ES2404210A2 - Energy generator driven by air-air pneumatic piston (Machine-translation by Google Translate, not legally binding) - Google Patents

Abstract

Power generator driven by water-air pneumatic piston, is a machine designed to get electricity, in a cheap and without major technical complications. To achieve these purposes, the difference in temperature between water and air is used as the main fuel and, as the main incentive, it only needs a difference between both elements of about 5 degrees celsius. Another feature is to rely on the lever, to get the use of existing energy, the temperature difference between water and air, also mention that due to its characteristics, the machine can work whether the water is colder than air, or water is hotter than air. (Machine-translation by Google Translate, not legally binding)

Description

POWER GENERATOR PROMOTED BY WATER PNEUMATIC PISTON -AIRE

OBJECT OF THE INVENTION

Water-air pneumatic piston driven energy generator, describes a machine capable of achieving the circular movement of an axis, with the energy that exists from the temperature difference between water and air, in places such as: Swimming pools, swamps , rivers and oceans.

The purpose of the machine is to achieve cheap energy, without complex technology and at reduced prices. Another reason is to preserve the environment, since the machine does not produce any type of contaminant.

The operation of the machine is based on the increase in pressure that occurs in gases, when we increase its temperature. To get the energy to be harnessed, use the lever form.

STATE OF THE TECHNIQUE

Obtaining energy currently employs both fossil fuels, atomic energy and renewable energy. The constant increase in the energy demand of the countries, makes it insufficient to supply the world population, with only one of the methods described, so the countries are choosing to solve the problem with the sum of these systems.

The current methods of obtaining energy today, lead to various problems, and by way of example, it can be said that radioactive energy has as its main problem the safety that nuclear reactors need, for their operation, the energy produced by means of fossil fuels, contributes to increase the greenhouse effect on the planet and renewable energy, due to the high cost of its technology, depending on its performance.

DESCRIPTION OF THE INVENTION Power generator powered by pneumatic water-air piston, defines a device whose operating scheme is represented in Figure 1, of {: sta patent of

invention.

In Figure 1 we see two circuits separated by the piston (12), housed in the lever tube (4) on the left side of Figure 1 we find: Left liquid heat exchanger (1), left air heat exchanger ( 10), the valve (5) in the open position, the valve (8) in the closed position and the exchanger connection pipe (9). On the right side we have: The right liquid exchanger (13), the right air heat exchanger (3), the valve (6) in the closed position, the valve (7) in the open position and the exchanger connection pipes ( 9).

Figure 1 of this patent shows us a drawing, in which a right liquid heat exchanger (13) is shown, which houses inside a refrigerant gas in a liquid state. If we put the right liquid heat exchanger (13), in contact with water at a temperature higher than the air, there is an increase in pressure inside the right liquid heat exchanger (13), which causes an increase in pressure, at the bottom of the lever tube (4), in turn the increase in pressure, this results in a displacement of the piston (12), towards the top of the lever tube (4) this displacement is limited by the stop of the piston cylinder (2). At the same time that the coolant fills the right liquid heat exchanger (13), the left air heat exchanger (10), is also filled with coolant gas in a liquid state, which causes the pressure difference between the ends of the lever tube (4), be the pressure of the refrigerant gas subjected to the water temperature, in contact with the right liquid heat exchanger (13) and the pressure of the refrigerant gas, subjected to the air temperature, in contact with the left air heat exchanger (10), because in these two exchangers it is where the coolant is concentrated according to figure 1, since these exchangers are in the lowest level position of the two circuits.

The displacement of the piston (12), towards the top of the lever tube (4), causes an imbalance in the axis of rotation (14), rotating it 180 degrees and the refrigerant gas in a liquid state, would pass from the air heat exchanger left (10), to the left liquid heat exchanger (1) and from the right liquid heat exchanger (13) to the right air heat exchanger (3), also due to rotation, the piston

(12) will go from being in the upper part of the lever tube (4), to being in the lower part of the lever tube (4). By rotating the whole set 180 degrees, we will find the initial operating position, although inverted, which would cause the whole set to start a new movement, same as described above, causing the set to rotate another 180 degrees and continue with This rotation, as long as there is a different temperature, between water and air, the condition of the rotation of the lever tube assembly will occur whenever the central axis of the lever tube (4) is outside the perpendicular to the earth's gravity.

According to figure 1, the valve (6) and the valve (8) are in the closed position, and the valve (5) and the valve (7) in the open position, which makes the movement described above possible. If the water has a lower temperature than the air, the valve (5) and the valve (7) would go to a closed position and the valve (6) and the valve (8) would go to an open position which would possible the rotation of the set although the temperature of the water is lower than that of the air.

The axis of rotation (14), is supported on supports (16) and at the ends of the axis of rotation (14), will be attached to a transmission mechanism (15), to take advantage of the generated movement.

DESCRIPTION OF THE DRAWINGS

In Figure 1 we see an operation scheme. Figure 2 shows a lever tube assembly, with heat exchangers and joining tubes. Figure 3 shows the machine with 4 lever tubes (4) without air heat exchangers with rotation axis (14), transmission (15) and support (16)

The drawings have the following numbering and definition:

1 Left liquid heat exchanger.

2 Piston cylinder stop.

3 Right air heat exchanger.

4 Lever tube.

5 Valve 1.

6 Valve 2.

7 Valve 3.

8 Valve 4

9 Exchanger connection pipe. 10 Left air heat exchanger. 11 Piston segment. 12 Piston 13 Right liquid heat exchanger. 14 Spindle axis. 15 Transmission. 16 Support.

MODE OF REALIZATION

Water-air pneumatic piston driven energy generator, for the manufacture of the set, materials will be required, which may be little affected by corrosion, both atmospheric and marine, so that its duration in time is as long as possible. For its use, it is necessary that stored water is available, of the type of rivers, swamps, seas or swimming pools, depending on this capacity will also influence the capacity of energy production.

The size of the machine will depend on both the energy required, and the technology to develop a greater length of the lever tube (4), or a better grinding, of the interior of the lever tube (4) and of the segment of the piston (11), it is clear that an increase in the length of the lever tube, or an increase in the weight of the piston (12) and an increase in revolutions of the rotation axis (14), enable the increase in power, Produced by the water-air pneumatic piston driven power generator. Another feature of the machine is the possibility of increasing or decreasing the number of lever tubes (4) that can be attached to the axis of rotation (14).

The technology that applies this machine, makes its operation possible both day and night, requiring a difference of about five degrees Celsius to achieve the movement of the power generator.

To ensure that the water-air pneumatic piston driven energy generator can produce electrical energy, it is necessary to connect a rotation multiplier to the transmission (15).

Claims (9)

1. -Power generator driven by pneumatic water-air piston, characterized in that it consists of a machine composed of several sets of lever tubes (4), the quantity of tubes is proportional to the amount of energy to be produced. A lever tube assembly (4), is formed by a piston (12), whose displacement occurs, by the pressure difference of the ends of the lever tube (4), the piston (12) divides the machine assembly into two equal parts, on the left part it is composed of a left liquid heat exchanger (1), a left air heat exchanger (10), a communication valve (5) with one end of the lever tube (4), and another valve (8) communicating with the other end of the lever tube (4). On the right side it is composed of a right liquid heat exchanger (13), a right air heat exchanger (3), a communication valve (6) with one end of the lever tube (4), and another valve (7) of communication with the other end of the lever tube (4), the entire circuit will be airtight to house refrigerant gas. 2.-Water-air pneumatic piston driven energy generator according to claim 1, characterized in that the left liquid heat exchanger (1), and the right liquid heat exchanger (13), are located at the ends of the lever tube assembly (4) and the position of both will vary, 180 degrees with respect to the axis of rotation (14) 3.-Water-air pneumatic piston driven energy generator according to claim 1, characterized in that the left air heat exchanger (10), and the right air heat exchanger (3) and the position of both will vary 180 degrees with respect to to the axis of rotation (14). 4. Power generator driven by pneumatic water-air piston, according to claims 1 and 3, characterized in that the left air heat exchanger (10) is connected at one end to the left liquid heat exchanger (1) and in the another end to two valves (5) and (8), the other ends of the valves (5) and (8) being connected to the ends of the lever tube (4). 5.-Water-air pneumatic piston driven energy generator, according to claims 1 and 3, characterized in that the right air heat exchanger (3) is connected at one end to the right liquid heat exchanger (13) and at the other end to two valves (6) and (7), the other ends of the valves (6) and (7) being connected to the ends of the lever tube (4). 6.-Water-air pneumatic piston driven energy generator, according to claim 1, characterized in that the lever tube assemblies (4) will be attached to the machine assembly by means of a rotation axis (14), the position adopted in the axis of 5 rotation (14) will be, gradually, that is, dividing the entire circumference or multiple of the axis of rotation, at angles of equal degrees, the divisor being the number of lever tube assembly (4). 7. Power generator driven by pneumatic water-air piston, according to claim 1, characterized in that the axis of rotation (14), will be supported by supports 10 (16), to secure the whole machine. 8. Energy generator driven by pneumatic water-air piston according to claim 1, characterized in that the axis of rotation (14), will be connected to a transmission (15), to take advantage of the energy produced by the machine. 9.-Water-air pneumatic piston driven energy generator according to claim 1, characterized in that the piston (12) will have piston segments (11) for better adaptation to the lever tube (4). FIGURE! 1 - + 1, ' I'JUl ', , 2-H =: IM , + - 3 4 - + ~

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