OA20671A - Device for producing electric current by converting thermodynamic, mechanical and aerodynamic energy into electric current. - Google Patents

Abstract

The present invention is a 3 in 1 machine which produces electricity with renewable energy according to the principle of thermodynamics, mechanics and aerodynamics. The combination of these three systems offers total independence to the machine as well as a production power untested until today; moreover, the machine is equipped with innovative technology on each of its three combined systems, in particular the use in the thermodynamic system of chrome magnifying glasses equipped with quartz as sensors on the parabola which have the effect of amplifying the heat received, and playing an important role in energy conservation. An adaptation of two automatic motor components on the mechanical system placed in the middle of the machine and connected to each of the 2 other systems, hence the independence of the machine. An innovative scaled-down wind platform layout on the machine that captures and amplifies incoming wind while generating electrical power.

Description

The present invention relates to a device for producing electricity by converting solar, mechanical and wind energy into electric current.

From the publication FR.W1KIPED1A.ORG is known a device for producing electricity using solar energy. This device comprises either photovoltaic plates or reflecting mirrors (ucsp).

The main disadvantages of this device are the need for a high rate of sunshine of more than 2000 KWH/M2/Year as well as a large quantity of water to clean the mirrors; which limits its installation to areas that should benefit from the laws of large quantities of water and a high rate of sunshine for the uscp.

As for photovoltaics, their production cost is the major drawback, but they are also sensitive to hail and frost and have intermittent production due to the absence of sunlight at night.

From the publication FR.FEE.ASSO, it is known a device that converts the kinetic energy of the wind and transforms it into electricity called wind turbine.

One of the technical issues that arises when using such a device is that it depends on the topography, weather and environment. In addition, it is difficult to anticipate the winds.

The object of the invention is to provide a device for capturing solar energy using chrome magnifying glasses as sensors instead of mirrors or PVs, remedying the drawbacks mentioned and improving the device for a more profitable and permanent production.

The system adapted to the machine is completely independent of the terrain because it has a shell. In addition, it is equipped with driving propellers which rotate automatically thanks to the mechanical system and thus overcome the problem of intermittency known from the prior art.

The subject of the invention is a device for producing electric current from three (03) combined autonomous energy systems comprising a thermodynamic system which advantageously is authenticated by an accentuated amplification of the solar energy received thanks to chrome magnifying glasses provided with quartz crystals installed on a parabola as sensors. According to these different characteristics, the device also comprises a system

-120671 imagined mechanical, based on the principle of clock tilting and which has two independent subsystems ensuring the constancy of production of the machine even in the event of technical breakdowns. Finally, the device is equipped with an aerodynamic system inspired by the wind turbine which stands out by accelerating the kinetic energy of the wind thanks to a new arrangement of the propellers in a spiral-shaped tube whose diameter decreases from top to bottom. .

Other characteristics and advantages of the invention will appear on reading the following detailed description for the understanding of which reference will be made to the appended drawings in which:

- Figure 1 is a schematic representation of the solar system according to the invention

- Figure 2 is a partial sectional view of the wind system according to the device

- Figure 3 shows an embodiment of the device

As shown in the figures, the device comprises an element (1) which will be called a support. It is about 12 meters high. On the surface, it is equipped with a parabola (2) fitted with chrome lenses (3). The heat energy of the sun is captured by these magnifying glasses equipped with quartz crystals which accentuate the heat received then concentrate it towards a point of the parabolic receiver. This Energy is then conveyed by a heat transfer fluid to a boiler (8), which helps to increase the temperature of the water located in it. The steam thus produced at high pressure rises towards a turbo-alternator unit (9), on its way it actuates a turbine which is coupled to an alternator; electricity is thus produced. A condenser (10) located below will collect the steam and cool it so that it liquefies to be sucked up by a pump (1 1) and sent back to the boiler so that the cycle begins again. However, the thermal inertia of the heat transfer fluid allows it to maintain its very high temperature for another 6 to 8 hours after sunset. Referring to Figure 3, the device according to the invention comprises a motor member sensitive to movements and winds which will be called a pendulum. This engine is doubled corresponding then to two pendulums:

a I ^st pendulum (4) placed at the top of the support is connected to the axis of rotation of the parabola by a barrel spring (6) and a sliding pinion. It is equipped in itself with two sprockets. When the device in operation emits vibrations, the ^1st pendulum is activated and transmits its driving force to these two pinions, in particular a center pinion connected to the axis of rotation of the parabola, which allows its rotation during of the day following the positions of the sun according to the time, as well as an escapement pinion which goes

-220671 store the kinetic energy of the driving force by progressive contraction of its spring equipped with a pawl. This escapement pinion is connected to that of the 2nd balance wheel (5) by a crown.

The 2nd balance (5) is connected to the driving propellers of the aerodynamic system according to the same principle as the ^1st balance: its driving force will drive the movement of these propellers (14). At nightfall, the dish being at the end of its movement, its barrel spring (6) is contracted to the maximum and therefore seeks to relax, thus transmitting kinetic energy to the pendulum (4) to which it is connected. This then transmits it to these two pinions, which will release the spring pawl of the escapement pinion. By distributing it, the escapement pinion of the balance (4) will drive the escapement pinion of the balance (5) by its crown. The two moving pendulums thus ensure the functioning of the mechanical system at night. The dish will rotate to its initial position at sunrise. This system covers the risk of cuts linked to technical breakdowns because after two to three days of operation the pendulums have acquired enough kinetic energy to continue to operate without triggers.

In accordance with Figure 2, an element (7) represents a spiral-shaped tube which regresses in diameter from the top to the bottom, placed between the rocker arm (5) and the turbo-alternator unit (9). 11 is equipped on these edges several mini helices (14) turned towards the inside of the tube and connected to mini coils on the outside. When the winds start moving, these propellers begin to spin and the wind produced inside the tube sees its speed and pressure amplified as it descends through the tube.

Note that in the absence of wind, this is produced by the driving propellers connected to the pendulum (5).

The wind therefore circulating in the tube simultaneously increases the speed of rotation of the propellers, which will activate the mini coils outside the tube to which they are connected, thus creating electrical energy in each coil; all this energy is concentrated towards a transformer.

moreover, arriving at the bottom inside the tube, the wind will activate a mechanical motor (12) which will transform the kinetic energy of the latter into electrical energy directly. But still to increase the cohesion in ecology, an atmospheric water generator (13) connected to the mechanical engine will recover the air losses and cool them

-320671 below the dew point to obtain cold water vapor which will escape from the device, thus reducing pollution by cooling the atmosphere, which contributes to reducing the greenhouse effect.

The present invention is in no way limited to the embodiments described and represented, but those skilled in the art will know how to make any variant in accordance with their spirit.

Claims (7)

1. Device for producing electric current comprising three (3) combined autonomous energy systems characterized in that it comprises: - a thermodynamic system which advantageously is authenticated by an accentuated amplification of the solar energy received thanks to chrome magnifying glasses fitted with quartz crystals installed on a parabola as sensors; - a mechanical system based on the principle of tilting the clock and; - an aerodynamic system that stands out for accelerating the kinetic energy of the wind thanks to a new arrangement of the propellers in a spiral-shaped tube whose diameter decreases from top to bottom; said systems cooperating to produce electricity by converting solar, mechanical and wind energy into electric current. 2. Device according to claim 1 characterized in that to absorb solar energy, it uses chrome magnifying glasses as sensors and parabolic reflectors. 3. Device according to claims I and 2 characterized in that the thermal properties of said quartz crystals make it possible to amplify the heat of the solar radiation which they receive. 4. Device according to claim 1 characterized in that the mechanical system consists in the use of kinetic energy coming from all kinds of movement and the conversion of this energy into mechanical energy. 5. Device according to claim 1 characterized in that it can operate without natural air flow thanks to mechanical energy to produce wind energy with driving propellers. 6. Device according to claim 1 characterized in that the aerodynamic system consists of the installation of a wind system comprising several mini propellers inside a tube of shrinking diameter. 7. Device according to the preceding claims, characterized in that to produce electrical energy, this consists of capturing the wind with the pressure in a mechanical motor which transforms its kinetic energy into electrical current.