (Mik.K) the hydrostatic pressure prevails which constantly ensures the buoyancy but also the transfer of water from top to bottom, any water flow resistance corresponds to a proportional increase in the surface of the float (as if the water column is narrowing for the benefit of the area of the float). This is also the reason why everything is on the float (switch, propeller, small tube). Buoyancy results from the weight of the water column times the ratio Surface 2 to Surface 1 after taking upper water pressure. Where surface 2 is the surface of the float and Surface 1 the surface of the water column. During the process of the rise of the float, the overlying water is forced down through (Mik.K). Its descent speed to the rise speed of the float is: Water speed=Float speed on Surface 2 to Surface 1.After Surface 2=1193 ,2 and Surface 1=12.56 their ratio is 95 which means that if the rising speed of the float is 1 cm/second the speed of the water is 95 cm/second

The speed of rotation of the propeller is the sum of the two because they move in opposite directions, so the flow of water is strong and the propeller turns it into a rotary one. It should be noted that the increase in water speed, which means a decrease in pressure according to Bernoulli, does not affect the transformation of the cathodic to rotary by the propeller because the pressure decreases but the momentum increases, so energetically it is exactly the same, moreover, it follows from the principle of conservation energy's.

Ultimately what happens is the following:

During the descent of the float the water rises above

Consequently, the water acquires potential energy which is the product of its weight along the path, i.e.: 125.6 times 0.4=50.24 kilometers. The energy given to the float to sink is the sum of the energy of its weight and in addition to what we give additives to sink. ie (45 kilograms 4.728) by 1 meter = 49.728 kilograms. This energy is stored in the water in the form of potential energy. However, in order for the float to rise to the surface again, it only needs buoyancy and not the dynamic energy of the water. In order for buoyancy to be exerted, it only needs the weight of the water, regardless of the position of the weight (high or low). So when the water is low, where there is no potential energy in the water, the buoyancy is exerted normally when the water is high again and it has potential energy, again the buoyancy is exerted normally because the conditions for the creation of buoyancy apply. The potential energy of the water is therefore available for exploitation and from this energy the engine exploits a percentage that depends on the coefficient of performance of the conventional engine that is inside and is the converter of the dynamic energy of the water into kinetic energy, i.e. the propeller.

So when the float begins to rise, power is also transferred. water energy in the helix where it turns into kinetic PE.

The resulting energy balance is:

Downward energy of the float En. cat. =-4.728 kilograms the upward energy is ensured by buoyancy and the produced potential energy of the water 50.24 kilograms. Useful energy is therefore their difference and is 50.24-4.728=45.51 2 kilograms. The water descends through of its weight when the float rises therefore all the power water energy is available for conversion into kinetic energy. However, this is impossible because the available weight at any given time must be reduced by the frictions that exist, even if minimal, as well as by the amount that I call the need to maintain the machine in order to ensure continuous operation. Energetically, this is analyzed as follows:

Weight of the water column of (Mik.K) is Area times the height, that is 12.56 times 40 = 502.4 cubic centimeters. So the weight is Weight = 502.4 grams of weight. Of this, I bind 400 grams to the helix. this load must be constant and unchanging, while the 102.4 maintain the machine functionally by lifting and covering the PE frictions.

Here I used water as liquid. However, the machine is somewhat bulky, so it is recommended to use a liquid with a much higher specific gravity, because the volume of water that acquires power. energy is multiplied by the specific gravity of eg mercury which is 13.6 and not that of water which is one. It is a good proposal for the chemical industry to create a liquid with a high specific weight that is also ecological because the above use of mercury from an ecological point of view is highly toxic. Another suggestion is to use a metal with a very low melting point, for example tin. An electrical resistance is inserted around the (Meg.K) which initially melts the tin and then only maintains the losses with a thermostat.

Finally, the rotational movement of the propeller is transferred through a wire drive (rod) outside to a fixed point for exploitation and the switch in the tube of the thec. opens when the float descends and closes when it rises, so the water only passes through (Mik.K) .

A cycle of the machine starts from the float which is on the surface of the (Meg.K) without coming out of the water so that the buoyancy is fully exerted as follows: A lead weight is placed circularly around the (Meg.K) which rises together with the float moved by the cable that rotates from the propeller. This weight sinks the float after the completion of the ascent because it is 4.728 kilograms as much as is required to sink. When the sinking is completed it is released from the float in such a way that the specialist engineer indicates and the rise of the float begins. During the ascent, the strong flow of water develops inside the (Mik.K) and the propeller converts the potential energy of the water into kinetic, simultaneously raising the weight as I said before and rendering the kinetic energy for exploitation. With the completion of the anode, the cycle of the machine is also closed. This is a way of implementing the machine, but it is not binding on the idea that led to the construction. Finally, the entire construction is carried out by a special engineer who decides on the entire structure of the machine and it is different for each type of machine.

The two main parts that make up the machine were verified many times and experimentally as I said in complete agreement with the theory.

It is good for those interested to contact the proposer, because even though the machine is simple, it presents critical points that must be carefully addressed.

Claims (3)

1) A machine that continuously produces kinetic energy from gravity characterized by the fact that it produces energy from a source that is inexhaustible because it exists natively and therefore the production of energy is costless. This is achieved by the large cylinder that highlights the potential energy of the water that is stored during the sinking of the float and which is not needed to return the float to its original state because the buoyancy that performs the return to exist only needs the weight of the water and not its potential energy due to position in which it is located, by converting this potential energy of the water into kinetic energy that is done through the helix, the final kinetic energy is obtained for exploitation as each user wishes, while all these processes are carried out without emitting pollutants. 2) Machine according to claim 1) which is completely silent and which due to its operational simplicity is very reliable. 3) Machine according to claims 1) and 2) which, due to the low cost, is accessible to everyone, thus eliminating transmission lines for individual installation.