WO2022238597A1 - A self-sufficient electric power generating device - Google Patents

Abstract

A self-sufficient electric power generating device comprising a chassis (100) housing an electric motor (1) which is connected to an axle (2) associated with an alternator (3) that generates electricity which is transmitted to an inverter or electrical panel (4) that transfers the energy, diverting a small portion to a battery (5) that powers the motor (1); and characterized in that the shaft (2) incorporates, in a first section or block (2a), a system of off-centre counterweights (6) which, when the required revolutions per minute are reached, generate forces on the shaft (2), allowing it to rotate in a constant manner; and, adjacent to same, the shaft (2) incorporates compensation means (7) comprising one or several magnets, responsible for acting on the shaft (2) to maintain the rotation generated in a stable manner in terms of speed and force.

Description

1

DESCRIPTION

SELF-SUFFICIENT ELECTRICITY GENERATOR DEVICE

Object of the invention

The object of this report is a self-sufficient device that generates electrical energy, whose main characteristic advantage is the production of energy in a constant and stable way in a simple way, since it uses an axis driven by a main motor until said axis reaches the revolutions necessary, once the shaft begins to rotate continuously and self-sufficient, this motor stops working assuming zero or minimal consumption.

The device has a storage cell or battery, for starting this engine, this cell is charged at all times by the energy that the alternator develops itself, and where said cell also develops another safety function, if at any time the performance of the axis drops for some reason, the main motor acts to reposition the axis at the necessary revolutions, thus providing a safety support, with the rotation of the self-supporting axis and the main support motor, we get the system to be in operation without interruption with the necessary specifications to obtain the required energy.

After the output of the alternator, the system has a controller inverter or certified electrical panel, which studies and filters the energy for a constant output of this energy, committed to total safety.

Background of the invention

At present, there are a multitude of solutions aimed at the production of electrical energy, most of them have the need to specify a fuel or an energy source that feeds it, whether fossil or renewable.

The problem with these solutions lies mainly in the fact that they specify that they are polluting (in the case of fossil fuels or nuclear energy) or, they require two

DEe large infrastructure and are difficult to manage (such as renewable energy, which depends on the existence of a primary source of energy).

To all this, we must add another object that is not insignificant, such as the fact that in both cases they require a production higher than the demand, capable of assuming the losses in the transport or transmission over long distances by the electrical transmission networks. .

For this reason, solutions are needed that allow the decentralization of electricity generation and distribution and that are, in turn, capable of allowing self-management and/or operation regardless of weather conditions or the time of day or year in which it is located. , a fact that cannot be achieved, for example, with solar self-consumption even when implementing storage batteries.

To alleviate this problem, the applicant is aware of the existence of application W02006/045333 that describes a repellent magnetic motor that comprises a rotating axis around its longitudinal axis, a first set of magnets arranged around the axis in a rotor to rotate with the shaft, and a second set of magnets arranged in a stator surrounding the rotor, wherein the second set of magnets is in interaction with the first set of magnets, wherein the magnets of the first and second set of magnets are at least partially magnetically shielded to concentrate its magnetic field strength in the direction of the gap between the rotor and the stator.

The applicant is also aware of the existence of other documents that are based on the concept of the use of magnets for the production of electrical energy, such as, for example, documents DE 35 26 806; FR 2 851 092; FR 2 310 019, US 2003/234590, W02020/162846, WO2021/038255, WO2016/142721, WO2013/110960, AU2014240249, W02010/131056, US 14/570732, EP 3 291 428, EP 2 249 467 031 205 AND DE 102009034343; and even the publication by Angrist S.W: “Perpetual motion machines” from Scientific American Inc.

Although all of them logically speak of devices that could solve this function, none of them uses a main shaft that is capable of rotating autonomously with the greatest possible existing efficiency so that the same shaft transmits its energy to a current alternator for the production of said electrical energy, using about 3 magnets that do not generate rotation, but rather, as in the case of the present invention, serve to control the performance of the device, that is, to control its rotation.

And where, said axis is designed or materialized in different sections where each section is designed and developed with decentered counterweights, which when reaching the necessary revolutions per minute (r.p.m), are balanced generating forces on the axis that allows it to rotate from constantly, developing a constant force on the axis and a constant controlled rotation, and in this way, constantly generate electrical energy, regardless of external factors, whether climatic or of another type.

Finally, each section will also contain a complementary support system, to said main axis through means of compensation or counterweight, generated by one or several magnets, which act on the axis to correct and maintain the generated rotation (that is, to control the rotation performance and not to perform the rotation like other similar solutions), this adjustable magnet support allows to maintain the constant rotation produced by the counterweight generating a stability of rotation and force.

Description of the invention

The technical problem that the present invention solves is to achieve a means or device for the generation of energy, capable of generating a constant flow of energy without the support of external sources (renewable or chemical), in an autonomous way through the use of an axis with the help of a compensation system with a magnet and a system of offset counterweights, as described here. For this, the self-sufficient device that generates electrical energy, the object of this report, comprises a chassis that houses an electric motor that is connected and transmits inertia or rotation to an axis that is connected to an alternator to which it transmits its rotation energy. To generate electricity, it transmits the energy generated to an inverter or electrical panel so that it transfers the energy to the network or to the desired site, diverting a small part of it to a battery in charge of powering the motor so that the device remains self-powered. ; and which is characterized in that said shaft incorporates in a first section or block, a system of offset counterweights that allows the shaft to balance itself when it reaches the necessary revolutions per minute (rpm), generating forces on the shaft that allows it to rotate constant form; and adjacently, the shaft incorporates compensation or counterweight means that comprise one or more magnets, 4 responsible for acting on the axis to maintain the spin generated in a stable manner in speed and force.

Thanks to its design, the invention described here does not need to use any type of raw material of a natural nature in the environment or chemical or combustion material. In this way we continuously generate energy with the same yield in a sustainable way.

This implies that it does not need any type of chemical element or reaction with any of these; eliminating any type of combustion of any fuel eliminating contamination and therefore making it suitable for its implementation or installation in any type of place, whether outdoors or in buildings of all types: homes, industries, as a means of feeding points for recharging electric vehicles, or implementing it for use as a generating element for the conventional electrical network; generating sustainable energy continuously and autonomously.

This axis will be mounted on a chassis to guarantee its perfect turning operation and to be able to control the output transmission, which may be generated by pulleys and belts or gears, depending on the power required and the generator system model; It may be accompanied by electrical systems with their own self-consumption such as forced ventilation, air conditioning, dehumidification and/or any element needed to balance the operation of the generating system.

The device will be equipped with a communication system, so that the same system sends performance, stop or maintenance messages.

The operation of the device is relatively simple, the device itself incorporates a main motor that starts the generating system by transmitting rotation to the main shaft; once the main shaft reaches the optimum turning speed, it starts turning autonomously without needing the help of the main motor and its motor consumption practically disappears, even coming to a complete stop.

The shaft transmits this rotation to an alternator (either direct or alternating current, depending on the specific needs according to its use), this obtained electrical energy passes to an inverter or to a certified electrical panel, which rectifies and limits the actual output of desired electrical energy so that a controlled output measure required by the customer is always obtained without stability defects. 5

The inverter itself can also power a battery charger associated with a small battery installed in the device, which will in turn power the starter motor, thus closing the circuit without requiring external power at any time and making it fully autonomous.

By having internal load autonomy and being able to produce electrical energy, the main motor remains support and security, in this way if at any time it has to act to maintain the necessary rotation in the main axis, it would be activated momentarily and deactivated again. , but at all times the generating system continues to produce electrical energy without changing its production performance.

Throughout the description and claims the word "comprises" and its variants are not intended to exclude other technical characteristics, additives, components or steps. For those skilled in the art, other objects, advantages, and features of the invention will emerge in part from the description and in part from the practice of the invention. The following examples and drawings are provided by way of illustration, and are not intended to limit the present invention. Furthermore, the present invention covers all possible combinations of particular and preferred embodiments indicated herein.

Brief description of the figures

Next, a series of drawings that help to better understand the invention and that are expressly related to an embodiment of said invention that is presented as a non-limiting example thereof, is briefly described.

FIG 1. Shows a schematic view of the elements that make up the self-sufficient device that generates electrical energy, the object of this report.

FIG 2. Shows a schematic view of the operation of the self-sufficient device that generates electrical energy.

Disclosure of a detailed embodiment of the invention

A preferred embodiment of the invention is shown in the attached figures. More specifically, the self-sufficient device that generates electrical energy, the object of the 6 present memory is made up of a chassis (100) that houses an electric motor (1) that is connected and transmits inertia or rotation to an axis (2), and where said axis (2) incorporates in a first section or block (2a ), a system of offset counterweights (6) that allows the shaft (2) to balance itself when it reaches the necessary revolutions per minute (rpm), generating forces on the shaft (2) that allows it to rotate constantly; and adjacently, the shaft (2) incorporates compensation or counterweight means (7) comprising one or more magnets, responsible for acting on the shaft (2) to maintain the rotation generated in a stable manner in speed and force.

At the entrance and exit of the section or block (2a) there is a first and a second bearing (9a, 9b) that allow the perfect concentricity and alignment of the axis (2).

In a practical embodiment, for installations that require large power generation needs, a second block (2b) made up of a third bearing (9c) associated with a bridge (10) made up of two wheels that work by a crank-crank system, and where the ends of said bridge (10) will be pushed by static electricity generated by opposing magnets.

In a particular embodiment, the compensation means (7) will consist of a magnet outside the axis (2) perpendicularly; and a second option, inside the axis (2) facing each other with two individual pieces, one of which is fixed to the structure or chassis (100) and another fixed to the axis (2), and whose implantation will determine the device power.

The shaft (2) is connected to an alternator (3) to which it transmits its rotation energy to generate electricity, this transmits the generated energy to an inverter or electrical panel (4) to transfer the energy to the network or to the site desired, diverting a small part of it to a battery (5) in charge of powering the motor (1) so that the device remains self-powered.

In a practical embodiment, the transmission between all the components will be carried out by means of pulleys-belts or by a gear system, depending on the force that needs to be transmitted.

The device will be equipped with a communication system, so that the same system 7 send performance, shutdown or maintenance messages.

In a practical embodiment, the chassis (100) may incorporate means of ventilation, either of the forced type, air conditioning, dehumidification and/or any element needed to balance the operation of the device and prevent it from overheating.

Claims

8 CLAIMS

1.- Self-sufficient electric power generating device comprising a chassis (100) that houses an electric motor (1) that is connected and transmits inertia or rotation to a shaft (2) that is connected to an alternator (3) to which transmits its rotation energy to generate electricity, it transmits the generated energy to an inverter or electrical panel (4) so that it transfers the energy to the network or to the desired site, diverting a small part of it to a battery (5) in charge powering the motor (1) so that the device remains self-powered; and which is characterized in that said shaft (2) incorporates in a first section or block (2a), a system of offset counterweights (6) that allows the shaft (2) to reach the necessary revolutions per minute (r.p.m.), they are balanced generating forces on the axis (2) that allows it to rotate constantly; and adjacently the shaft (2) incorporates means of compensation or counterweight (7) comprising one or more magnets, responsible for acting on the shaft (2) to maintain the rotation generated in a stable manner in speed, force and performance.

2. Self-sufficient electric power generator device according to claim 1, wherein a first bearing (9a) is located at the outlet of the section or block (2a) that allows perfect concentricity and alignment of the axis (2).

3.- Self-sufficient electric power generator device according to claims 1 - 2, wherein a second block (2b) made up of a second bearing (9b) associated with a composite bridge (10) will be located at the output of the first block (2a). by two wheels that work by a crank-crank system, and where the ends of said bridge (10) will be pushed by static electricity generated by opposing magnets.

4 Self-sufficient electric power generating device according to claims 1 - 3 wherein the compensation means (7) are made up of a magnet outside the axis (2) perpendicularly.

5. Self-sufficient electric power generator device according to claims 1-3, wherein the compensation means (7) are made up of a -9- magnet located inside the shaft (2) facing each other with two individual pieces, one of which is fixed to the structure or chassis (100) and another fixed to the shaft (2).

6. Self-sufficient electric power generator device according to claims 1-5, wherein the transmission between all the components is carried out by means of pulleys-belts or by a gear system.

7. Self-sufficient electric power generator device according to claims 1-6, wherein the device is equipped with a communication system that sends performance, stop or maintenance messages.

8. Self-sufficient electric power generator device according to claims 1-6, wherein the chassis (100) incorporates ventilation means such as forced ventilation, air conditioning, dehumidification and/or any element that prevents overheating.